breech presentation wikipedia

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Breech Births

In the last weeks of pregnancy, a baby usually moves so his or her head is positioned to come out of the vagina first during birth. This is called a vertex presentation. A breech presentation occurs when the baby’s buttocks, feet, or both are positioned to come out first during birth. This happens in 3–4% of full-term births.

What are the different types of breech birth presentations?

• Complete breech: Here, the buttocks are pointing downward with the legs folded at the knees and feet near the buttocks.
• Frank breech: In this position, the baby’s buttocks are aimed at the birth canal with its legs sticking straight up in front of his or her body and the feet near the head.
• Footling breech: In this position, one or both of the baby’s feet point downward and will deliver before the rest of the body.

What causes a breech presentation?

The causes of breech presentations are not fully understood. However, the data show that breech birth is more common when:

• You have been pregnant before
• In pregnancies of multiples
• When there is a history of premature delivery
• When the uterus has too much or too little amniotic fluid
• When there is an abnormally shaped uterus or a uterus with abnormal growths, such as fibroids
• The placenta covers all or part of the opening of the uterus placenta previa

How is a breech presentation diagnosed?

A few weeks prior to the due date, the health care provider will place her hands on the mother’s lower abdomen to locate the baby’s head, back, and buttocks. If it appears that the baby might be in a breech position, they can use ultrasound or pelvic exam to confirm the position. Special x-rays can also be used to determine the baby’s position and the size of the pelvis to determine if a vaginal delivery of a breech baby can be safely attempted.

Can a breech presentation mean something is wrong?

Even though most breech babies are born healthy, there is a slightly elevated risk for certain problems. Birth defects are slightly more common in breech babies and the defect might be the reason that the baby failed to move into the right position prior to delivery.

Can a breech presentation be changed?

It is preferable to try to turn a breech baby between the 32nd and 37th weeks of pregnancy . The methods of turning a baby will vary and the success rate for each method can also vary. It is best to discuss the options with the health care provider to see which method she recommends.

Medical Techniques

External Cephalic Version (EVC)  is a non-surgical technique to move the baby in the uterus. In this procedure, a medication is given to help relax the uterus. There might also be the use of an ultrasound to determine the position of the baby, the location of the placenta and the amount of amniotic fluid in the uterus.

Gentle pushing on the lower abdomen can turn the baby into the head-down position. Throughout the external version the baby’s heartbeat will be closely monitored so that if a problem develops, the health care provider will immediately stop the procedure. ECV usually is done near a delivery room so if a problem occurs, a cesarean delivery can be performed quickly. The external version has a high success rate and can be considered if you have had a previous cesarean delivery.

ECV will not be tried if:

• You are carrying more than one fetus
• There are concerns about the health of the fetus
• You have certain abnormalities of the reproductive system
• The placenta is in the wrong place
• The placenta has come away from the wall of the uterus ( placental abruption )

Complications of EVC include:

• Prelabor rupture of membranes
• Changes in the fetus’s heart rate
• Placental abruption
• Preterm labor

Vaginal delivery versus cesarean for breech birth?

Most health care providers do not believe in attempting a vaginal delivery for a breech position. However, some will delay making a final decision until the woman is in labor. The following conditions are considered necessary in order to attempt a vaginal birth:

• The baby is full-term and in the frank breech presentation
• The baby does not show signs of distress while its heart rate is closely monitored.
• The process of labor is smooth and steady with the cervix widening as the baby descends.
• The health care provider estimates that the baby is not too big or the mother’s pelvis too narrow for the baby to pass safely through the birth canal.
• Anesthesia is available and a cesarean delivery possible on short notice

What are the risks and complications of a vaginal delivery?

In a breech birth, the baby’s head is the last part of its body to emerge making it more difficult to ease it through the birth canal. Sometimes forceps are used to guide the baby’s head out of the birth canal. Another potential problem is cord prolapse . In this situation the umbilical cord is squeezed as the baby moves toward the birth canal, thus slowing the baby’s supply of oxygen and blood. In a vaginal breech delivery, electronic fetal monitoring will be used to monitor the baby’s heartbeat throughout the course of labor. Cesarean delivery may be an option if signs develop that the baby may be in distress.

When is a cesarean delivery used with a breech presentation?

Most health care providers recommend a cesarean delivery for all babies in a breech position, especially babies that are premature. Since premature babies are small and more fragile, and because the head of a premature baby is relatively larger in proportion to its body, the baby is unlikely to stretch the cervix as much as a full-term baby. This means that there might be less room for the head to emerge.

Want to Know More?

• Creating Your Birth Plan
• Labor & Birth Terms to Know
• Cesarean Birth After Care

Compiled using information from the following sources:

• ACOG: If Your Baby is Breech
• William’s Obstetrics Twenty-Second Ed. Cunningham, F. Gary, et al, Ch. 24.
• Danforth’s Obstetrics and Gynecology Ninth Ed. Scott, James R., et al, Ch. 21.

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Breech Presentation

• Author: Richard Fischer, MD; Chief Editor: Ronald M Ramus, MD  more...
• Sections Breech Presentation
• Vaginal Breech Delivery
• Cesarean Delivery
• Comparative Studies
• External Cephalic Version
• Conclusions
• Media Gallery

Breech presentation is defined as a fetus in a longitudinal lie with the buttocks or feet closest to the cervix. This occurs in 3-4% of all deliveries. The percentage of breech deliveries decreases with advancing gestational age from 22-25% of births prior to 28 weeks' gestation to 7-15% of births at 32 weeks' gestation to 3-4% of births at term. [ 1 ]

Predisposing factors for breech presentation include prematurity , uterine malformations or fibroids, polyhydramnios , placenta previa , fetal abnormalities (eg, CNS malformations, neck masses, aneuploidy), and multiple gestations . Fetal abnormalities are observed in 17% of preterm breech deliveries and in 9% of term breech deliveries.

Perinatal mortality is increased 2- to 4-fold with breech presentation, regardless of the mode of delivery. Deaths are most often associated with malformations, prematurity, and intrauterine fetal demise .

Types of breeches

The types of breeches are as follows:

Frank breech (50-70%) - Hips flexed, knees extended (pike position)

Complete breech (5-10%) - Hips flexed, knees flexed (cannonball position)

Footling or incomplete (10-30%) - One or both hips extended, foot presenting

Historical considerations

Vaginal breech deliveries were previously the norm until 1959 when it was proposed that all breech presentations should be delivered abdominally to reduce perinatal morbidity and mortality. [ 2 ]

Vaginal breech delivery

Three types of vaginal breech deliveries are described, as follows:

Spontaneous breech delivery: No traction or manipulation of the infant is used. This occurs predominantly in very preterm, often previable, deliveries.

Assisted breech delivery: This is the most common type of vaginal breech delivery. The infant is allowed to spontaneously deliver up to the umbilicus, and then maneuvers are initiated to assist in the delivery of the remainder of the body, arms, and head.

Total breech extraction: The fetal feet are grasped, and the entire fetus is extracted. Total breech extraction should be used only for a noncephalic second twin; it should not be used for a singleton fetus because the cervix may not be adequately dilated to allow passage of the fetal head. Total breech extraction for the singleton breech is associated with a birth injury rate of 25% and a mortality rate of approximately 10%. Total breech extractions are sometimes performed by less experienced accoucheurs when a foot unexpectedly prolapses through the vagina. As long as the fetal heart rate is stable in this situation, it is permissible to manage expectantly to allow the cervix to completely dilate around the breech (see the image below).

Technique and tips for assisted vaginal breech delivery

The fetal membranes should be left intact as long as possible to act as a dilating wedge and to prevent overt cord prolapse .

Oxytocin induction and augmentation are controversial. In many previous studies, oxytocin was used for induction and augmentation, especially for hypotonic uterine dysfunction. However, others are concerned that nonphysiologic forceful contractions could result in an incompletely dilated cervix and an entrapped head.

An anesthesiologist and a pediatrician should be immediately available for all vaginal breech deliveries. A pediatrician is needed because of the higher prevalence of neonatal depression and the increased risk for unrecognized fetal anomalies. An anesthesiologist may be needed if intrapartum complications develop and the patient requires general anesthesia .

Some clinicians perform an episiotomy when the breech delivery is imminent, even in multiparas, as it may help prevent soft tissue dystocia for the aftercoming head (see the images below).

The Pinard maneuver may be needed with a frank breech to facilitate delivery of the legs but only after the fetal umbilicus has been reached. Pressure is exerted in the popliteal space of the knee. Flexion of the knee follows, and the lower leg is swept medially and out of the vagina.

No traction should be exerted on the infant until the fetal umbilicus is past the perineum, after which time maternal expulsive efforts should be used along with gentle downward and outward traction of the infant until the scapula and axilla are visible (see the image below).

Use a dry towel to wrap around the hips (not the abdomen) to help with gentle traction of the infant (see the image below).

An assistant should exert transfundal pressure from above to keep the fetal head flexed.

Once the scapula is visible, rotate the infant 90° and gently sweep the anterior arm out of the vagina by pressing on the inner aspect of the arm or elbow (see the image below).

Rotate the infant 180° in the reverse direction, and sweep the other arm out of the vagina. Once the arms are delivered, rotate the infant back 90° so that the back is anterior (see the image below).

The fetal head should be maintained in a flexed position during delivery to allow passage of the smallest diameter of the head. The flexed position can be accomplished by using the Mauriceau Smellie Veit maneuver, in which the operator's index and middle fingers lift up on the fetal maxillary prominences, while the assistant applies suprapubic pressure (see the image below).

Alternatively, Piper forceps can be used to maintain the head in a flexed position (see the image below).

In many early studies, routine use of Piper forceps was recommended to protect the head and to minimize traction on the fetal neck. Piper forceps are specialized forceps that are placed from below the infant and, unlike conventional forceps, are not tailored to the position of the fetal head (ie, it is a pelvic, not cephalic, application). The forceps are applied while the assistant supports the fetal body in a horizontal plane.

During delivery of the head, avoid extreme elevation of the body, which may result in hyperextension of the cervical spine and potential neurologic injury (see the images below).

Lower Apgar scores, especially at 1 minute, are more common with vaginal breech deliveries. Many advocate obtaining an umbilical cord artery and venous pH for all vaginal breech deliveries to document that neonatal depression is not due to perinatal acidosis.

Fetal head entrapment may result from an incompletely dilated cervix and a head that lacks time to mold to the maternal pelvis. This occurs in 0-8.5% of vaginal breech deliveries. [ 3 ] This percentage is higher with preterm fetuses (< 32 wk), when the head is larger than the body. Dührssen incisions (ie, 1-3 cervical incisions made to facilitate delivery of the head) may be necessary to relieve cervical entrapment. However, extension of the incision can occur into the lower segment of the uterus, and the operator must be equipped to deal with this complication. The Zavanelli maneuver has been described, which involves replacement of the fetus into the abdominal cavity followed by cesarean delivery. While success has been reported with this maneuver, fetal injury and even fetal death have occurred.

Nuchal arms, in which one or both arms are wrapped around the back of the neck, are present in 0-5% of vaginal breech deliveries and in 9% of breech extractions. [ 3 ] Nuchal arms may result in neonatal trauma (including brachial plexus injuries) in 25% of cases. Risks may be reduced by avoiding rapid extraction of the infant during delivery of the body. To relieve nuchal arms when it is encountered, rotate the infant so that the fetal face turns toward the maternal symphysis pubis (in the direction of the impacted arm); this reduces the tension holding the arm around the back of the fetal head, allowing for delivery of the arm.

Cervical spine injury is predominantly observed when the fetus has a hyperextended head prior to delivery. Ballas and Toaff (1976) reported 20 cases of hyperextended necks, defined as an angle of extension greater than 90° ("star-gazing"), discovered on antepartum radiographs. [ 4 ] Of the 11 fetuses delivered vaginally, 8 (73%) sustained complete cervical spinal cord lesions, defined as either transection or nonfunction.

Cord prolapse may occur in 7.4% of all breech labors. This incidence varies with the type of breech: 0-2% with frank breech, 5-10% with complete breech, and 10-25% with footling breech. [ 3 ] Cord prolapse occurs twice as often in multiparas (6%) than in primigravidas (3%). Cord prolapse may not always result in severe fetal heart rate decelerations because of the lack of presenting parts to compress the umbilical cord (ie, that which predisposes also protects).

Prior to the 2001 recommendations by the American College of Obstetricians and Gynecologists (ACOG), approximately 50% of breech presentations were considered candidates for vaginal delivery. Of these candidates, 60-82% were successfully delivered vaginally.

Candidates can be classified based on gestational age. For pregnancies prior to 26 weeks' gestation, prematurity, not mode of delivery, is the greatest risk factor. Unfortunately, no randomized clinical trials to help guide clinical management have been reported. Vaginal delivery can be considered, but a detailed discussion of the risks from prematurity and the lack of data regarding the ideal mode of delivery should take place with the parent(s). For example, intraventricular hemorrhage, which can occur in an infant of extremely low birth weight, should not be misinterpreted as proof of a traumatic vaginal breech delivery.

For pregnancies between 26 and 32 weeks, retrospective studies suggest an improved outcome with cesarean delivery, although these reports are subject to selection bias. In contrast, between 32 and 36 weeks' gestation, vaginal breech delivery may be considered after a discussion of risks and benefits with the parent(s).

After 37 weeks' gestation, parents should be informed of the results of a multicenter randomized clinical trial that demonstrated significantly increased perinatal mortality and short-term neonatal morbidity associated with vaginal breech delivery (see Comparative Studies). For those attempting vaginal delivery, if estimated fetal weight (EFW) is more than 4000 g, some recommend cesarean delivery because of concern for entrapment of the unmolded head in the maternal pelvis, although data to support this practice are limited.

A frank breech presentation is preferred when vaginal delivery is attempted. Complete breeches and footling breeches are still candidates, as long as the presenting part is well applied to the cervix and both obstetrical and anesthesia services are readily available in the event of a cord prolapse.

The fetus should show no neck hyperextension on antepartum ultrasound imaging (see the image below). Flexed or military position is acceptable.

Regarding prior cesarean delivery, a retrospective study by Ophir et al of 71 women with one prior low transverse cesarean delivery who subsequently delivered a breech fetus found that 24 women had an elective repeat cesarean and 47 women had a trial of labor. [ 5 ] In the 47 women with a trial of labor, 37 (78.7%) resulted in a vaginal delivery. Two infants in the trial of labor group had nuchal arms (1 with a transient brachial plexus injury) and 1 woman required a hysterectomy for hemorrhage due to a uterine dehiscence discovered after vaginal delivery. Vaginal breech delivery after one prior cesarean delivery is not contraindicated, though larger studies are needed.

Primigravida versus multiparous

It had been commonly believed that primigravidas with a breech presentation should have a cesarean delivery, although no data (prospective or retrospective) support this view. The only documented risk related to parity is cord prolapse, which is 2-fold higher in parous women than in primigravid women.

Radiographic and CT pelvimetry

Historically, radiograph pelvimetry was believed to be useful to quantitatively assess the inlet and mid pelvis. Recommended pelvimetry criteria included a transverse inlet diameter larger than 11.5 cm, anteroposterior inlet diameter larger than 10.5 cm, transverse midpelvic diameter (between the ischial spines) larger than 10 cm, and anteroposterior midpelvic diameter larger than 11.5 cm. However, radiographic pelvimetry is rarely, if ever, used in the United States.

CT pelvimetry , which is associated with less fetal radiation exposure than conventional radiographic pelvimetry, was more recently advocated by some investigators. It, too, is rarely used today.

Ultimately, if the obstetrical operator is not experienced or comfortable with vaginal breech deliveries, cesarean delivery may be the best choice. Unfortunately, with the dwindling number of experienced obstetricians who still perform vaginal breech deliveries and who can teach future generations of obstetricians, this technique may soon be lost due to attrition.

In 1970, approximately 14% of breeches were delivered by cesarean delivery. By 1986, that rate had increased to 86%. In 2003, based on data from the National Center for Health Statistics, the rate of cesarean delivery for all breech presentations was 87.2%. Most of the remaining breeches delivered vaginally were likely second twins, fetal demises, and precipitous deliveries. However, the rise in cesarean deliveries for breeches has not necessarily equated with an improvement in perinatal outcome. Green et al compared the outcome for term breeches prior to 1975 (595 infants, 22% cesarean delivery rate for breeches) with those from 1978-1979 (164 infants, 94% cesarean delivery rate for breeches). [ 6 ] Despite the increase in rates of cesarean delivery, the differences in rates of asphyxia, birth injury, and perinatal deaths were not significant.

Maneuvers for cesarean delivery are similar to those for vaginal breech delivery, including the Pinard maneuver, wrapping the hips with a towel for traction, head flexion during traction, rotation and sweeping out of the fetal arms, and the Mauriceau Smellie Veit maneuver.

An entrapped head can still occur during cesarean delivery as the uterus contracts after delivery of the body, even with a lower uterine segment that misleadingly appears adequate prior to uterine incision. Entrapped heads occur more commonly with preterm breeches, especially with a low transverse uterine incision. As a result, some practitioners opt to perform low vertical uterine incisions for preterm breeches prior to 32 weeks' gestation to avoid head entrapment and the kind of difficult delivery that cesarean delivery was meant to avoid. Low vertical incisions usually require extension into the corpus, resulting in cesarean delivery for all future deliveries.

If a low transverse incision is performed, the physician should move quickly once the breech is extracted in order to deliver the head before the uterus begins to contract. If any difficulty is encountered with delivery of the fetal head, the transverse incision can be extended vertically upward (T incision). Alternatively, the transverse incision can be extended laterally and upward, taking great care to avoid trauma to the uterine arteries. A third option is the use of a short-acting uterine relaxant (eg, nitroglycerin) in an attempt to facilitate delivery.

Only 3 randomized studies have evaluated the mode of delivery of the term breech. All other studies were nonrandomized or retrospective, which may be subject to selection bias.

In 1980, Collea et al randomized 208 women in labor with term frank breech presentations to either elective cesarean delivery or attempted vaginal delivery after radiographic pelvimetry. [ 7 ] Oxytocin was allowed for dysfunctional labor. Of the 60 women with adequate pelves, 49 delivered vaginally. Two neonates had transient brachial plexus injuries. Women randomized to elective cesarean delivery had higher postpartum morbidity rates (49.3% vs 6.7%).

In 1983, Gimovsky et al randomized 105 women in labor with term nonfrank breech presentations to a trial of labor versus elective cesarean delivery. [ 8 ] In this group of women, 47 had complete breech presentations, 16 had incomplete breech presentations (hips flexed, 1 knee extended/1 knee flexed), 32 had double-footling presentations, and 10 had single-footling presentations. Oxytocin was allowed for dysfunctional labor. Of the labor group, 44% had successful vaginal delivery. Most cesarean deliveries were performed for inadequate pelvic dimensions on radiographic pelvimetry. The rate of neonatal morbidity did not differ between neonates delivered vaginally and those delivered by cesarean delivery, although a higher maternal morbidity rate was noted in the cesarean delivery group.

In 2000, Hannah and colleagues completed a large, multicenter, randomized clinical trial involving 2088 term singleton fetuses in frank or complete breech presentations at 121 institutions in 26 countries. [ 9 ] In this study, popularly known as the Term Breech Trial, subjects were randomized into a planned cesarean delivery group or a planned vaginal birth group. Exclusion criteria were estimated fetal weight (EFW) more than 4000 g, hyperextension of the fetal head, lethal fetal anomaly or anomaly that might result in difficulty with delivery, or contraindication to labor or vaginal delivery (eg, placenta previa ).

Subjects randomized to cesarean delivery were scheduled to deliver after 38 weeks' gestation unless conversion to cephalic presentation had occurred. Subjects randomized to vaginal delivery were treated expectantly until labor ensued. Electronic fetal monitoring was either continuous or intermittent. Inductions were allowed for standard obstetrical indications, such as postterm gestations. Augmentation with oxytocin was allowed in the absence of apparent fetopelvic disproportion, and epidural analgesia was permitted.

Adequate labor was defined as a cervical dilation rate of 0.5 cm/h in the active phase of labor and the descent of the breech fetus to the pelvic floor within 2 hours of achieving full dilation. Vaginal delivery was spontaneous or assisted and was attended by an experienced obstetrician. Cesarean deliveries were performed for inadequate progress of labor, nonreassuring fetal heart rate, or conversion to footling breech. Results were analyzed by intent-to-treat (ie, subjects were analyzed by randomization group, not by ultimate mode of delivery).

Of 1041 subjects in the planned cesarean delivery group, 941 (90.4%) had cesarean deliveries. Of 1042 subjects in the planned vaginal delivery group, 591 (56.7%) had vaginal deliveries. Indications for cesarean delivery included: fetopelvic disproportion or failure to progress in labor (226), nonreassuring fetal heart rate tracing (129), footling breech (69), request for cesarean delivery (61), obstetrical or medical indications (45), or cord prolapse (12).

The composite measurement of either perinatal mortality or serious neonatal morbidity by 6 weeks of life was significantly lower in the planned cesarean group than in the planned vaginal group (5% vs 1.6%, P < .0001). Six of 16 neonatal deaths were associated with difficult vaginal deliveries, and 4 deaths were associated with fetal heart rate abnormalities. The reduction in risk in the cesarean group was even greater in participating countries with overall low perinatal mortality rates as reported by the World Health Organization. The difference in perinatal outcome held after controlling for the experience level of the obstetrician. No significant difference was noted in maternal mortality or serious maternal morbidity between the 2 groups within the first 6 weeks of delivery (3.9% vs 3.2%, P = .35).

A separate analysis showed no difference in breastfeeding, sexual relations, or depression at 3 months postpartum, though the reported rate of urinary incontinence was higher in the planned vaginal group (7.3% vs 4.5%).

Based on the multicenter trial, the ACOG published a Committee Opinion in 2001 that stated "planned vaginal delivery of a singleton term breech may no longer be appropriate." This did not apply to those gravidas presenting in advanced labor with a term breech and imminent delivery or to a nonvertex second twin.

A follow-up study by Whyte et al was conducted in 2004 on 923 children who were part of the initial multicenter study. [ 10 ] The authors found no differences between the planned cesarean delivery and planned vaginal breech delivery groups with regards to infant death rates or neurodevelopmental delay by age 2 years. Similarly, among 917 participating mothers from the original trial, no substantive differences were apparent in maternal outcome between the 2 groups. [ 11 ] No longer-term maternal effects, such as the impact of a uterine scar on future pregnancies, have yet been reported.

A meta-analysis of the 3 above mentioned randomized trials was published in 2015. The findings included a reduction in perinatal/neonatal death, reduced composite short-term outcome of perinatal/neonatal death or serious neonatal morbidity with planned cesarean delivery versus planned vaginal delivery. [ 12 ] However, at 2 years of age, there was no significant difference in death or neurodevelopmental delay between the two groups.  Maternal outcomes assessed at 2 years after delivery were not significantly different.

With regard to preterm breech deliveries, only one prospective randomized study has been performed, which included only 38 subjects (28-36 wk) with preterm labor and breech presentation. [ 13 ] Of these subjects, 20 were randomized to attempted vaginal delivery and 18 were randomized to immediate cesarean delivery. Of the attempted vaginal delivery group, 25% underwent cesarean delivery for nonreassuring fetal heart rate tracings. Five neonatal deaths occurred in the vaginal delivery group, and 1 neonatal death occurred in the cesarean delivery group. Two neonates died from fetal anomalies, 3 from respiratory distress, and 1 from sepsis.

Nonanomalous infants who died were not acidotic at delivery and did not have birth trauma. Differences in Apgar scores were not significant, although the vaginal delivery group had lower scores. The small number of enrolled subjects precluded any definitive conclusions regarding the safety of vaginal breech delivery for a preterm breech.

Retrospective analyses showed a higher mortality rate in vaginal breech neonates weighing 750-1500 g (26-32 wk), but less certain benefit was shown with cesarean delivery if the fetal weight was more than 1500 g (approximately 32 wk). Therefore, this subgroup of very preterm infants (26-32 wk) may benefit from cesarean delivery, although this recommendation is based on potentially biased retrospective data.

A large cohort study was published in 2015 from the Netherlands Perinatal Registry, which included 8356 women with a preterm (26-36 6/7 weeks) breech from 2000 to 2011, over three quarters of whom intended to deliver vaginally. In this overall cohort, there was no significant difference in perinatal mortality between the planned vaginal delivery and planned cesarean delivery groups (adjusted odds ratio 0.97, 95% confidence interval 0.60 – 1.57).  However, the subgroup delivering at 28 to 32 weeks had a lower perinatal mortality with planned cesarean section (aOR 0.27, 95% CI 0.10 – 0.77).  After adding a composite of perinatal morbidity, planned cesarean delivery was associated with a better outcome than a planned vaginal delivery (aOR 0.77, 95% CI 0.63 – 0.93. [ 14 ]

A Danish study found that nulliparous women with a singleton breech presentation who had a planned vaginal delivery were at significantly higher risk for postoperative complications, such as infection, compared with women who had a planned cesarean delivery. This increased risk was due to the likelihood of conversion to an emergency cesarean section, which occurred in over 69% of the planned vaginal deliveries in the study. [ 15 ]

The Maternal-Fetal Medicine Units Network of the US National Institute of Child Health and Human Development considered a multicenter randomized clinical trial of attempted vaginal delivery versus elective cesarean delivery for 24- to 28-week breech fetuses. [ 16 ] However, it was not initiated because of anticipated difficulty with recruitment, inadequate numbers to show statistically significant differences, and medicolegal concerns. Therefore, this study is not likely to be performed.

External cephalic version (ECV) is the transabdominal manual rotation of the fetus into a cephalic presentation.

Initially popular in the 1960s and 1970s, ECV virtually disappeared after reports of fetal deaths following the procedure. Reintroduced to the United States in the 1980s, it became increasingly popular in the 1990s.

Improved outcome may be related to the use of nonstress tests both before and after ECV, improved selection of low-risk fetuses, and Rh immune globulin to prevent isoimmunization.

Prepare for the possibility of cesarean delivery. Obtain a type and screen as well as an anesthesia consult. The patient should have nothing by mouth for at least 8 hours prior to the procedure. Recent ultrasonography should have been performed for fetal position, to check growth and amniotic fluid volume, to rule out a placenta previa, and to rule out anomalies associated with breech. Another sonogram should be performed on the day of the procedure to confirm that the fetus is still breech.

A nonstress test (biophysical profile as backup) should be performed prior to ECV to confirm fetal well-being.

Perform ECV in or near a delivery suite in the unlikely event of fetal compromise during or following the procedure, which may require emergent delivery.

ECV can be performed with 1 or 2 operators. Some prefer to have an assistant to help turn the fetus, elevate the breech out of the pelvis, or to monitor the position of the baby with ultrasonography. Others prefer a single operator approach, as there may be better coordination between the forces that are raising the breech and moving the head.

ECV is accomplished by judicious manipulation of the fetal head toward the pelvis while the breech is brought up toward the fundus. Attempt a forward roll first and then a backward roll if the initial attempts are unsuccessful. No consensus has been reached regarding how many ECV attempts are appropriate at one time. Excessive force should not be used at any time, as this may increase the risk of fetal trauma.

Following an ECV attempt, whether successful or not, repeat the nonstress test (biophysical profile if needed) prior to discharge. Also, administer Rh immune globulin to women who are Rh negative. Some physicians traditionally induce labor following successful ECV. However, as virtually all of these recently converted fetuses are unengaged, many practitioners will discharge the patient and wait for spontaneous labor to ensue, thereby avoiding the risk of a failed induction of labor. Additionally, as most ECV’s are attempted prior to 39 weeks, as long as there are no obstetrical or medical indications for induction, discharging the patient to await spontaneous labor would seem most prudent.

In those with an unsuccessful ECV, the practitioner has the option of sending the patient home or proceeding with a cesarean delivery. Expectant management allows for the possibility of spontaneous version. Alternatively, cesarean delivery may be performed at the time of the failed ECV, especially if regional anesthesia is used and the patient is already in the delivery room (see Regional anesthesia). This would minimize the risk of a second regional analgesia.

In those with an unsuccessful ECV, the practitioner may send the patient home, if less than 39 weeks, with plans for either a vaginal breech delivery or scheduled cesarean after 39 weeks. Expectant management allows for the possibility of a spontaneous version. Alternatively, if ECV is attempted after 39 weeks, cesarean delivery may be performed at the time of the failed ECV, especially if regional anesthesia is used and the patient is already in the delivery room (see Regional anesthesia). This would minimize the risk of a second regional analgesia.

Success rate

Success rates vary widely but range from 35% to 86% (average success rate in the 2004 National Vital Statistics was 58%). Improved success rates occur with multiparity, earlier gestational age, frank (versus complete or footling) breech presentation, transverse lie, and in African American patients.

Opinions differ regarding the influence of maternal weight, placental position, and amniotic fluid volume. Some practitioners find that thinner patients, posterior placentas, and adequate fluid volumes facilitate successful ECV. However, both patients and physicians need to be prepared for an unsuccessful ECV; version failure is not necessarily a reflection of the skill of the practitioner.

Zhang et al reviewed 25 studies of ECV in the United States, Europe, Africa, and Israel. [ 17 ] The average success rate in the United States was 65%. Of successful ECVs, 2.5% reverted back to breech presentation (other estimates range from 3% to 5%), while 2% of unsuccessful ECVs had spontaneous version to cephalic presentation prior to labor (other estimates range from 12% to 26%). Spontaneous version rates depend on the gestational age when the breech is discovered, with earlier breeches more likely to undergo spontaneous version.

A prospective study conducted in Germany by Zielbauer et al demonstrated an overall success rate of 22.4% for ECV among 353 patients with a singleton fetus in breech presentation. ECV was performed at 38 weeks of gestation. Factors found to increase the likelihood of success were a later week of gestation, abundant amniotic fluid, fundal and anterior placental location, and an oblique lie. [ 18 ]

A systematic review in 2015 looked at the effectiveness of ECV with eight randomized trials of ECV at term. Compared to women with no attempt at ECV, ECV reduced non-cephalic presentation at birth by 60% and reduced cesarean sections by 40% in the same group. [ 19 ] Although the rate of cesarean section is lower when ECV is performed than if not, the overall rate of cesarean section remains nearly twice as high after successful ECV due to both dystocia and non-reassuring fetal heart rate patterns. [ 20 ]  Nulliparity was the only factor shown in follow-up to increase the risk of instrumental delivery following successful ECV. [ 21 ]

While most studies of ECV have been performed in university hospitals, Cook showed that ECV has also been effective in the private practice setting. [ 22 ] Of 65 patients with term breeches, 60 were offered ECV. ECV was successful in 32 (53%) of the 60 patients, with vaginal delivery in 23 (72%) of the 32 patients. Of the remaining breech fetuses believed to be candidates for vaginal delivery, 8 (80%) had successful vaginal delivery. The overall vaginal delivery rate was 48% (31 of 65 patients), with no significant morbidity.

Cost analysis

In 1995, Gifford et al performed a cost analysis of 4 options for breech presentations at term: (1) ECV attempt on all breeches, with attempted vaginal breech delivery for selected persistent breeches; (2) ECV on all breeches, with cesarean delivery for persistent breeches; (3) trial of labor for selected breeches, with scheduled cesarean delivery for all others; and (4) scheduled cesarean delivery for all breeches prior to labor. [ 23 ]

ECV attempt on all breeches with attempted vaginal breech delivery on selected persistent breeches was associated with the lowest cesarean delivery rate and was the most cost-effective approach. The second most cost-effective approach was ECV attempt on all breeches, with cesarean delivery for persistent breeches.

Uncommon risks of ECV include fractured fetal bones, precipitation of labor or premature rupture of membranes , abruptio placentae , fetomaternal hemorrhage (0-5%), and cord entanglement (< 1.5%). A more common risk of ECV is transient slowing of the fetal heart rate (in as many as 40% of cases). This risk is believed to be a vagal response to head compression with ECV. It usually resolves within a few minutes after cessation of the ECV attempt and is not usually associated with adverse sequelae for the fetus.

Trials have not been large enough to determine whether the overall risk of perinatal mortality is increased with ECV. The Cochrane review from 2015 reported perinatal death in 2 of 644 in ECV and 6 of 661 in the group that did not attempt ECV. [ 19 ]

A 2016 Practice Bulletin by ACOG recommended that all women who are near term with breech presentations should be offered an ECV attempt if there are no contraindications (see Contraindications below). [ 24 ]  ACOG guidelines issued in 2020 recommend that ECV should be performed starting at 37+0 weeks, in order to reduce the likelihood of reversion and to increase the rate of spontaneous version. [ 25 ]

ACOG recommends that ECV be offered as an alternative to a planned cesarean section for a patient who has a term singleton breech fetus, wishes to have a planned vaginal delivery of a vertex-presenting fetus, and has no contraindications. ACOG also advises that ECV be attempted only in settings where cesarean delivery services are available. [ 26 ]

ECV is usually not performed on preterm breeches because they are more likely to undergo spontaneous version to cephalic presentation and are more likely to revert to breech after successful ECV (approximately 50%). Earlier studies of preterm ECV did not show a difference in the rates of breech presentations at term or overall rates of cesarean delivery. Additionally, if complications of ECV were to arise that warranted emergent delivery, it would result in a preterm neonate with its inherent risks. The Early External Cephalic Version (ECV) 2 trial was an international, multicentered, randomized clinical trial that compared ECV performed at 34-35 weeks’ gestation compared with 37 weeks’ gestation or more. [ 27 ] Early ECV increased the chance of cephalic presentation at birth; however, no difference in cesarean delivery rates was noted, along with a nonstatistical increase in preterm births.

A systematic review looked at 5 studies of ECV completed prior to 37 weeks and concluded that compared with no ECV attempt, ECV commenced before term reduces the non-cephalic presentation at birth, however early ECV may increase the risk of late preterm birth. [ 28 ]

Given the increasing awareness of the risks of late preterm birth and early term deliveries, the higher success of earlier ECV should be weighed against the risks of iatrogenic prematurity should a complication arise necessitating delivery.

Contraindications

Absolute contraindications for ECV include multiple gestations with a breech presenting fetus, contraindications to vaginal delivery (eg, herpes simplex virus infection, placenta previa), and nonreassuring fetal heart rate tracing.

Relative contraindications include polyhydramnios or oligohydramnios , fetal growth restriction , uterine malformation , and major fetal anomaly.

Controversial candidates

Women with prior uterine incisions may be candidates for ECV, but data are scant. In 1991, Flamm et al attempted ECV on 56 women with one or more prior low transverse cesarean deliveries. [ 29 ] The success rate of ECV was 82%, with successful vaginal births in 65% of patients with successful ECVs. No uterine ruptures occurred during attempted ECV or subsequent labor, and no significant fetal complications occurred.

In 2010 ACOG acknowledged that although there is limited data in both the above study and one more recently, [ 30 ] no serious adverse events occurred in these series. A larger prospective cohort study that was published in 2014 reported similar success rates of ECV among women with and without prior cesarean section, although lower vaginal birth rates. There were, however, no cases of uterine rupture or other adverse outcomes. [ 31 ]

Another controversial area is performing ECV on a woman in active labor. In 1985, Ferguson and Dyson reported on 15 women in labor with term breeches and intact membranes. [ 32 ] Four patients were dilated greater than 5 cm (2 women were dilated 8 cm). Tocolysis was administered, and intrapartum ECV was attempted. ECV was successful in 11 of 15 patients, with successful vaginal births in 10 patients. No adverse effects were noted. Further studies are needed to evaluate the safety and efficacy of intrapartum ECV.

Data regarding the benefit of intravenous or subcutaneous beta-mimetics in improving ECV rates are conflicting.

In 1996, Marquette et al performed a prospective, randomized, double-blinded study on 283 subjects with breech presentations between 36 and 41 weeks' gestation. [ 33 ] Subjects received either intravenous ritodrine or placebo. The success rate of ECV was 52% in the ritodrine group versus 42% in the placebo group ( P = .35). When only nulliparous subjects were analyzed, significant differences were observed in the success of ECV (43% vs 25%, P < .03). ECV success rates were significantly higher in parous versus nulliparous subjects (61% vs 34%, P < .0001), with no additional improvement with ritodrine.

A systematic review published in 2015 of six randomized controlled trials of ECV that compared the use of parenteral beta-mimetic tocolysis during ECV concluded that tocolysis was effective in increasing the rate of cephalic presentation in labor and reducing the cesarean delivery rate by almost 25% in both nulliparous and multiparous women. [ 34 ] Data on adverse effects and other tocolytics was insufficient. A review published in 2011 on Nifedipine did not show an improvement in ECV success. [ 35 ]

Regional anesthesia

Regional analgesia, either epidural or spinal, may be used to facilitate external cephalic version (ECV) success. When analgesia levels similar to that for cesarean delivery are given, it allows relaxation of the anterior abdominal wall, making palpation and manipulation of the fetal head easier. Epidural or spinal analgesia also eliminates maternal pain that may cause bearing down and tensing of the abdominal muscles. If ECV is successful, the epidural can be removed and the patient sent home to await spontaneous labor. If ECV is unsuccessful, a patient can proceed to cesarean delivery under her current anesthesia, if the gestational age is more than 39 weeks.

The main disadvantage is the inherent risk of regional analgesia, which is considered small. Additionally, lack of maternal pain could potentially result in excessive force being applied to the fetus without the knowledge of the operator.

In 1994, Carlan et al retrospectively analyzed 61 women who were at more than 36 weeks' gestation and had ECV with or without epidural. [ 36 ] The success rate of ECV was 59% in the epidural group and 24% in the nonepidural group ( P < .05). In 7 of 8 women with unsuccessful ECV without epidural, a repeat ECV attempt after epidural was successful. No adverse effects on maternal or perinatal morbidity or mortality occurred.

In 1997, Schorr et al randomized 69 subjects who were at least 37 weeks' gestation to either epidural or control groups prior to attempted ECV. [ 37 ] Those in whom ECV failed underwent cesarean delivery. The success rate of ECV was 69% in the epidural group and 32% in the control group (RR, 2.12; 95% CI, 1.24-3.62). The cesarean delivery rate was 79% in the control group and 34% in the epidural group ( P = .001). No complications of epidural anesthesia and no adverse fetal effects occurred.

In 1999, Dugoff et al randomized 102 subjects who were at more than 36 weeks' gestation with breech presentations to either spinal anesthesia or a control group. [ 38 ] All subjects received 0.25 mg terbutaline subcutaneously. The success rate of ECV was 44% in the spinal group and 42% in the nonspinal group, which was not statistically significant.

In contrast, a 2007 randomized clinical trial of spinal analgesia versus no analgesia in 74 women showed a significant improvement in ECV success (66.7% vs 32.4%, p = .004), with a significantly lower pain score by the patient. [ 39 ]

The 2015 systematic review asserted that regional analgesia in combination with a tocolytic was more effective than the tocolytic alone for increasing ECV success; however there was no difference in cephalic presentation in labor. Data from the same review was insufficient to assess regional analgesia without tocolysis [ 34 ]

Acoustic stimulation

Johnson and Elliott performed a randomized, blinded trial on 23 subjects to compare acoustic stimulation prior to ECV with a control group when the fetal spine was in the midline (directly back up or back down). [ 40 ] Of those who received acoustic stimulation, 12 of 12 fetuses shifted to a spine-lateral position after acoustic stimulation, and 11 (91%) underwent successful ECV. In the control group, 0 of 11 shifts and 1 (9%) successful ECV ( P < .0001) occurred. Additional studies are needed.

Amnioinfusion

Although an earlier study reported on the utility of amnioinfusion to successfully turn 6 fetuses who initially failed ECV, [ 41 ] a subsequent study was published of 7 women with failed ECV who underwent amniocentesis and amnioinfusion of up to 1 liter of crystalloid. [ 42 ] Repeat attempts of ECV were unsuccessful in all 7 cases. Amnioinfusion to facilitate ECV cannot be recommended at this time.

Vaginal delivery rates after successful version

The rate of cesarean delivery ranges from 0-31% after successful external cephalic version (ECV). Controversy has existed on whether there is a higher rate of cesarean delivery for labor dystocia following ECV. In 1994, a retrospective study by Egge et al of 76 successful ECVs matched with cephalic controls by delivery date, parity, and gestational age failed to note any significant difference in the cesarean delivery rate (8% in ECV group, 6% in control group). [ 43 ]

However, in 1997, Lau et al compared 154 successful ECVs to 308 spontaneously occurring cephalic controls (matched for age, parity, and type of labor onset) with regard to the cesarean delivery rate. [ 44 ] Cesarean delivery rates were higher after ECV (16.9% vs 7.5%, P < .005) because of higher rates of cephalopelvic disproportion and nonreassuring fetal heart rate tracings. This may be related to an increased frequency of compound presentations after ECV. Immediate induction of labor after successful ECV may also contribute to an increase in the cesarean delivery rate due to failed induction in women with unripe cervices and unengaged fetal heads.

Further, in another cohort study from 2015, factors were described which decreased the vaginal delivery rate after successful ECV including labor induction, less than 2 weeks between ECV and delivery, high body mass index, and previous cesarean. [ 45 ] The overall caesarean delivery rate in this cohort was 15%.

Vaginal breech delivery requires an experienced obstetrician and careful counseling of the parents. Although studies on the delivery of the preterm breech are limited, the multicenter Term Breech Trial found an increased rate of perinatal mortality and serious immediate perinatal morbidity, though no differences were seen in infant outcome at 2 years of age.

Parents must be informed about potential risks and benefits to the mother and neonate for both vaginal breech delivery and cesarean delivery. Discussion of risks should not be limited only to the current pregnancy. The risks of a cesarean on subsequent pregnancies, including uterine rupture and placental attachment abnormalities ( placenta previa , abruption , accreta), as well as maternal and perinatal sequelae from these complications, should be reviewed as well.

It remains concerning that the dearth of experienced physicians to teach younger practitioners will lead to the abandonment of vaginal breeches altogether. For those wishing to learn the art of vaginal breech deliveries, simulation training with pelvic models has been advocated to familiarize trainees with the procedure in a nonthreatening environment. [ 46 ] Once comfortable with the appropriate maneuvers, vaginal delivery of the second, noncephalic twin, may be attempted under close supervision by an experienced physician. The cervix will already be fully dilated, and, assuming the second twin is not significantly larger, the successful vaginal delivery rate has been quoted to be as high as 96%.

External cephalic version (ECV) is a safe alternative to vaginal breech delivery or cesarean delivery, reducing the cesarean delivery rate for breech by 50%. ACOG recommends offering ECV to all women with a breech fetus near term. [ 24 ] Adjuncts such as tocolysis, regional anesthesia, and acoustic stimulation when appropriate may improve ECV success rates.

Hickok DE, Gordon DC, Milberg JA, Williams MA, Daling JR. The frequency of breech presentation by gestational age at birth: a large population-based study. Am J Obstet Gynecol . 1992 Mar. 166(3):851-2. [QxMD MEDLINE Link] .

Wright RC. Reduction of perinatal mortality and morbidity in breech delivery through routine use of cesarean section. Obstet Gynecol . 1959. 14:758-63.

Cheng M, Hannah M. Breech delivery at term: a critical review of the literature. Obstet Gynecol . 1993 Oct. 82(4 Pt 1):605-18. [QxMD MEDLINE Link] .

Ballas S, Toaff R. Hyperextension of the fetal head in breech presentation: radiological evaluation and significance. Br J Obstet Gynaecol . 1976 Mar. 83(3):201-4. [QxMD MEDLINE Link] .

Ophir E, Oettinger M, Yagoda A, Markovits Y, Rojansky N, Shapiro H. Breech presentation after cesarean section: always a section?. Am J Obstet Gynecol . 1989 Jul. 161(1):25-8. [QxMD MEDLINE Link] .

Green JE, McLean F, Smith LP, Usher R. Has an increased cesarean section rate for term breech delivery reduced in incidence of birth asphyxia, trauma, and death?. Am J Obstet Gynecol . 1982 Mar 15. 142(6 Pt 1):643-8. [QxMD MEDLINE Link] .

Collea JV, Chein C, Quilligan EJ. The randomized management of term frank breech presentation: a study of 208 cases. Am J Obstet Gynecol . 1980 May 15. 137(2):235-44. [QxMD MEDLINE Link] .

Gimovsky ML, Wallace RL, Schifrin BS, Paul RH. Randomized management of the nonfrank breech presentation at term: a preliminary report. Am J Obstet Gynecol . 1983 May 1. 146(1):34-40. [QxMD MEDLINE Link] .

Hannah ME, Hannah WJ, Hewson SA, Hodnett ED, Saigal S, Willan AR. Planned caesarean section versus planned vaginal birth for breech presentation at term: a randomised multicentre trial. Term Breech Trial Collaborative Group. Lancet . 2000 Oct 21. 356(9239):1375-83. [QxMD MEDLINE Link] .

Whyte H, Hannah ME, Saigal S, et al. Outcomes of children at 2 years after planned cesarean birth versus planned vaginal birth for breech presentation at term: the International Randomized Term Breech Trial. Am J Obstet Gynecol . 2004 Sep. 191(3):864-71. [QxMD MEDLINE Link] .

Hannah ME, Whyte H, Hannah WJ, Hewson S, Amankwah K, Cheng M. Maternal outcomes at 2 years after planned cesarean section versus planned vaginal birth for breech presentation at term: the international randomized Term Breech Trial. Am J Obstet Gynecol . 2004 Sep. 191(3):917-27. [QxMD MEDLINE Link] .

Hofmeyr GJ, Hannah M, Lawrie TA. Planned caesarean section for term breech delivery. Cochrane Database Syst Rev . 2015 Jul 21. 7:CD000166. [QxMD MEDLINE Link] .

Zlatnik FJ. The Iowa premature breech trial. Am J Perinatol . 1993 Jan. 10(1):60-3. [QxMD MEDLINE Link] .

Bergenhenegouwen L, Vlemmix F, Ensing S, Schaaf J, van der Post J, Abu-Hanna A, et al. Preterm Breech Presentation: A Comparison of Intended Vaginal and Intended Cesarean Delivery. Obstet Gynecol . 2015 Dec. 126 (6):1223-30. [QxMD MEDLINE Link] .

Caning MM, Rasmussen SC, Krebs L. Maternal outcomes of planned mode of delivery for term breech in nulliparous women. PLoS One . 2024. 19 (4):e0297971. [QxMD MEDLINE Link] . [Full Text] .

Eller DP, VanDorsten JP. Route of delivery for the breech presentation: a conundrum. Am J Obstet Gynecol . 1995 Aug. 173(2):393-6; discussion 396-8. [QxMD MEDLINE Link] .

Zhang J, Bowes WA Jr, Fortney JA. Efficacy of external cephalic version: a review. Obstet Gynecol . 1993 Aug. 82(2):306-12. [QxMD MEDLINE Link] .

Zielbauer AS, Louwen F, Jennewein L. External cephalic version at 38 weeks' gestation at a specialized German single center. PLoS One . 2021. 16 (8):e0252702. [QxMD MEDLINE Link] . [Full Text] .

Hofmeyr GJ, Kulier R, West HM. External cephalic version for breech presentation at term. Cochrane Database Syst Rev . 2015 Apr 1. 4:CD000083. [QxMD MEDLINE Link] .

de Hundt M, Velzel J, de Groot CJ, Mol BW, Kok M. Mode of delivery after successful external cephalic version: a systematic review and meta-analysis. Obstet Gynecol . 2014 Jun. 123 (6):1327-34. [QxMD MEDLINE Link] .

de Hundt M, Vlemmix F, Bais JM, de Groot CJ, Mol BW, Kok M. Risk factors for cesarean section and instrumental vaginal delivery after successful external cephalic version. J Matern Fetal Neonatal Med . 2016 Jun. 29 (12):2005-7. [QxMD MEDLINE Link] .

Cook HA. Experience with external cephalic version and selective vaginal breech delivery in private practice. Am J Obstet Gynecol . 1993 Jun. 168(6 Pt 1):1886-9; discussion 1889-90. [QxMD MEDLINE Link] .

Gifford DS, Keeler E, Kahn KL. Reductions in cost and cesarean rate by routine use of external cephalic version: a decision analysis. Obstet Gynecol . 1995 Jun. 85(6):930-6. [QxMD MEDLINE Link] .

Practice Bulletin No. 161 Summary: External Cephalic Version. Obstet Gynecol . 2016 Feb. 127 (2):412-3. [QxMD MEDLINE Link] .

[Guideline] External Cephalic Version: ACOG Practice Bulletin, Number 221. Obstet Gynecol . 2020 May. 135 (5):e203-e212. [QxMD MEDLINE Link] .

[Guideline] ACOG Committee Opinion No. 745: Mode of Term Singleton Breech Delivery. Obstet Gynecol . 2018 Aug; reaffirmed 2023. 132 (2):e60-e63. [QxMD MEDLINE Link] . [Full Text] .

Hutton E, Hannah M, Ross S, Delisle MF, Carson G, Windrim R, et al. The Early External Cephalic Version (ECV) 2 Trial: an international multicentre randomised controlled trial of timing of ECV for breech pregnancies. BJOG . 2011 Apr. 118(5):564-577. [QxMD MEDLINE Link] .

Hutton EK, Hofmeyr GJ, Dowswell T. External cephalic version for breech presentation before term. Cochrane Database Syst Rev . 2015 Jul 29. 7:CD000084. [QxMD MEDLINE Link] .

Flamm BL, Fried MW, Lonky NM, Giles WS. External cephalic version after previous cesarean section. Am J Obstet Gynecol . 1991 Aug. 165(2):370-2. [QxMD MEDLINE Link] .

de Meeus JB, Ellia F, Magnin G. External cephalic version after previous cesarean section: a series of 38 cases. Eur J Obstet Gynecol Reprod Biol . 1998 Oct. 81 (1):65-8. [QxMD MEDLINE Link] .

Burgos J, Cobos P, Rodríguez L, Osuna C, Centeno MM, Martínez-Astorquiza T, et al. Is external cephalic version at term contraindicated in previous caesarean section? A prospective comparative cohort study. BJOG . 2014 Jan. 121 (2):230-5; discussion 235. [QxMD MEDLINE Link] .

Ferguson JE 2nd, Dyson DC. Intrapartum external cephalic version. Am J Obstet Gynecol . 1985 Jun 1. 152(3):297-8. [QxMD MEDLINE Link] .

Marquette GP, Boucher M, Theriault D, Rinfret D. Does the use of a tocolytic agent affect the success rate of external cephalic version?. Am J Obstet Gynecol . 1996 Oct. 175(4 Pt 1):859-61. [QxMD MEDLINE Link] .

Cluver C, Gyte GM, Sinclair M, Dowswell T, Hofmeyr GJ. Interventions for helping to turn term breech babies to head first presentation when using external cephalic version. Cochrane Database Syst Rev . 2015 Feb 9. 2:CD000184. [QxMD MEDLINE Link] .

Wilcox CB, Nassar N, Roberts CL. Effectiveness of nifedipine tocolysis to facilitate external cephalic version: a systematic review. BJOG . 2011 Mar. 118 (4):423-8. [QxMD MEDLINE Link] .

Carlan SJ, Dent JM, Huckaby T, Whittington EC, Shaefer D. The effect of epidural anesthesia on safety and success of external cephalic version at term. Anesth Analg . 1994 Sep. 79(3):525-8. [QxMD MEDLINE Link] .

Schorr SJ, Speights SE, Ross EL, et al. A randomized trial of epidural anesthesia to improve external cephalic version success. Am J Obstet Gynecol . 1997 Nov. 177(5):1133-7. [QxMD MEDLINE Link] .

Dugoff L, Stamm CA, Jones OW 3rd, Mohling SI, Hawkins JL. The effect of spinal anesthesia on the success rate of external cephalic version: a randomized trial. Obstet Gynecol . 1999 Mar. 93(3):345-9. [QxMD MEDLINE Link] .

Weiniger CF, Ginosar Y, Elchalal U, Sharon E, Nokrian M, Ezra Y. External cephalic version for breech presentation with or without spinal analgesia in nulliparous women at term: a randomized controlled trial. Obstet Gynecol . 2007 Dec. 110(6):1343-50. [QxMD MEDLINE Link] .

Johnson RL, Elliott JP. Fetal acoustic stimulation, an adjunct to external cephalic version: a blinded, randomized crossover study. Am J Obstet Gynecol . 1995 Nov. 173(5):1369-72. [QxMD MEDLINE Link] .

Benifla JL, Goffinet F, Darai E, Madelenat P. Antepartum transabdominal amnioinfusion to facilitate external cephalic version after initial failure. Obstet Gynecol . 1994 Dec. 84(6):1041-2. [QxMD MEDLINE Link] .

Adama van Scheltema PN, Feitsma AH, Middeldorp JM, Vandenbussche FP, Oepkes D. Amnioinfusion to facilitate external cephalic version after initial failure. Obstet Gynecol . 2006 Sep. 108(3 Pt 1):591-2. [QxMD MEDLINE Link] .

Egge T, Schauberger C, Schaper A. Dysfunctional labor after external cephalic version. Obstet Gynecol . 1994 May. 83(5 Pt 1):771-3. [QxMD MEDLINE Link] .

Lau TK, Lo KW, Rogers M. Pregnancy outcome after successful external cephalic version for breech presentation at term. Am J Obstet Gynecol . 1997 Jan. 176(1 Pt 1):218-23. [QxMD MEDLINE Link] .

Burgos J, Iglesias M, Pijoan JI, Rodriguez L, Fernández-Llebrez L, Martínez-Astorquiza T. Probability of cesarean delivery after successful external cephalic version. Int J Gynaecol Obstet . 2015 Nov. 131 (2):192-5. [QxMD MEDLINE Link] .

Deering S, Brown J, Hodor J, Satin AJ. Simulation training and resident performance of singleton vaginal breech delivery. Obstet Gynecol . 2006 Jan. 107(1):86-9. [QxMD MEDLINE Link] .

• Footling breech presentation. Once the feet have delivered, one may be tempted to pull on the feet. However, a singleton gestation should not be pulled by the feet because this action may precipitate head entrapment in an incompletely dilated cervix or may precipitate nuchal arms. As long as the fetal heart rate is stable and no physical evidence of a prolapsed cord is evident, management may be expectant while awaiting full cervical dilation.
• Assisted vaginal breech delivery. Thick meconium passage is common as the breech is squeezed through the birth canal. This is usually not associated with meconium aspiration because the meconium passes out of the vagina and does not mix with the amniotic fluid.
• Assisted vaginal breech delivery. The Ritgen maneuver is applied to take pressure off the perineum during vaginal delivery. Episiotomies are often performed for assisted vaginal breech deliveries, even in multiparous women, to prevent soft tissue dystocia.
• Assisted vaginal breech delivery. No downward or outward traction is applied to the fetus until the umbilicus has been reached.
• Assisted vaginal breech delivery. With a towel wrapped around the fetal hips, gentle downward and outward traction is applied in conjunction with maternal expulsive efforts until the scapula is reached. An assistant should be applying gentle fundal pressure to keep the fetal head flexed.
• Assisted vaginal breech delivery. After the scapula is reached, the fetus should be rotated 90° in order to deliver the anterior arm.
• Assisted vaginal breech delivery. The anterior arm is followed to the elbow, and the arm is swept out of the vagina.
• Assisted vaginal breech delivery. The fetus is rotated 180°, and the contralateral arm is delivered in a similar manner as the first. The infant is then rotated 90° to the backup position in preparation for delivery of the head.
• Assisted vaginal breech delivery. The fetal head is maintained in a flexed position by using the Mauriceau maneuver, which is performed by placing the index and middle fingers over the maxillary prominence on either side of the nose. The fetal body is supported in a neutral position, with care to not overextend the neck.
• Piper forceps application. Piper forceps are specialized forceps used only for the after-coming head of a breech presentation. They are used to keep the fetal head flexed during extraction of the head. An assistant is needed to hold the infant while the operator gets on one knee to apply the forceps from below.
• Assisted vaginal breech delivery. Low 1-minute Apgar scores are not uncommon after a vaginal breech delivery. A pediatrician should be present for the delivery in the event that neonatal resuscitation is needed.
• Assisted vaginal breech delivery. The neonate after birth.
• Ultrasound demonstrating a fetus in breech presentation with a hyperextended head (ie, "star gazing").

Contributor Information and Disclosures

Richard Fischer, MD Professor, Division Head, Department of Obstetrics and Gynecology, Division of Maternal-Fetal Medicine, Cooper University Hospital Richard Fischer, MD is a member of the following medical societies: American College of Obstetricians and Gynecologists , American Institute of Ultrasound in Medicine , Association of Professors of Gynecology and Obstetrics , Society for Maternal-Fetal Medicine Disclosure: Stock ownership for: Pfizer Pharmaceuticals (< 5% of portfolio); Johnson & Johnson (< 5% of portfolio).

Alisa B Modena, MD, FACOG Assistant Professor, Cooper Medical School of Rowan University; Attending Physician, Division of Maternal-Fetal Medicine, Cooper University Hospital Alisa B Modena, MD, FACOG is a member of the following medical societies: American College of Obstetricians and Gynecologists , American Institute of Ultrasound in Medicine , Philadelphia Perinatal Society, Society for Maternal-Fetal Medicine Disclosure: Nothing to disclose.

Francisco Talavera, PharmD, PhD Adjunct Assistant Professor, University of Nebraska Medical Center College of Pharmacy; Editor-in-Chief, Medscape Drug Reference Disclosure: Received salary from Medscape for employment. for: Medscape.

Richard S Legro, MD Professor, Department of Obstetrics and Gynecology, Division of Reproductive Endocrinology, Pennsylvania State University College of Medicine; Consulting Staff, Milton S Hershey Medical Center Richard S Legro, MD is a member of the following medical societies: American College of Obstetricians and Gynecologists , Society of Reproductive Surgeons , American Society for Reproductive Medicine , Endocrine Society , Phi Beta Kappa Disclosure: Received honoraria from Korea National Institute of Health and National Institute of Health (Bethesda, MD) for speaking and teaching; Received honoraria from Greater Toronto Area Reproductive Medicine Society (Toronto, ON, CA) for speaking and teaching; Received honoraria from American College of Obstetrics and Gynecologists (Washington, DC) for speaking and teaching; Received honoraria from National Institute of Child Health and Human Development Pediatric and Adolescent Gynecology Research Thi.

Ronald M Ramus, MD Professor of Obstetrics and Gynecology, Director, Division of Maternal-Fetal Medicine, Virginia Commonwealth University School of Medicine Ronald M Ramus, MD is a member of the following medical societies: American College of Obstetricians and Gynecologists , American Institute of Ultrasound in Medicine , Medical Society of Virginia , Society for Maternal-Fetal Medicine Disclosure: Nothing to disclose.

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What Is Breech?

When a fetus is delivered buttocks or feet first

• Types of Presentation

Risk Factors

Complications.

Breech concerns the position of the fetus before labor . Typically, the fetus comes out headfirst, but in a breech delivery, the buttocks or feet come out first. This type of delivery is risky for both the pregnant person and the fetus.

This article discusses the different types of breech presentations, risk factors that might make a breech presentation more likely, treatment options, and complications associated with a breech delivery.

Verywell / Jessica Olah

Types of Breech Presentation

During the last few weeks of pregnancy, a fetus usually rotates so that the head is positioned downward to come out of the vagina first. This is called the vertex position.

In a breech presentation, the fetus does not turn to lie in the correct position. Instead, the fetus’s buttocks or feet are positioned to come out of the vagina first.

At 28 weeks of gestation, approximately 20% of fetuses are in a breech position. However, the majority of these rotate to the proper vertex position. At full term, around 3%–4% of births are breech.

The different types of breech presentations include:

• Complete : The fetus’s knees are bent, and the buttocks are presenting first.
• Frank : The fetus’s legs are stretched upward toward the head, and the buttocks are presenting first.
• Footling : The fetus’s foot is showing first.

Signs of Breech

There are no specific symptoms associated with a breech presentation.

Diagnosing breech before the last few weeks of pregnancy is not helpful, since the fetus is likely to turn to the proper vertex position before 35 weeks gestation.

A healthcare provider may be able to tell which direction the fetus is facing by touching a pregnant person’s abdomen. However, an ultrasound examination is the best way to determine how the fetus is lying in the uterus.

Most breech presentations are not related to any specific risk factor. However, certain circumstances can increase the risk for breech presentation.

These can include:

• Previous pregnancies
• Multiple fetuses in the uterus
• An abnormally shaped uterus
• Uterine fibroids , which are noncancerous growths of the uterus that usually appear during the childbearing years
• Placenta previa, a condition in which the placenta covers the opening to the uterus
• Preterm labor or prematurity of the fetus
• Too much or too little amniotic fluid (the liquid that surrounds the fetus during pregnancy)
• Fetal congenital abnormalities

Most fetuses that are breech are born by cesarean delivery (cesarean section or C-section), a surgical procedure in which the baby is born through an incision in the pregnant person’s abdomen.

In rare instances, a healthcare provider may plan a vaginal birth of a breech fetus. However, there are more risks associated with this type of delivery than there are with cesarean delivery. 

Before cesarean delivery, a healthcare provider might utilize the external cephalic version (ECV) procedure to turn the fetus so that the head is down and in the vertex position. This procedure involves pushing on the pregnant person’s belly to turn the fetus while viewing the maneuvers on an ultrasound. This can be an uncomfortable procedure, and it is usually done around 37 weeks gestation.

ECV reduces the risks associated with having a cesarean delivery. It is successful approximately 40%–60% of the time. The procedure cannot be done once a pregnant person is in active labor.

Complications related to ECV are low and include the placenta tearing away from the uterine lining, changes in the fetus’s heart rate, and preterm labor.

ECV is usually not recommended if the:

• Pregnant person is carrying more than one fetus
• Placenta is in the wrong place
• Healthcare provider has concerns about the health of the fetus
• Pregnant person has specific abnormalities of the reproductive system

Recommendations for Previous C-Sections

The American College of Obstetricians and Gynecologists (ACOG) says that ECV can be considered if a person has had a previous cesarean delivery.

During a breech delivery, the umbilical cord might come out first and be pinched by the exiting fetus. This is called cord prolapse and puts the fetus at risk for decreased oxygen and blood flow. There’s also a risk that the fetus’s head or shoulders will get stuck inside the mother’s pelvis, leading to suffocation.

Complications associated with cesarean delivery include infection, bleeding, injury to other internal organs, and problems with future pregnancies.

A healthcare provider needs to weigh the risks and benefits of ECV, delivering a breech fetus vaginally, and cesarean delivery.

In a breech delivery, the fetus comes out buttocks or feet first rather than headfirst (vertex), the preferred and usual method. This type of delivery can be more dangerous than a vertex delivery and lead to complications. If your baby is in breech, your healthcare provider will likely recommend a C-section.

A Word From Verywell

Knowing that your baby is in the wrong position and that you may be facing a breech delivery can be extremely stressful. However, most fetuses turn to have their head down before a person goes into labor. It is not a cause for concern if your fetus is breech before 36 weeks. It is common for the fetus to move around in many different positions before that time.

At the end of your pregnancy, if your fetus is in a breech position, your healthcare provider can perform maneuvers to turn the fetus around. If these maneuvers are unsuccessful or not appropriate for your situation, cesarean delivery is most often recommended. Discussing all of these options in advance can help you feel prepared should you be faced with a breech delivery.

American College of Obstetricians and Gynecologists. If your baby is breech .

TeachMeObGyn. Breech presentation .

MedlinePlus. Breech birth .

Hofmeyr GJ, Kulier R, West HM. External cephalic version for breech presentation at term . Cochrane Database Syst Rev . 2015 Apr 1;2015(4):CD000083. doi:10.1002/14651858.CD000083.pub3

By Christine Zink, MD Dr. Zink is a board-certified emergency medicine physician with expertise in the wilderness and global medicine.

6.1 Breech presentation

Presentation of the feet or buttocks of the foetus.

6.1.1 The different breech presentations

• In a complete breech presentation, the legs are tucked, and the foetus is in a crouching position (Figure 6.1a).
• In a frank breech presentation, the legs are extended, raised in front of the torso, with the feet near the head (Figure 6.1b).
• In a footling breech presentation (rare), one or both feet present first, with the buttocks higher up and the lower limbs extended or half-bent (Figure 6.1c).

6.1.2 Diagnosis

• The cephalic pole is palpable in the uterine fundus; round, hard, and mobile; the indentation of the neck can be felt.
• The inferior pole is voluminous, irregular, less hard, and less mobile than the head.
• During labour, vaginal examination reveals a “soft mass” divided by the cleft between the buttocks, with a hard projection at end of the cleft (the coccyx and sacrum).
• After rupture of the membranes: the anus can be felt in the middle of the cleft; a foot may also be felt.
• The clinical diagnosis may be difficult: a hand may be mistaken for a foot, a face for a breech.

6.1.3 Management

Route of delivery.

Before labour, external version (Chapter 7, Section 7.7 ) may be attempted to avoid breech delivery.

If external version is contra-indicated or unsuccessful, the breech position alone – in the absence of any other anomaly – is not, strictly speaking, a dystocic presentation, and does not automatically require a caesarean section. Deliver vaginally, if possible – even if the woman is primiparous.

Breech deliveries must be done in a CEmONC facility, especially for primiparous women.

Favourable factors for vaginal delivery are:

• Frank breech presentation;
• A history of vaginal delivery (whatever the presentation);
• Normally progressing dilation during labour.

The footling breech presentation is a very unfavourable position for vaginal delivery (risk of foot or cord prolapse). In this situation, the route of delivery depends on the number of previous births, the state of the membranes and how far advanced the labour is.

During labour

• Monitor dilation every 2 to 4 hours. 
• If contractions are of good quality, dilation is progressing, and the foetal heart rate is regular, an expectant approach is best. Do not rupture the membranes unless dilation stops.
• If the uterine contractions are inadequate, labour can be actively managed with oxytocin.

Note : if the dilation stales, transfer the mother to a CEmONC facility unless already done, to ensure access to surgical facility for potential caesarean section.

At delivery

• Insert an IV line before expulsion starts.
• Consider episiotomy at expulsion. Episiotomy is performed when the perineum is sufficiently distended by the foetus's buttocks.
• Presence of meconium or meconium-stained amniotic fluid is common during breech delivery and is not necessarily a sign of foetal distress.
• The infant delivers unaided , as a result of the mother's pushing, simply supported by the birth attendant who gently holds the infant by the bony parts (hips and sacrum), with no traction. Do not pull on the legs.

Once the umbilicus is out, the rest of the delivery must be completed within 3 minutes, otherwise compression of the cord will deprive the infant of oxygen. Do not touch the infant until the shoulder blades appear to avoid triggering the respiratory reflex before the head is delivered.

• Monitor the position of the infant's back; impede rotation into posterior position.

Figures 6.2 - Breech delivery

6.1.4 Breech delivery problems

Posterior orientation.

If the infant’s back is posterior during expulsion, take hold of the hips and turn into an anterior position (this is a rare occurrence).

Obstructed shoulders

The shoulders can become stuck and hold back the infant's upper chest and head. This can occur when the arms are raised as the shoulders pass through the mother's pelvis. There are 2 methods for lowering the arms so that the shoulders can descend:

1 - Lovset's manoeuvre

• With thumbs on the infant's sacrum, take hold of the hips and pelvis with the other fingers.
• Turn the infant 90° (back to the left or to the right), to bring the anterior shoulder underneath the symphysis and engage the arm. Deliver the anterior arm.
• Then do a 180° counter-rotation (back to the right or to the left); this engages the posterior arm, which is then delivered.

Figures 6.3 - Lovset's manoeuvre

6.3c  - Delivering the anterior arm and shoulder

2 - Suzor’s manoeuvre

In case the previous method fails:

• Turn the infant 90° (its back to the right or to the left).
• Pull the infant downward: insert one hand along the back to look for the anterior arm. With the operator thumb in the infant armpit and middle finger along the arm, bring down the arm (Figure 6.4a).
• Lift infant upward by the feet in order to deliver the posterior shoulder (Figure 6.4b).

Figures 6.4 - Suzor's manoeuvre

6.4b  - Delivering the posterior shoulder

Head entrapment

The infant's head is bulkier than the body, and can get trapped in the mother's pelvis or soft tissue.

There are various manoeuvres for delivering the head by flexing it, so that it descends properly, and then pivoting it up and around the mother's symphysis. These manoeuvres must be done without delay, since the infant must be allowed to breathe as soon as possible. All these manoeuvres must be performed smoothly, without traction on the infant.

1 - Bracht's manoeuvre

• After the arms are delivered, the infant is grasped by the hips and lifted with two hands toward the mother's stomach, without any traction, the neck pivoting around the symphysis.
• Having an assistant apply suprapubic pressure facilitates delivery of the aftercoming head.

2 - Modified Mauriceau manoeuvre

• Infant's head occiput anterior.
• Kneel to get a good traction angle: 45° downward.
• Support the infant on the hand and forearm, then insert the index and middle fingers, placing them on the infant’s maxilla. Placing the index and middle fingers into the infant’s mouth is not recommended, as this can fracture the mandible.
• Place the index and middle fingers of the other hand on either side of the infant's neck and lower the infant's head to bring the sub-occiput under the symphysis (Figure 6.6a).
• Tip the infant’s head and with a sweeping motion bring the back up toward the mother's abdomen, pivoting the occiput around her symphysis pubis (Figure 6.6b).
• Suprapubic pressure on the infant's head along the pelvic axis helps delivery of the head.
• As a last resort, symphysiotomy (Chapter 5, Section 5.7 ) can be combined with this manoeuvre.

Figures 6.6 - Modified Mauriceau manoeuvre

6.6a - Step 1 Infant straddles the birth attendant's forearm; the head, occiput anterior, is lowered to bring the occiput in contact with the symphysis.

6.6b  - Step 2 The infant's back is tipped up toward the mother's abdomen.

3 - Forceps on aftercoming head 

This procedure can only be performed by an operator experienced in using forceps.

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Breech presentation: evolution of management

Affiliation.

• 1 Department of Obstetrics and Gynecology, University of California, Irvine, College of Medicine, Orange, USA.
• PMID: 15755047

From the historical perspective, vaginal delivery of the persistent breech presentation had been the tradition since the 1st century A.D. The external cephalic version was perfected and popularized in the mid-16th century. A variety of instruments and maneuvers had been used in the 19th century, with successful application of forceps to the after-coming head, and in 1924, Edmund Piper developed forceps for application only to the after-coming head. Vaginal delivery of breech cases had been performed primarily for the safety of the mother. As blood banking, antibiotics and safe anesthesia became available and legal and the ethical and social milieu was changing, cesarean breech deliveries were performed more liberally to reduce the increased perinatal morbidity and mortality of infants born of vaginal breech deliveries. Liberalization of cesarean delivery resulted in increased maternal mortality, and increased maternal morbidity created potential hazards in subsequent pregnancies. Renewed interest in revival of the practice of external cephalic version created successful reduction in term breech presentation. Several retrospective, prospective and randomized studies of vaginal deliveries of some types of breech cases were conducted under strict, selective protocols, with results of outcome comparable to those of cesarean sections. The International Term Breech Collaborative Group, after study of a large number of frank and complete breech cases, concluded that planned cesarean delivery is a "substantially better method of delivery for the fetus" and that a policy of planned vaginal birth for term, singleton, breech fetuses should no longer be encouraged.

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Evidence review M

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Review question

What is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy?

Introduction

Breech presentation of the fetus in late pregnancy may result in prolonged or obstructed labour with resulting risks to both woman and fetus. Interventions to correct breech presentation (to cephalic) before labour and birth are important for the woman’s and the baby’s health. The aim of this review is to determine the most effective way of managing a breech presentation in late pregnancy.

Summary of the protocol

Please see Table 1 for a summary of the Population, Intervention, Comparison and Outcome (PICO) characteristics of this review.

Summary of the protocol (PICO table).

For further details see the review protocol in appendix A .

Methods and process

This evidence review was developed using the methods and process described in Developing NICE guidelines: the manual 2014 . Methods specific to this review question are described in the review protocol in appendix A .

Declarations of interest were recorded according to NICE’s conflicts of interest policy .

Clinical evidence

Included studies.

Thirty-six randomised controlled trials (RCTs) were identified for this review.

The included studies are summarised in Table 2 .

Three studies reported on external cephalic version (ECV) versus no intervention ( Dafallah 2004 , Hofmeyr 1983 , Rita 2011 ). One study reported on a 4-arm trial comparing acupuncture, sweeping of fetal membranes, acupuncture plus sweeping, and no intervention ( Andersen 2013 ). Two studies reported on postural management versus no intervention ( Chenia 1987 , Smith 1999 ).

Seven studies reported on ECV plus anaesthesia ( Chalifoux 2017 , Dugoff 1999 , Khaw 2015 , Mancuso 2000 , Schorr 1997 , Sullivan 2009 , Weiniger 2010 ). Of these studies, 1 study compared ECV plus anaesthesia to ECV plus other dosages of the same anaesthetic ( Chalifoux 2017 ); 4 studies compared ECV plus anaesthesia to ECV only ( Dugoff 1999 , Mancuso 2000 , Schorr 1997 , Weiniger 2010 ); and 2 studies compared ECV plus anaesthesia to ECV plus a different anaesthetic ( Khaw 2015 , Sullivan 2009 ).

Ten studies reported ECV plus a β2 receptor agonist ( Brocks 1984 , Fernandez 1997 , Hindawi 2005 , Impey 2005 , Mahomed 1991 , Marquette 1996 , Nor Azlin 2005 , Robertson 1987 , Van Dorsten 1981 , Vani 2009 ). Of these studies, 5 studies compared ECV plus a β2 receptor agonist to ECV plus placebo ( Fernandez 1997 , Impey 2005 , Marquette 1996 , Nor Azlin 2005 , Vani 2009 ); 1 study compared ECV plus a β2 receptor agonist to ECV alone ( Robertson 1987 ); and 4 studies compared ECV plus a β2 receptor agonist to no intervention ( Brocks 1984 , Hindawi 2005 , Mahomed 1991 , Van Dorsten 1981 ).

One study reported on ECV plus Ca 2+ channel blocker versus ECV plus placebo ( Kok 2008 ). Two studies reported on ECV plus β2 receptor agonist versus ECV plus Ca 2+ channel blocker ( Collaris 2009 , Mohamed Ismail 2008 ). Four studies reported on ECV plus a µ-receptor agonist ( Burgos 2016 , Liu 2016 , Munoz 2014 , Wang 2017 ), of which 3 compared against ECV plus placebo ( Liu 2016 , Munoz 2014 , Wang 2017 ) and 1 compared to ECV plus nitrous oxide ( Burgos 2016 ).

Four studies reported on ECV plus nitroglycerin ( Bujold 2003a , Bujold 2003b , El-Sayed 2004 , Hilton 2009 ), of which 2 compared it to ECV plus β2 receptor agonist ( Bujold 2003b , El-Sayed 2004 ) and compared it to ECV plus placebo ( Bujold 2003a , Hilton 2009 ). One study compared ECV plus amnioinfusion versus ECV alone ( Diguisto 2018 ) and 1 study compared ECV plus talcum powder to ECV plus gel ( Vallikkannu 2014 ).

One study was conducted in Australia ( Smith 1999 ); 4 studies in Canada ( Bujold 2003a , Bujold 2003b , Hilton 2009 , Marquette 1996 ); 2 studies in China ( Liu 2016 , Wang 2017 ); 2 studies in Denmark ( Andersen 2013 , Brocks 1984 ); 1 study in France ( Diguisto 2018 ); 1 study in Hong Kong ( Khaw 2015 ); 1 study in India ( Rita 2011 ); 1 study in Israel ( Weiniger 2010 ); 1 study in Jordan ( Hindawi 2005 ); 5 studies in Malaysia ( Collaris 2009 , Mohamed Ismail 2008 , Nor Azlin 2005 , Vallikkannu 2014 , Vani 2009 ); 1 study in South Africa ( Hofmeyr 1983 ); 2 studies in Spain ( Burgos 2016 , Munoz 2014 ); 1 study in Sudan ( Dafallah 2004 ); 1 study in The Netherlands ( Kok 2008 ); 2 studies in the UK ( Impey 2005 , Chenia 1987 ); 9 studies in US ( Chalifoux 2017 , Dugoff 1999 , El-Sayed 2004 , Fernandez 1997 , Mancuso 2000 , Robertson 1987 , Schorr 1997 , Sullivan 2009 , Van Dorsten 1981 ); and 1 study in Zimbabwe ( Mahomed 1991 ).

The majority of studies were 2-arm trials, but there was one 3-arm trial ( Khaw 2015 ) and two 4-arm trials ( Andersen 2013 , Chalifoux 2017 ). All studies were conducted in a hospital or an outpatient ward connected to a hospital.

See the literature search strategy in appendix B and study selection flow chart in appendix C .

Excluded studies

Studies not included in this review with reasons for their exclusions are provided in appendix K .

Summary of clinical studies included in the evidence review

Summaries of the studies that were included in this review are presented in Table 2 .

Summary of included studies.

See the full evidence tables in appendix D and the forest plots in appendix E .

Quality assessment of clinical outcomes included in the evidence review

See the evidence profiles in appendix F .

Economic evidence

A systematic review of the economic literature was conducted but no economic studies were identified which were applicable to this review question.

A single economic search was undertaken for all topics included in the scope of this guideline. See supplementary material 2 for details.

Economic studies not included in this review are listed, and reasons for their exclusion are provided in appendix K .

Summary of studies included in the economic evidence review

No economic studies were identified which were applicable to this review question.

Economic model

No economic modelling was undertaken for this review because the committee agreed that other topics were higher priorities for economic evaluation.

Evidence statements

Clinical evidence statements, comparison 1. complementary therapy versus control (no intervention), critical outcomes, cephalic presentation in labour.

No evidence was identified to inform this outcome.

Method of birth

Caesarean section.

• Very low quality evidence from 1 RCT (N=204) showed that there is no clinically important difference between acupuncture and control (no intervention) on the number of caesarean sections in pregnant women with breech presentation: RR 0.74 (95% CI 0.38 to 1.43).
• Very low quality evidence from 1 RCT (N=200) showed that there is no clinically important difference between acupuncture plus membrane sweeping and control (no intervention) on the number of caesarean sections in pregnant women with breech presentation: RR 1.29 (95% CI 0.73 to 2.29).

Admission to SCBU/NICU

• Very low quality evidence from 1 RCT (N=204) showed that there is no clinically important difference between acupuncture and control (no intervention) on admission to SCBU/NICU in pregnant women with breech presentation: RR 0.19 (95% CI 0.02 to 1.62).
• Very low quality evidence from 1 RCT (N=200) showed that there is no clinically important difference between acupuncture plus membrane sweeping and control (no intervention) on admission to SCBU/NICU in pregnant women with breech presentation: RR 0.40 (0.08 to 2.01).

Fetal death after 36 +0 weeks gestation

Infant death up to 4 weeks chronological age, important outcomes, apgar score <7 at 5 minutes.

• Very low quality evidence from 1 RCT (N=204) showed that there is no clinically important difference between acupuncture and control (no intervention) on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RR 0.32 (95% CI 0.01 to 7.78).
• Very low quality evidence from 1 RCT (N=200) showed that there is no clinically important difference between acupuncture plus membrane sweeping and control (no intervention) on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RR 0.33 (0.01 to 8.09).

Birth before 39 +0 weeks of gestation

Comparison 2. complementary therapy versus other treatment.

• Low quality evidence from 1 RCT (N=207) showed that there is no clinically important difference between acupuncture and membrane sweeping on the number of caesarean sections in pregnant women with breech presentation: RR 0.64 (95% CI 0.34 to 1.22).
• Low quality evidence from 1 RCT (N=204) showed that there is no clinically important difference between acupuncture and acupuncture plus membrane sweeping on the number of caesarean sections in pregnant women with breech presentation: RR 0.57 (95% CI 0.30 to 1.07).
• Very low quality evidence from 1 RCT (N=203) showed that there is no clinically important difference between acupuncture plus membrane sweeping and membrane sweeping on the number of caesarean sections in pregnant women with breech presentation: RR 1.13 (95% CI 0.66 to 1.94).
• Very low quality evidence from 1 RCT (N=207) showed that there is no clinically important difference between acupuncture and membrane sweeping on admission to SCBU/NICU in pregnant women with breech presentation: RR 0.33 (95% CI 0.03 to 3.12).
• Very low quality evidence from 1 RCT (N=204) showed that there is no clinically important difference between acupuncture and acupuncture plus membrane sweeping on admission to SCBU/NICU in pregnant women with breech presentation: RR 0.48 (95% CI 0.04 to 5.22).
• Very low quality evidence from 1 RCT (N=203) showed that there is no clinically important difference between acupuncture plus membrane sweeping and membrane sweeping on admission to SCBU/NICU in pregnant women with breech presentation: RR 0.69 (95% CI 0.12 to 4.02).
• Low quality evidence from 1 RCT (N=207) showed that there is no clinically important difference between acupuncture and membrane sweeping on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RD 0.00 (95% CI −0.02 to 0.02).
• Low quality evidence from 1 RCT (N=204) showed that there is no clinically important difference between acupuncture and acupuncture plus membrane sweeping on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RD 0.00 (95% CI −0.02 to 0.02).
• Low quality evidence from 1 RCT (N=203) showed that there is no clinically important difference between acupuncture plus membrane sweeping and membrane sweeping on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RD 0.00 (95% CI −0.02 to 0.02).

Comparison 3. ECV versus no ECV

• Moderate quality evidence from 2 RCTs (N=680) showed that there is clinically important difference favouring ECV over no ECV on cephalic presentation in labour in pregnant women with breech presentation: RR 1.83 (95% CI 1.53 to 2.18).

Cephalic vaginal birth

• Very low quality evidence from 3 RCTs (N=740) showed that there is a clinically important difference favouring ECV over no ECV on cephalic vaginal birth in pregnant women with breech presentation: RR 1.67 (95% CI 1.20 to 2.31).

Breech vaginal birth

• Very low quality evidence from 2 RCTs (N=680) showed that there is no clinically important difference between ECV and no ECV on breech vaginal birth in pregnant women with breech presentation: RR 0.29 (95% CI 0.03 to 2.84).
• Very low quality evidence from 3 RCTs (N=740) showed that there is no clinically important difference between ECV and no ECV on the number of caesarean sections in pregnant women with breech presentation: RR 0.52 (95% CI 0.23 to 1.20).
• Very low quality evidence from 1 RCT (N=60) showed that there is no clinically important difference between ECV and no ECV on admission to SCBU//NICU in pregnant women with breech presentation: RR 0.50 (95% CI 0.14 to 1.82).
• Very low evidence from 3 RCTs (N=740) showed that there is no statistically significant difference between ECV and no ECV on fetal death after 36 +0 weeks gestation in pregnant women with breech presentation: Peto OR 0.29 (95% CI 0.05 to 1.73) p=0.18.
• Very low quality evidence from 2 RCTs (N=120) showed that there is no clinically important difference between ECV and no ECV on Apgar score <7 at 5 minutes in pregnant women with breech presentation: Peto OR 0.28 (95% CI 0.04 to 1.70).

Comparison 4. ECV + Amnioinfusion versus ECV only

• Very low quality evidence from 1 RCT (N=109) showed that there is no clinically important difference between ECV plus amnioinfusion and ECV alone on cephalic presentation in labour in pregnant women with breech presentation: RR 1.74 (95% CI 0.74 to 4.12).
• Low quality evidence from 1 RCT (N=109) showed that there is no clinically important difference between ECV plus amnioinfusion and ECV alone on the number of caesarean sections in pregnant women with breech presentation: RR 0.95 (95% CI 0.75 to 1.19).

Comparison 5. ECV + Anaesthesia versus ECV only

• Very low quality evidence from 2 RCTs (N=210) showed that there is no clinically important difference between ECV plus anaesthesia and ECV alone on cephalic presentation in labour in pregnant women with breech presentation: RR 1.16 (95% CI 0.56 to 2.41).
• Very low quality evidence from 5 RCTs (N=435) showed that there is no clinically important difference between ECV plus anaesthesia and ECV alone on cephalic vaginal birth in pregnant women with breech presentation: RR 1.16 (95% CI 0.77 to 1.74).
• Very low quality evidence from 1 RCT (N=108) showed that there is no clinically important difference between ECV plus anaesthesia and ECV alone on breech vaginal birth in pregnant women with breech presentation: RR 0.33 (95% CI 0.04 to 3.10).
• Very low quality evidence from 3 RCTs (N=263) showed that there is no clinically important difference between ECV plus anaesthesia and ECV alone on the number of caesarean sections in pregnant women with breech presentation: RR 0.76 (95% CI 0.42 to 1.38).
• Moderate quality evidence from 1 RCT (N=69) showed that there is a clinically important difference favouring ECV plus anaesthesia over ECV alone on admission to SCBU/NICU in pregnant women with breech presentation: MD −1.80 (95% CI −2.53 to −1.07).
• Low quality evidence from 1 RCT (N=126) showed that there is no clinically important difference between ECV plus anaesthesia and ECV alone on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RD 0.00 (95% CI −0.03 to 0.03).

Comparison 6. ECV + Anaesthesia versus ECV + Anaesthesia

• Very low quality evidence from 1 RCT (N=120) showed that there is no clinically important difference between ECV plus 2.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 5mg Bupivacaine plus 0.015mg Fentanyl on cephalic vaginal birth in pregnant women with breech presentation: RR 1.13 (95% CI 0.73 to 1.74).
• Low quality evidence from 1 RCT (N=119) showed that there is no clinically important difference between ECV plus 2.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 7.5mg Bupivacaine plus 0.015mg Fentanyl on cephalic vaginal birth in pregnant women with breech presentation: RR 0.81 (95% CI 0.53 to 1.23).
• Very low quality evidence from 1 RCT (N=120) showed that there is no clinically important difference between ECV plus 2.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 10mg Bupivacaine plus 0.015mg Fentanyl on cephalic vaginal birth in pregnant women with breech presentation: RR 0.96 (95% CI 0.61 to 1.50).
• Very low quality evidence from 1 RCT (N=95) showed that there is no clinically important difference between ECV plus 2.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 0.05mg Fentanyl on cephalic vaginal birth in pregnant women with breech presentation: RR 0.69 (95% CI 0.37 to 1.28).
• Low quality evidence from 1 RCT (N=119) showed that there is no clinically important difference between ECV plus 5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 7.5mg Bupivacaine plus 0.015mg Fentanyl on cephalic vaginal birth in pregnant women with breech presentation: RR 0.81 (95% CI 0.53 to 1.23).
• Very low quality evidence from 1 RCT (N=120) showed that there is no clinically important difference between ECV plus 5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 10mg Bupivacaine plus 0.015mg Fentanyl on cephalic vaginal birth in pregnant women with breech presentation: RR 0.96 (95% CI 0.61 to 1.50).
• Very low evidence from 1 RCT (N=119) showed that there is no clinically important difference between ECV plus 7.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 10mg Bupivacaine plus 0.015mg Fentanyl on cephalic vaginal birth in pregnant women with breech presentation: RR 1.19 (95% CI 0.79 to 1.79).
• Low quality evidence from 1 RCT (N=120) showed that there is no clinically important difference between ECV plus 2.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 5mg Bupivacaine plus 0.015mg Fentanyl on the number of caesarean sections in pregnant women with breech presentation: RR 0.92 (95% CI 0.68 to 1.24).
• Very low evidence from 1 RCT (N=119) showed that there is no clinically important difference between ECV plus 2.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 7.5mg Bupivacaine plus 0.015mg Fentanyl on the number of caesarean sections in pregnant women with breech presentation: RR 1.08 (95% CI 0.78 to 1.50).
• Very low evidence from 1 RCT (N=120) showed that there is no clinically important difference between ECV plus 2.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 10mg Bupivacaine plus 0.015mg Fentanyl on the number of caesarean sections in pregnant women with breech presentation: RR 0.94 (95% CI 0.70 to 1.28).
• Low quality evidence from 1 RCT (N=119) showed that there is no clinically important difference between ECV plus 5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 7.5mg Bupivacaine plus 0.015mg Fentanyl on the number of caesarean sections in pregnant women with breech presentation: RR 1.17 (95% CI 0.86 to 1.61).
• Very low quality evidence from 1 RCT (N=120) showed that there is no clinically important difference between ECV plus 5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 10mg Bupivacaine plus 0.015mg Fentanyl on the number of caesarean sections in pregnant women with breech presentation: RR 1.03 (95% CI 0.77 to 1.37).
• Low quality evidence from 1 RCT (N=119) showed that there is no clinically important difference between ECV plus 7.5mg Bupivacaine plus 0.015mg Fentanyl and ECV plus 10mg Bupivacaine plus 0.015mg Fentanyl on the number of caesarean sections in pregnant women with breech presentation: RR 0.88 (95% CI 0.64 to 1.20).

Comparison 7. ECV + β2 agonist versus Control (no intervention)

• Moderate quality evidence from 2 RCTs (N=256) showed that there is a clinically important difference favouring ECV plus β2 agonist over control (no intervention) on cephalic presentation in labour in pregnant women with breech presentation: RR 4.83 (95% CI 3.27 to 7.11).
• Very low quality evidence from 3 RCTs (N=265) showed that there no clinically important difference between ECV plus β2 agonist and control (no intervention) on cephalic vaginal birth in pregnant women with breech presentation: RR 2.03 (95% CI 0.22 to 19.01).
• Very low quality evidence from 4 RCTs (N=513) showed that there is a clinically important difference favouring ECV plus β2 agonist over control (no intervention) on breech vaginal birth in pregnant women with breech presentation: RR 0.38 (95% CI 0.20 to 0.69).
• Low quality evidence from 4 RCTs (N=513) showed that there is a clinically important difference favouring ECV plus β2 agonist over control (no intervention) on the number of caesarean sections in pregnant women with breech presentation: RR 0.53 (95% CI 0.41 to 0.67).
• Very low quality evidence from 1 RCT (N=48) showed that there is no clinically important difference between ECV plus β2 agonist and control (no intervention) on admission to SCBU/NICU in pregnant women with breech presentation: RD 0.00 (95% CI −0.08 to 0.08).
• Very low quality evidence from 3 RCTs (N=208) showed that there is no statistically significant difference between ECV plus β2 agonist and control (no intervention) on fetal death after 36 +0 weeks gestation in pregnant women with breech presentation: RD −0.01 (95% CI −0.03 to 0.01) p=0.66.
• Very low quality evidence from 2 RCTs (N=208) showed that there is no clinically important difference between ECV plus β2 agonist and control (no intervention) on Apgar score <7 at 5 minutes in pregnant women with breech presentation: Peto OR 0.80 (95% CI 0.31 to 2.10).

Comparison 8. ECV + β2 agonist versus ECV only

• Very low quality evidence from 2 RCTs (N=172) showed that there is no clinically important difference between ECV plus β2 agonist and ECV only on cephalic vaginal birth in pregnant women with breech presentation: RR 1.32 (95% CI 0.67 to 2.62).
• Very low quality evidence from 1 RCT (N=58) showed that there is no clinically important difference between ECV plus β2 agonist and ECV only on breech vaginal birth in pregnant women with breech presentation: RR 0.75 (95% CI 0.22 to 2.50).
• Very low quality evidence from 2 RCTs (N=172) showed that there is no clinically important difference between ECV plus β2 agonist and ECV only on the number of caesarean sections in pregnant women with breech presentation: RR 0.79 (95% CI 0.27 to 2.28).
• Very low quality evidence from 1 RCT (N=114) showed that there is no clinically important difference between ECV plus β2 agonist and ECV only on admission to SCBU/NICU in pregnant women with breech presentation: RR 1.00 (95% CI 0.21 to 4.75).

Comparison 9. ECV + β2 agonist versus ECV + Placebo

• Very low quality evidence from 2 RCTs (N=146) showed that there is no clinically important difference between ECV plus β2 agonist and ECV plus placebo on cephalic presentation in labour in pregnant women with breech presentation: RR 1.54 (95% CI 0.24 to 9.76).
• Very low quality evidence from 2 RCTs (N=125) showed that there is no clinically important difference between ECV plus β2 agonist and ECV plus placebo on cephalic vaginal birth in pregnant women with breech presentation: RR 1.27 (95% CI 0.41 to 3.89).
• Very low quality evidence from 2 RCTs (N=227) showed that there is no clinically important difference between ECV plus β2 agonist and ECV plus placebo on breech vaginal birth in pregnant women with breech presentation: RR 1.00 (95% CI 0.33 to 2.97).
• Low quality evidence from 4 RCTs (N=532) showed that there is no clinically important difference between ECV plus β2 agonist and ECV plus placebo on the number of caesarean sections in pregnant women with breech presentation: RR 0.81 (95% CI 0.72 to 0.92)
• Very low quality evidence from 2 RCTs (N=146) showed that there is no clinically important difference between ECV plus β2 agonist and ECV plus placebo on admission to SCBU/NICU in pregnant women with breech presentation: RR 0.78 (95% CI 0.17 to 3.63).
• Very low quality evidence from 1 RCT (N=124) showed that there is no clinically important difference between ECV plus β2 agonist and ECV plus placebo on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RD 0.00 (95% CI −0.03 to 0.03).

Comparison 10. ECV + Ca 2+ channel blocker versus ECV + Placebo

• Moderate quality evidence from 1 RCT (N=310) showed that there is no clinically important difference between ECV plus Ca 2+ channel blocker and ECV plus placebo on cephalic presentation in labour in pregnant women with breech presentation: RR 1.13 (95% CI 0.87 to 1.48).
• Moderate quality evidence from 1 RCT (N=310) showed that there is no clinically important difference between ECV plus Ca 2+ channel blocker and ECV plus placebo on cephalic vaginal birth in pregnant women with breech presentation: RR 0.90 (95% CI 0.73 to 1.12).
• Moderate quality evidence from 1 RCT (N=310) showed that there is no clinically important difference between ECV plus Ca 2+ channel blocker and ECV plus placebo on the number of caesarean sections in pregnant women with breech presentation: RR 1.11 (95% CI 0.88 to 1.40).
• High quality evidence from 1 RCT (N=310) showed that there is no clinically important difference between ECV plus Ca 2+ channel blocker and ECV plus placebo on admission to SCBU/NICU in pregnant women with breech presentation: MD −0.20 (95% CI −0.70 to 0.30).
• Moderate quality evidence from 1 RCT (N=310) showed that there is no statistically significant difference between ECV plus Ca 2+ channel blocker and ECV plus placebo on fetal death after 36 +0 weeks gestation in pregnant women with breech presentation: RD 0.00 (95% CI −0.01 to 0.01) p=1.00.
• Low quality evidence from 1 RCT (N=310) showed that there is no clinically important difference between ECV plus Ca 2+ channel blocker and ECV plus placebo on Apgar score <7 at 5 minutes in pregnant women with breech presentation: Peto OR 0.52 (95% 0.05 to 5.02).

Comparison 11. ECV + Ca2+ channel blocker versus ECV + β2 agonist

• Low quality evidence from 1 RCT (N=90) showed that there is a clinically important difference favouring ECV plus β2 agonist over ECV plus Ca 2+ channel blocker on cephalic presentation in labour in pregnant women with breech presentation: RR 0.62 (95% CI 0.39 to 0.98).
• Very low quality evidence from 2 RCTs (N=126) showed that there is no clinically important difference between ECV plus Ca 2+ channel blocker and ECV plus β2 agonist on cephalic vaginal birth in pregnant women with breech presentation: RR 1.26 (95% CI 0.55 to 2.89).
• Very low quality evidence from 2 RCTs (N=132) showed that there is a clinically important difference favouring ECV plus β2 agonist over ECV plus Ca 2+ channel blocker on the number of caesarean sections in pregnant women with breech presentation: RR 1.42 (95% CI 1.06 to 1.91).
• Very low quality evidence from 2 RCTs (N=176) showed that there is no clinically important difference between ECV plus Ca 2+ channel blocker and ECV plus β2 agonist on admission to SCBU/NICU in pregnant women with breech presentation: Peto OR 0.53 (95% CI 0.05 to 5.22).
• Very low quality evidence from 2 RCTs (N=176) showed that there is no clinically important difference between ECV plus Ca 2+ channel blocker and ECV plus β2 agonist on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RD 0.00 (95% CI −0.03 to 0.03).

Comparison 12. ECV + µ-receptor agonist versus ECV only

• High quality evidence from 1 RCT (N=80) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV alone on cephalic vaginal birth in pregnant women with breech presentation: RR 1.00 (95% CI 0.80 to 1.24).
• Low quality evidence from 1 RCT (N=80) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV alone on the number of caesarean sections in pregnant women with breech presentation: RR 1.00 (95% CI 0.42 to 2.40).
• Low quality evidence from 1 RCT (N=126) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV alone on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RD 0.00 (95% CI −0.03 to 0.03).

Comparison 13. ECV + µ-receptor agonist versus ECV + Placebo

Cephalic vaginal birth after successful ecv.

• High quality evidence from 2 RCTs (N=98) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV plus placebo on cephalic vaginal birth after successful ECV in pregnant women with breech presentation: RR 1.00 (95% CI 0.86 to 1.17).

Caesarean section after successful ECV

• Low quality evidence from 2 RCTs (N=98) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV plus placebo on caesarean section after successful ECV in pregnant women with breech presentation: RR 0.97 (95% CI 0.33 to 2.84).

Breech vaginal birth after unsuccessful ECV

• High quality evidence from 3 RCTs (N=186) showed that there is a clinically important difference favouring ECV plus µ-receptor agonist over ECV plus placebo on breech vaginal birth after unsuccessful ECV in pregnant women with breech presentation: RR 0.10 (95% CI 0.02 to 0.53).

Caesarean section after unsuccessful ECV

• Moderate quality evidence from 3 RCTs (N=186) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV plus placebo on caesarean section after unsuccessful ECV in pregnant women with breech presentation: RR 1.19 (95% CI 1.09 to 1.31).
• Low quality evidence from 1 RCT (N=137) showed that there is no statistically significant difference between ECV plus µ-receptor agonist and ECV plus placebo on fetal death after 36 +0 weeks gestation in pregnant women with breech presentation: RD 0.00 (95% CI −0.03 to 0.03) p=1.00.

Comparison 14. ECV + µ-receptor agonist versus ECV + Anaesthesia

• Moderate quality evidence from 1 RCT (N=92) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV plus anaesthesia on cephalic vaginal birth in pregnant women with breech presentation: RR 1.04 (95% CI 0.84 to 1.29).
• Very low quality evidence from 2 RCTs (N=212) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV plus anaesthesia on the number of caesarean sections in pregnant women with breech presentation: RR 0.90 (95% CI 0.61 to 1.34).
• Very low quality evidence from 1 RCT (N=129) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV plus anaesthesia on admission to SCBU/NICU in pregnant women with breech presentation: RR 2.30 (95% CI 0.21 to 24.74).
• Low quality evidence from 2 RCTs (N=255) showed that there is no clinically important difference between ECV plus µ-receptor agonist and ECV plus anaesthesia on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RD 0.00 (95% CI −0.02 to 0.02).

Comparison 15. ECV + Nitric oxide donor versus ECV + Placebo

• Very low quality evidence from 3 RCTs (N=224) showed that there is no clinically important difference between ECV plus nitric oxide donor and ECV plus placebo on cephalic presentation in labour in pregnant women with breech presentation: RR 1.13 (95% CI 0.59 to 2.16).
• Low quality evidence from 1 RCT (N=99) showed that there is no clinically important difference between ECV plus nitric oxide donor and ECV plus placebo on cephalic vaginal birth in pregnant women with breech presentation: RR 0.78 (95% CI 0.49 to 1.22).
• Low quality evidence from 2 RCTs (N=125) showed that there is no clinically important difference between ECV plus nitric oxide donor and ECV plus placebo on the number of caesarean sections in pregnant women with breech presentation: RR 0.83 (95% CI 0.68 to 1.01).

Comparison 16. ECV + Nitric oxide donor versus ECV + β2 agonist

• Low quality evidence from 1 RCT (N=74) showed that there is no clinically important difference between ECV plus β2 agonist and ECV plus nitric oxide donor on cephalic presentation in labour in pregnant women with breech presentation: RR 0.56 (95% CI 0.29 to 1.09).
• Very low quality evidence from 2 RCTs (N=97) showed that there is no clinically important difference between ECV plus nitric oxide donor and ECV plus β2 agonist on cephalic vaginal birth in pregnant women with breech presentation: RR 0.98 (95% CI 0.47 to 2.05).
• Very low quality evidence from 1 RCT (N=59) showed that there is no clinically important difference between ECV plus nitric oxide donor and ECV plus β2 agonist on the number of caesarean sections in pregnant women with breech presentation: RR 1.07 (95% CI 0.73 to 1.57).

Comparison 17. ECV + Talcum powder versus ECV + Gel

• Low quality evidence from 1 RCT (N=95) showed that there is no clinically important difference between ECV plus talcum powder and ECV plus gel on cephalic presentation in labour in pregnant women with breech presentation: RR 1.02 (95% CI 0.68 to 1.53).
• Low quality evidence from 1 RCT (N=95) showed that there is no clinically important difference between ECV plus talcum powder and ECV plus gel on cephalic vaginal birth in pregnant women with breech presentation: RR 1.08 (95% CI 0.67 to 1.74).
• Low quality evidence from 1 RCT (N=95) showed that there is no clinically important difference between ECV plus talcum powder and ECV plus gel on the number of caesarean sections in pregnant women with breech presentation: RR 0.94 (95% CI 0.67 to 1.33).
• Low quality evidence from 1 RCT (N=95) showed that there is no clinically important difference between ECV plus talcum powder and ECV plus gel on admission to SCBU/NICU in pregnant women with breech presentation: RR 1.96 (95% CI 0.38 to 10.19).

Comparison 18. Postural management versus No postural management

• Low quality evidence from 1 RCT (N=76) showed that there is no clinically important difference between postural management and no postural management on cephalic presentation in labour in pregnant women with breech presentation: RR 1.26 (95% CI 0.70 to 2.30).
• Low quality evidence from 1 RCT (N=76) showed that there is no clinically important difference between postural management and no postural management on cephalic vaginal birth in pregnant women with breech presentation: RR 1.11 (95% CI 0.59 to 2.07).

Breech vaginal delivery

• Low quality evidence from 1 RCT (N=76) showed that there is no clinically important difference between postural management and no postural management on breech vaginal delivery in pregnant women with breech presentation: RR 1.15 (95% CI 0.67 to 1.99).
• Low quality evidence from 1 RCT (N=76) showed that there is no clinically important difference between postural management and no postural management on the number of caesarean sections in pregnant women with breech presentation: RR 0.69 (95% CI 0.31 to 1.52).
• Low quality evidence from 1 RCT (N=76) showed that there is no clinically important difference between postural management and no postural management on Apgar score <7 at 5 minutes in pregnant women with breech presentation: RR 0.24 (95% CI 0.03 to 2.03).

Comparison 19. Postural management + ECV versus ECV only

• Moderate quality evidence from 1 RCT (N=100) showed that there is no clinically important difference between postural management plus ECV and ECV only on the number of caesarean sections in pregnant women with breech presentation: RR 1.05 (95% CI 0.80 to 1.38).
• Low quality evidence from 1 RCT (N=100) showed that there is no clinically important difference between postural management plus ECV and ECV only on Apgar score <7 at 5 minutes in pregnant women with breech presentation: Peto OR 0.13 (95% CI 0.00 to 6.55).

Economic evidence statements

No economic evidence was identified which was applicable to this review question.

The committee’s discussion of the evidence

Interpreting the evidence, the outcomes that matter most.

Provision of antenatal care is important for the health and wellbeing of both mother and baby with the aim of avoiding adverse pregnancy outcomes and enhancing maternal satisfaction and wellbeing. Breech presentation in labour may be associated with adverse outcomes for the fetus, which has contributed to an increased likelihood of caesarean birth. The committee therefore agreed that cephalic presentation in labour and method of birth were critical outcomes for the woman, and admission to SCBU/NICU, fetal death after 36 +0 weeks gestation, and infant death up to 4 weeks chronological age were critical outcomes for the baby. Apgar score <7 at 5 minutes and birth before 39 +0 weeks of gestation were important outcomes for the baby.

The quality of the evidence

The quality of the evidence for interventions for managing a longitudinal lie fetal malpresentation (that is breech presentation) in late pregnancy ranged from very low to high, with most of the evidence being of a very low or low quality.

This was predominately due to serious overall risk of bias in some outcomes; imprecision around the effect estimate in some outcomes; indirect population in some outcomes; and the presence of serious heterogeneity in some outcomes, which was unresolved by subgroup analysis. The majority of included studies had a small sample size, which contributed to imprecision around the effect estimate.

No evidence was identified to inform the outcomes of infant death up to 4 weeks chronological age and birth before 39 +0 weeks of gestation.

There was no publication bias identified in the evidence. However, the committee noted the influence pharmacological developers may have in these trials as funders, and took this into account in their decision making.

Benefits and harms

The committee discussed that in the case of breech presentation, a discussion with the woman about the different options and their potential benefits, harms and implications is needed to ensure an informed decision. The committee discussed that some women may prefer a breech vaginal birth or choose an elective caesarean birth, and that her preferences should be supported, in line with shared decision making.

The committee discussed that external cephalic version is standard practice for managing breech presentation in uncomplicated singleton pregnancies at or after 36+0 weeks. The committee discussed that there could be variation in the success rates of ECV based on the experience of the healthcare professional providing the ECV. There was some evidence supporting the use of ECV for managing a breech presentation in late pregnancy. The evidence showed ECV had a clinically important benefit in terms of cephalic presentations in labour and cephalic vaginal deliveries, when compared to no intervention. The committee noted that the evidence suggested that ECV was not harmful to the baby, although the effect estimate was imprecise relating to the relative rarity of the fetal death as an outcome.

Cephalic (head-down) vaginal birth is preferred by many women and the evidence suggests that external cephalic version is an effective way to achieve this. The evidence suggested ECV increased the chance for a cephalic vaginal birth and the committee agreed that it was important to explain this to the woman during her consultation.

The committee discussed the optimum timing for ECV. Timing of ECV must take into account the likelihood of the baby turning naturally before a woman commences labour and the possibility of the baby turning back to a breech presentation after ECV if it is done too early. The committee noted that in their experience, current practice was to perform ECV at 37 gestational weeks. The majority of the evidence demonstrating a benefit of ECV in this review involved ECV performed around 37 gestational weeks, although the review did not look for studies directly comparing different timings of ECV and their relative success rates.

The evidence in this review excluded women with previous complicated pregnancies, such as those with previous caesarean section or uterine surgery. The committee discussed that a previous caesarean section indicates a complicated pregnancy and that this population of women are not the focus of this guideline, which concentrates on women with uncomplicated pregnancies.

The committee’s recommendations align with other NICE guidance and cross references to the NICE guideline on caesarean birth and the section on breech presenting in labour in the NICE guideline on intrapartum care for women with existing medical conditions or obstetric complications and their babies were made.

ECV combined with pharmacological agents

There were some small studies comparing a variety of pharmacological agents (including β2 agonists, Ca 2+ channel blockers, µ-receptor agonists and nitric oxide donors) given alongside ECV. Overall the evidence typically showed no clinically important benefit of adding any pharmacological agent to ECV except in comparisons with a control arm with no ECV where it was not possible to isolate the effect of the ECV versus the pharmacological agent. The evidence tended toward benefit most for β2 agonists and µ-receptor agonists however there was no consistent or high quality evidence of benefit even for these agents. The committee agreed that although these pharmacological agents are used in practice, there was insufficient evidence to make a recommendation supporting or refuting their use or on which pharmacological agent should be used.

The committee discussed that the evidence suggesting µ-receptor agonist, remifentanil, had a clinically important benefit in terms reducing breech vaginal births after unsuccessful ECV was biologically implausible. The committee noted that this pharmacological agent has strong sedative effects, depending on the dosage, and therefore studies comparing it to a placebo had possible design flaws as it would be obvious to all parties whether placebo or active drug had been received. The committee discussed that the risks associated with using remifentanil such as respiratory depression, likely outweigh any potential added benefit it may have on managing breech presentation.

There was some evidence comparing different anaesthetics together with ECV. Although there was little consistent evidence of benefit overall, one small study of low quality showed a combination of 2% lidocaine and epinephrine via epidural catheter (anaesthesia) with ECV showed a clinically important benefit in terms of cephalic presentations in labour and the method of birth. The committee discussed the evidence and agreed the use of anaesthesia via epidural catheter during ECV was uncommon practice in the UK and could be expensive, overall they agreed the strength of the evidence available was insufficient to support a change in practice.

Postural management

There was limited evidence on postural management as an intervention for managing breech presentation in late pregnancy, which showed no difference in effectiveness. Postural management was defined as ‘knee-chest position for 15 minutes, 3 times a day’. The committee agreed that in their experience women valued trying interventions at home first which might make postural management an attractive option for some women, however, there was no evidence that postural management was beneficial. The committee also noted that in their experience postural management can cause notable discomfort so it is not an intervention without disadvantages.

Cost effectiveness and resource use

A systematic review of the economic literature was conducted but no relevant studies were identified which were applicable to this review question.

The committee’s recommendations to offer external cephalic version reinforces current practice. The committee noted that, compared to no intervention, external cephalic version results in clinically important benefits and that there would also be overall downstream cost savings from lower adverse events. It was therefore the committee’s view that offering external cephalic version is cost effective and would not entail any resource impact.

Andersen 2013

Brocks 1984

Bujold 2003

Burgos 2016

Chalifoux 2017

Chenia 1987

Collaris 2009

Dafallah 2004

Diguisto 2018

Dugoff 1999

El-Sayed 2004

Fernandez 1997

Hindawi 2005

Hilton 2009

Hofmeyr 1983

Mahomed 1991

Mancuso 2000

Marquette 1996

Mohamed Ismail 2008

NorAzlin 2005

Robertson 1987

Schorr 1997

Sullivan 2009

VanDorsten 1981

Vallikkannu 2014

Weiniger 2010

Appendix A. Review protocols

Review protocol for review question: What is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy? (PDF, 260K)

Appendix B. Literature search strategies

Literature search strategies for review question: What is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy? (PDF, 281K)

Appendix C. Clinical evidence study selection

Clinical study selection for: What is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy? (PDF, 113K)

Appendix D. Clinical evidence tables

Clinical evidence tables for review question: What is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy? (PDF, 1.2M)

Appendix E. Forest plots

Forest plots for review question: What is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy? (PDF, 678K)

Appendix F. GRADE tables

GRADE tables for review question: What is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy? (PDF, 1.0M)

Appendix G. Economic evidence study selection

Economic evidence study selection for review question: what is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy, appendix h. economic evidence tables, economic evidence tables for review question: what is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy, appendix i. economic evidence profiles, economic evidence profiles for review question: what is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy, appendix j. economic analysis, economic evidence analysis for review question: what is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy.

No economic analysis was conducted for this review question.

Appendix K. Excluded studies

Excluded clinical and economic studies for review question: what is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy, clinical studies, table 24 excluded studies.

View in own window

Economic studies

No economic evidence was identified for this review.

Appendix L. Research recommendations

Research recommendations for review question: what is the most effective way of managing a longitudinal lie fetal malpresentation (breech presentation) in late pregnancy.

No research recommendations were made for this review question.

Evidence reviews underpinning recommendation 1.2.38

These evidence reviews were developed by the National Guideline Alliance, which is a part of the Royal College of Obstetricians and Gynaecologists

Disclaimer : The recommendations in this guideline represent the view of NICE, arrived at after careful consideration of the evidence available. When exercising their judgement, professionals are expected to take this guideline fully into account, alongside the individual needs, preferences and values of their patients or service users. The recommendations in this guideline are not mandatory and the guideline does not override the responsibility of healthcare professionals to make decisions appropriate to the circumstances of the individual patient, in consultation with the patient and/or their carer or guardian.

Local commissioners and/or providers have a responsibility to enable the guideline to be applied when individual health professionals and their patients or service users wish to use it. They should do so in the context of local and national priorities for funding and developing services, and in light of their duties to have due regard to the need to eliminate unlawful discrimination, to advance equality of opportunity and to reduce health inequalities. Nothing in this guideline should be interpreted in a way that would be inconsistent with compliance with those duties.

NICE guidelines cover health and care in England. Decisions on how they apply in other UK countries are made by ministers in the Welsh Government , Scottish Government , and Northern Ireland Executive . All NICE guidance is subject to regular review and may be updated or withdrawn.

• Cite this Page National Guideline Alliance (UK). Management of breech presentation: Antenatal care: Evidence review M. London: National Institute for Health and Care Excellence (NICE); 2021 Aug. (NICE Guideline, No. 201.)
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• Review Identification of breech presentation: Antenatal care: Evidence review L [ 2021] Review Identification of breech presentation: Antenatal care: Evidence review L National Guideline Alliance (UK). 2021 Aug
• Vaginal delivery of breech presentation. [J Obstet Gynaecol Can. 2009] Vaginal delivery of breech presentation. Kotaska A, Menticoglou S, Gagnon R, MATERNAL FETAL MEDICINE COMMITTEE. J Obstet Gynaecol Can. 2009 Jun; 31(6):557-566.
• Review Cephalic version by moxibustion for breech presentation. [Cochrane Database Syst Rev. 2005] Review Cephalic version by moxibustion for breech presentation. Coyle ME, Smith CA, Peat B. Cochrane Database Syst Rev. 2005 Apr 18; (2):CD003928. Epub 2005 Apr 18.
• [Fetal expulsion: Which interventions for perineal prevention? CNGOF Perineal Prevention and Protection in Obstetrics Guidelines]. [Gynecol Obstet Fertil Senol. 2...] [Fetal expulsion: Which interventions for perineal prevention? CNGOF Perineal Prevention and Protection in Obstetrics Guidelines]. Riethmuller D, Ramanah R, Mottet N. Gynecol Obstet Fertil Senol. 2018 Dec; 46(12):937-947. Epub 2018 Oct 28.
• Foetal weight, presentaion and the progress of labour. II. Breech and occipito-posterior presentation related to the baby's weight and the length of the first stage of labour. [J Obstet Gynaecol Br Emp. 1961] Foetal weight, presentaion and the progress of labour. II. Breech and occipito-posterior presentation related to the baby's weight and the length of the first stage of labour. BAINBRIDGE MN, NIXON WC, SMYTH CN. J Obstet Gynaecol Br Emp. 1961 Oct; 68:748-54.

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Fetal Presentation, Position, and Lie (Including Breech Presentation)

• Key Points |

Abnormal fetal lie or presentation may occur due to fetal size, fetal anomalies, uterine structural abnormalities, multiple gestation, or other factors. Diagnosis is by examination or ultrasonography. Management is with physical maneuvers to reposition the fetus, operative vaginal delivery , or cesarean delivery .

Terms that describe the fetus in relation to the uterus, cervix, and maternal pelvis are

Fetal presentation: Fetal part that overlies the maternal pelvic inlet; vertex (cephalic), face, brow, breech, shoulder, funic (umbilical cord), or compound (more than one part, eg, shoulder and hand)

Fetal position: Relation of the presenting part to an anatomic axis; for vertex presentation, occiput anterior, occiput posterior, occiput transverse

Fetal lie: Relation of the fetus to the long axis of the uterus; longitudinal, oblique, or transverse

Normal fetal lie is longitudinal, normal presentation is vertex, and occiput anterior is the most common position.

Abnormal fetal lie, presentation, or position may occur with

Fetopelvic disproportion (fetus too large for the pelvic inlet)

Fetal congenital anomalies

Uterine structural abnormalities (eg, fibroids, synechiae)

Multiple gestation

Several common types of abnormal lie or presentation are discussed here.

Transverse lie

Fetal position is transverse, with the fetal long axis oblique or perpendicular rather than parallel to the maternal long axis. Transverse lie is often accompanied by shoulder presentation, which requires cesarean delivery.

Breech presentation

There are several types of breech presentation.

Frank breech: The fetal hips are flexed, and the knees extended (pike position).

Complete breech: The fetus seems to be sitting with hips and knees flexed.

Single or double footling presentation: One or both legs are completely extended and present before the buttocks.

Types of breech presentations

Breech presentation makes delivery difficult ,primarily because the presenting part is a poor dilating wedge. Having a poor dilating wedge can lead to incomplete cervical dilation, because the presenting part is narrower than the head that follows. The head, which is the part with the largest diameter, can then be trapped during delivery.

Additionally, the trapped fetal head can compress the umbilical cord if the fetal umbilicus is visible at the introitus, particularly in primiparas whose pelvic tissues have not been dilated by previous deliveries. Umbilical cord compression may cause fetal hypoxemia.

Predisposing factors for breech presentation include

Preterm labor

Uterine abnormalities

Fetal anomalies

If delivery is vaginal, breech presentation may increase risk of

Umbilical cord prolapse

Birth trauma

Perinatal death

Face or brow presentation

In face presentation, the head is hyperextended, and position is designated by the position of the chin (mentum). When the chin is posterior, the head is less likely to rotate and less likely to deliver vaginally, necessitating cesarean delivery.

Brow presentation usually converts spontaneously to vertex or face presentation.

Occiput posterior position

The most common abnormal position is occiput posterior.

The fetal neck is usually somewhat deflexed; thus, a larger diameter of the head must pass through the pelvis.

Progress may arrest in the second phase of labor. Operative vaginal delivery or cesarean delivery is often required.

Position and Presentation of the Fetus

If a fetus is in the occiput posterior position, operative vaginal delivery or cesarean delivery is often required.

In breech presentation, the presenting part is a poor dilating wedge, which can cause the head to be trapped during delivery, often compressing the umbilical cord.

For breech presentation, usually do cesarean delivery at 39 weeks or during labor, but external cephalic version is sometimes successful before labor, usually at 37 or 38 weeks.

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Breech - series—Types of breech presentation

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There are three types of breech presentation: complete, incomplete, and frank.

Complete breech is when both of the baby's knees are bent and his feet and bottom are closest to the birth canal.

Incomplete breech is when one of the baby's knees is bent and his foot and bottom are closest to the birth canal.

Frank breech is when the baby's legs are folded flat up against his head and his bottom is closest to the birth canal.

There is also footling breech where one or both feet are presenting.

Review Date 11/21/2022

Updated by: LaQuita Martinez, MD, Department of Obstetrics and Gynecology, Emory Johns Creek Hospital, Alpharetta, GA. Also reviewed by David C. Dugdale, MD, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.

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What Does It Mean to Have a Frank Breech Baby?

Frank breech is the most common type of breech position. Learn what this position means for you and your baby.

• Types of Breech Positions

How To Tell If Your Baby Is Breech

Causes of breech presentations, treatment for breech presentations, complications of a breech birth, what happens if my baby is breech.

If your baby is in a frank breech position, that means that their bottom is facing down towards the birth canal instead of their head. The part of the baby that is nearest to the cervix is called the presenting part. The presenting part, which is the part of the baby's body that is born first in a vaginal delivery , is usually the baby's head (known as vertex presentation).

In a small number of deliveries, however, a baby’s bottom or feet are in a position to be born first. This is called a breech presentation, and frank breech (bottom first, with feet up near the head) is the most common type.

Learn about the types of breech presentation including frank breech, what causes a baby to be breech, how it's treated, and what to expect with a breech delivery.

Jamie Grill / Getty Images 

Frank Breech and Other Types of Breech Positions

Babies can be in all sorts of positions during pregnancy, but most babies eventually turn head down in late pregnancy. As pregnancy progresses, the more likely it is that the baby will turn and the head will be down near the cervix when it's time for delivery.

Breech Presentation Statistics

• Before the 28th week of pregnancy, about 20% to 25% of babies are breech.
• By the 34th week of pregnancy, most babies will turn and approximately 5% to 7% will be breech.
• By full term, only 3% to 4% of babies (3 or 4 out of every 100 births) are breech.

Sometimes, however, babies are in a breech (bottom or leg down) position when labor begins. There are several types of breech positions.

Frank breech

A frank breech position is when the baby’s bottom is down, but their legs are straight up with their feet near their head. The presenting part is the buttocks.

A frank breech is the most common breech presentation, especially when a baby is born at full term. Of the 3% to 4% of term breech births, babies are in the frank breech position 50% to 70% of the time.

Complete breech

In this position, the bottom is down, but the baby's knees are also bent, so the feet are also down near the buttocks. The presenting part is not only the bottom but both feet as well. At delivery, about 10% of breech babies are in a complete breech position.

Incomplete (footling) breech

A footling breech position is when the baby’s legs are extended and facing straight down. Instead of the bottom, the presenting part is one foot (a single footling) or both feet (a double footling). Approximately 25% of breech deliveries are incomplete.

As your pregnancy progresses, your prenatal health care provider will examine you and keep track of your baby’s position . You might even be able to figure out how your baby is positioned on your own.

Here are some of the techniques you and your health care provider can use to tell which way your baby is facing.

• Kicks : You can feel where your baby is kicking you and judge their general position. If you feel kicks in your lower pelvis, then the baby hasn’t turned head down yet. But if the kicks are up toward your ribs and the top of your uterus, then the baby’s head is most likely facing down.
• Palpation : At your prenatal visits, your doctor or midwife will check your baby's position by palpating or feeling your belly to find the baby’s head, back, and bottom.
• Heartbeat : Listening to the baby’s heartbeat is another way to tell where your baby is in the uterus. By finding the heartbeat's location, the doctor or midwife can get a better idea of the baby’s position.
• Ultrasound : An ultrasound provides the best position information. It shows you and your health care team a picture of the baby and their exact position in your uterus. If your baby is breech, the ultrasound can determine the type of breech position your baby is in, such as frank breech or complete breech.
• Pelvic exam : During labor, your health care provider can perform a pelvic examination . They will be able to feel whether the baby’s head or their bottom and feet are in the birth canal.

The size of the baby, amount of amniotic fluid , and amount of space inside the uterus are all factors that can contribute to a baby’s ability to move around.

The most common reason for a breech presentation is prematurity, but other factors could lead to a baby in a breech position:

• Premature delivery : A premature baby is smaller and has more room inside the uterus to move around, which increases the chances that they will be in a breech presentation if you go into preterm labor .
• Multiples : Twins or other multiples have less room in the uterus to move around and get into the head-down position for delivery.
• Uterine issues : Fibroids or a heart-shaped uterus can get in the way of the baby’s ability to turn.
• Shortened umbilical cord : If the umbilical cord is very short, the baby may not be able to move and turn.
• Too much or too little amniotic fluid : Too much amniotic fluid gives the baby the ability to move around freely in the uterus. As they grow, they may still be able to flip and turn rather than turning head down and staying head down. Too little amniotic fluid , on the other hand, may prevent a baby from moving into the head-down position as they get closer to full-term.
• Location of the placenta : When the placenta is low and covers all or part of the cervix, it’s called placenta previa . When the placenta is in this position, it takes up the room at the bottom of the uterus and can make it difficult for the baby to turn head down.
• Congenital abnormalities in the baby : Some congenital abnormalities can affect the baby’s ability to move into the head-down position. These conditions are usually not a surprise at delivery since they are typically seen during prenatal ultrasound examinations .

If your baby is breech, you will face four possible outcomes to your pregnancy:

• Your baby may turn on its own . Especially if it's early in your pregnancy, there is a chance your baby will turn from a breech position to a head-down position. Many prenatal health care providers will take a wait-and-see approach early on.
• Your doctor may attempt to manually turn your baby . If there are no complications in your pregnancy and the baby has not yet turned on its own by the 36th or 37th week, your doctor may attempt to turn the baby using a manual procedure called external cephalic version (ECV). ECV works approximately 60% of the time.
• Your doctor may schedule a C-section . For a baby that remains in a breech position in late pregnancy, most doctors will recommend a surgical birth via a C-section .
• Your doctor may agree to help you attempt a vaginal delivery . The majority of pregnancy care providers will not deliver a breech baby vaginally, but a small percentage of doctors may be willing to work with you having a vaginal delivery with a breech baby.

You can also do some things to encourage your baby to turn head down , such as acupuncture and exercises like pelvic tilts and even walking.

Most babies who are born breech are healthy. But when a baby is frank breech or in any other breech position, there is a higher chance of a complicated labor and delivery. Here are some of the complications associated with breech birth.

Umbilical cord prolapse

During a vaginal breech delivery, there is a chance that the umbilical cord will come down through the cervix before the baby is born. As the baby comes through the birth canal, their body and head can press on the cord and cut off the supply of blood and oxygen that the cord is carrying.

This can affect the baby’s heart rate and the flow of oxygen and blood to the baby’s brain. The danger of a prolapsed cord is greater with a footling breech and a complete breech.

The risk of cord prolapse is less when the baby is in the frank breech position.

Head entrapment

The baby’s head can get stuck during the delivery if the baby’s body is born before the cervix fully dilates. This situation is dangerous since the head can press against the umbilical cord and cause asphyxia or a lack of oxygen.

Head entrapment is more common in premature deliveries because the baby’s head is typically bigger than their body.

Physical injuries to the baby

The risk of injury to the baby during delivery is higher when the baby is breech compared to when the baby is not breech. Preemies are more likely to injure their head and skull. Bruising, broken bones, and dislocated joints can also occur depending on the baby's position during birth.

Additionally, after a baby is born, breech newborns have a higher incidence of neonatal hip instability, also called developmental dysplasia of the hip (DDH). This complication occurs in between 12% to 24% of breech babies.

Physical injury to the gestational parent

The vaginal delivery of a breech baby can require an episiotomy and the use of forceps, which can cause injury to the birthing person's genital area.

Many babies will turn to the head-down position before labor begins. However, if your baby is still breech when labor begins, you and your doctor will have to decide between having a C-section or trying a vaginal birth.

Whenever possible, the standard choice is to deliver any breech baby who is premature or in distress via cesarean section. Since vaginal deliveries, even when all the above criteria are met, come with a higher risk of a difficult birth and birth injuries, most doctors prefer to deliver all breech presentations by C-section.

However, when there are no other complications, a baby in the frank breech position may be delivered vaginally if the doctor agrees to it and certain conditions are met:

• Emergency resources are available
• The baby is at least 36 weeks
• The baby is not too big or too small
• The baby’s head is in the right position (flexed)
• The health care team has experience with breech deliveries
• The size of your pelvis is large enough
• There is continuous monitoring of the baby
• You have delivered vaginally before

If any complications arise during the delivery, you may still need an emergency C-section .

If Your Baby Is Breech . American College of Obstetricians and Gynecologists . 2024.

A comparison of risk factors for breech presentation in preterm and term labor: A nationwide, population-based case-control study . Arch Gynecol Obstet . 2020.

Breech presentation: Vaginal versus cesarean delivery, which intervention leads to the best outcomes? . Acta Med Port. 2017.

Breech presentation . Medscape . 2022.

Breech presentation: CNGOF Guidelines for Clinical Practice - Information and management . Gynecol Obstet Fertil Senol. 2020.

Mode of Term Singleton Breech Delivery . American College of Obstetricians and Gynecologists . 2023.

Umbilical Cord Prolapse . StatPearls . 2023.

Incidence of acetabular dysplasia in breech infants following initially normal ultrasound: the effect of variable diagnostic criteria . J Child Orthop . 2017.

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breech birth

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• MedlinePlus - Breech birth
• NHS Choices - Breech birth

breech birth , in childbirth , position of the fetus in which the buttocks or feet are presented first. About 3 to 4 percent of babies are in a breech presentation at the onset of labour . In nearly all other cases, babies born vaginally are born headfirst, since they are in a head-down position in the mother’s uterus .

Many babies are breech early in pregnancy, but most of them turn to the headfirst position near the end of the pregnancy. Babies who are born early are more likely to be breech. In the case of twins or triplets, the likelihood of a breech baby is increased. Abnormal levels of amniotic fluid around the baby may also result in a breech birth. As the due date approaches, a physician can determine if the fetus is breech by performing a physical exam, an ultrasound, or both.

There are many complications associated with a breech birth delivered vaginally, and, therefore, physicians typically suggest cesarean delivery (also known as a C-section). The risks involved with cesarean delivery include bleeding, infection, and a longer hospital stay for both the mother and her baby.

A baby who is breech may be very small or may have birth defects. Because the head is delivered last, breech babies are also susceptible to umbilical cord compression and asphyxiation . When the umbilical cord becomes compressed, there is diminished oxygen flow to the baby. In this situation the baby must be delivered immediately (usually by C-section) so that he or she can breathe. If there is a delay in delivery and oxygen deprivation is prolonged, the brain can be damaged, leaving the baby with permanent neurological damage or even causing death. In some cases, a breech birth may even cause the death of the mother or both mother and baby.

Some doctors give their patients exercises to do at home that may help turn the baby to the headfirst position. For women who prefer a normal vaginal delivery, the physician may use the external cephalic version to try to turn the baby from breech to vertex (head-down) position in the uterus. The physician will use his or her hands on the outside of the expecting mother’s abdomen to try to orient the baby so that the head is first to exit the vagina. External cephalic version is performed at the end of pregnancy, after about 37 weeks of gestation. The average success rate is about 65 percent. Even if the procedure works at first, there is still a chance that the baby will turn back around to the breech position.

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• Breech delivery
• 1 Background
• 2 Clinical Features
• 3.1 Emergent delivery and related complications
• 4 Evaluation
• 5 Management
• 6 Disposition
• 8 External Links
• 9 References

• 3-4% of term deliveries. [1] (Most common fetal malpresentation [2] )
• In breech delivery, body does not first maximally dilate cervix → higher risk of head entrapment, cord prolapse, and death.
• Breech presentations occur most commonly in preterm infants (25-30% of preterm deliveries <28 wks gestation).

Clinical Features

• Frank - Buttocks deliver first, hips flexed, knees extended (most common type)
• Complete - Buttocks deliver first, hips and knees flexed
• Incomplete - (aka "footling") One or both feet deliver first

Differential Diagnosis

Emergent delivery and related complications.

• Emergent delivery
• Umbilical cord prolapse
• Shoulder dystocia
• Perimortem cesarean delivery
• In ED precipitous delivery, this is a clinical diagnosis.
• If time allows, ultrasound can reveal position of fetus, but often not possible in ED deliveries.
• Zavanelli maneuver - pushing presenting fetal part back into vagina until C-Section can be performed [3] , though is associated with increased risk of soft tissue damage and sepsis [4]
• Place patient in lithotomy position
• Have assistant maintain fundal pressure throughout delivery
• Grab legs together with one hand if feet deliver spontaneously
• Head will need to be delivered with baby's face looking to mother's posterior
• If not sacral anterior, make it that way along delivery
• Place hand behind and parallel to fetal leg, then sweep laterally (away from midline) to deliver leg
• Repeat for opposite leg
• If around the neck, try to reduce it by pushing it over baby's head or just deliver baby through quickly
• If between the legs, this must be reduced around the foot as it will definitely avulse if delivery continues
• Allow delivery to proceed spontaneously until fetal umbilicus is at perineum
• Once torso begins to deliver, hold legs in one hand and hold bony pelvis with other (do not rupture spleen)
• Allow delivery to progress until axilla is visible
• If posterior arm and hand do not deliver spontaneously, grasp humerus and sweep downwards while still applying upward traction on fetal body.
• If anterior arm and hand do not deliver spontaneously, grasp humerus and sweet downwards over thorax while maintaining downward traction on fetal body.
• To deliver head, have assistant apply suprapubic pressure and rest fetal body on provider's forearm while reaching into vaginal canal to grasp fetal maxillae in order to flex head. (Mauriceau maneuver) - stabilize with other hand/forearm on fetal back and shoulders - avoid excessive angulation or traction of fetal body.
• Nitroglycerin (50 to 200 mcg IV) is an alternative.

Disposition

• Admit to L&D

External Links

• YouTube: Assisted Breech Delivery
• ↑ 1.0 1.1 1.2 Silver DW, Sabatino F. Precipitous and difficult deliveries. Emerg Med Clin North Am. 2012 Nov;30(4):961-75. doi: 10.1016/j.emc.2012.08.004.
• ↑ 2.0 2.1 Mercado J, Brea I, Mendez B, et al. Critical obstetric and gynecologic procedures in the emergency department. Emerg Med Clin North Am. 2013 Feb;31(1):207-36.
• ↑ Timothy F Kirn. To Handle Breech Births, Know Two Maneuvers. ACEP News May 2008. ACEP News Accessed 08/03/15.
• ↑ Gabbe, Steven G. Obstetrics : normal and problem pregnancies (6th ed.). Philadelphia: Elsevier/Saunders. p. 412
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Read common questions on the coronavirus and ACOG’s evidence-based answers.

If Your Baby Is Breech

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Frequently Asked Questions Expand All

In the last weeks of pregnancy, a fetus usually moves so his or her head is positioned to come out of the vagina first during birth. This is called a vertex presentation . A breech presentation occurs when the fetus’s buttocks, feet, or both are in place to come out first during birth. This happens in 3–4% of full-term births.

It is not always known why a fetus is breech. Some factors that may contribute to a fetus being in a breech presentation include the following:

You have been pregnant before.

There is more than one fetus in the uterus (twins or more).

There is too much or too little amniotic fluid .

The uterus is not normal in shape or has abnormal growths such as fibroids .

The placenta covers all or part of the opening of the uterus ( placenta previa )

The fetus is preterm .

Occasionally fetuses with certain birth defects will not turn into the head-down position before birth. However, most fetuses in a breech presentation are otherwise normal.

Your health care professional may be able to tell which way your fetus is facing by placing his or her hands at certain points on your abdomen. By feeling where the fetus's head, back, and buttocks are, it may be possible to find out what part of the fetus is presenting first. An ultrasound exam or pelvic exam may be used to confirm it.

External cephalic version (ECV) is an attempt to turn the fetus so that he or she is head down. ECV can improve your chance of having a vaginal birth. If the fetus is breech and your pregnancy is greater than 36 weeks your health care professional may suggest ECV.

ECV will not be tried if:

You are carrying more than one fetus

There are concerns about the health of the fetus

You have certain abnormalities of the reproductive system

The placenta is in the wrong place

The placenta has come away from the wall of the uterus ( placental abruption )

ECV can be considered if you have had a previous cesarean delivery .

The health care professional performs ECV by placing his or her hands on your abdomen. Firm pressure is applied to the abdomen so that the fetus rolls into a head-down position. Two people may be needed to perform ECV. Ultrasound also may be used to help guide the turning.

The fetus's heart rate is checked with fetal monitoring before and after ECV. If any problems arise with you or the fetus, ECV will be stopped right away. ECV usually is done near a delivery room. If a problem occurs, a cesarean delivery can be performed quickly, if necessary.

Complications may include the following:

Prelabor rupture of membranes

Changes in the fetus's heart rate

Placental abruption

Preterm labor

More than one half of attempts at ECV succeed. However, some fetuses who are successfully turned with ECV move back into a breech presentation. If this happens, ECV may be tried again. ECV tends to be harder to do as the time for birth gets closer. As the fetus grows bigger, there is less room for him or her to move.

Most fetuses that are breech are born by planned cesarean delivery. A planned vaginal birth of a single breech fetus may be considered in some situations. Both vaginal birth and cesarean birth carry certain risks when a fetus is breech. However, the risk of complications is higher with a planned vaginal delivery than with a planned cesarean delivery.

In a breech presentation, the body comes out first, leaving the baby’s head to be delivered last. The baby’s body may not stretch the cervix enough to allow room for the baby’s head to come out easily. There is a risk that the baby’s head or shoulders may become wedged against the bones of the mother’s pelvis. Another problem that can happen during a vaginal breech birth is a prolapsed umbilical cord . It can slip into the vagina before the baby is delivered. If there is pressure put on the cord or it becomes pinched, it can decrease the flow of blood and oxygen through the cord to the baby.

Although a planned cesarean birth is the most common way that breech fetuses are born, there may be reasons to try to avoid a cesarean birth.

A cesarean delivery is major surgery. Complications may include infection, bleeding, or injury to internal organs.

The type of anesthesia used sometimes causes problems.

Having a cesarean delivery also can lead to serious problems in future pregnancies, such as rupture of the uterus and complications with the placenta.

With each cesarean delivery, these risks increase.

If you are thinking about having a vaginal birth and your fetus is breech, your health care professional will review the risks and benefits of vaginal birth and cesarean birth in detail. You usually need to meet certain guidelines specific to your hospital. The experience of your health care professional in delivering breech babies vaginally also is an important factor.

Amniotic Fluid : Fluid in the sac that holds the fetus.

Anesthesia : Relief of pain by loss of sensation.

Breech Presentation : A position in which the feet or buttocks of the fetus would appear first during birth.

Cervix : The lower, narrow end of the uterus at the top of the vagina.

Cesarean Delivery : Delivery of a fetus from the uterus through an incision made in the woman’s abdomen.

External Cephalic Version (ECV) : A technique, performed late in pregnancy, in which the doctor attempts to manually move a breech baby into the head-down position.

Fetus : The stage of human development beyond 8 completed weeks after fertilization.

Fibroids : Growths that form in the muscle of the uterus. Fibroids usually are noncancerous.

Oxygen : An element that we breathe in to sustain life.

Pelvic Exam : A physical examination of a woman’s pelvic organs.

Placenta : Tissue that provides nourishment to and takes waste away from the fetus.

Placenta Previa : A condition in which the placenta covers the opening of the uterus.

Placental Abruption : A condition in which the placenta has begun to separate from the uterus before the fetus is born.

Prelabor Rupture of Membranes : Rupture of the amniotic membranes that happens before labor begins. Also called premature rupture of membranes (PROM).

Preterm : Less than 37 weeks of pregnancy.

Ultrasound Exam : A test in which sound waves are used to examine inner parts of the body. During pregnancy, ultrasound can be used to check the fetus.

Umbilical Cord : A cord-like structure containing blood vessels. It connects the fetus to the placenta.

Uterus : A muscular organ in the female pelvis. During pregnancy, this organ holds and nourishes the fetus.

Vagina : A tube-like structure surrounded by muscles. The vagina leads from the uterus to the outside of the body.

Vertex Presentation : A presentation of the fetus where the head is positioned down.

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Published: January 2019

Last reviewed: August 2022

Copyright 2024 by the American College of Obstetricians and Gynecologists. All rights reserved. Read copyright and permissions information . This information is designed as an educational aid for the public. It offers current information and opinions related to women's health. It is not intended as a statement of the standard of care. It does not explain all of the proper treatments or methods of care. It is not a substitute for the advice of a physician. Read ACOG’s complete disclaimer .

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Breech presentation

• Overview  
• Theory  
• Diagnosis  
• Management  
• Follow up  
• Resources  

Breech presentation refers to the baby presenting for delivery with the buttocks or feet first rather than head.

Associated with increased morbidity and mortality for the mother in terms of emergency caesarean section and placenta praevia; and for the baby in terms of preterm birth, small fetal size, congenital anomalies, and perinatal mortality.

Incidence decreases as pregnancy progresses and by term occurs in 3% to 4% of singleton term pregnancies.

Treatment options include external cephalic version to increase the likelihood of vaginal birth or a planned caesarean section, the optimal gestation being 37 and 39 weeks, respectively.

Planned caesarean section is considered the safest form of delivery for infants with a persisting breech presentation at term.

Breech presentation in pregnancy occurs when a baby presents with the buttocks or feet rather than the head first (cephalic presentation) and is associated with increased morbidity and mortality for both the mother and the baby. [1] Cunningham F, Gant N, Leveno K, et al. Williams obstetrics. 21st ed. New York: McGraw-Hill; 1997. [2] Kish K, Collea JV. Malpresentation and cord prolapse. In: DeCherney AH, Nathan L, eds. Current obstetric and gynecologic diagnosis and treatment. New York: McGraw-Hill Professional; 2002. There is good current evidence regarding effective management of breech presentation in late pregnancy using external cephalic version and/or planned caesarean section.

History and exam

Key diagnostic factors.

• presence of risk factors
• buttocks or feet as the presenting part
• fetal head under costal margin
• fetal heartbeat above the maternal umbilicus

Other diagnostic factors

• subcostal tenderness
• pelvic or bladder pain

Risk factors

• premature fetus
• small for gestational age fetus
• nulliparity
• fetal congenital anomalies
• previous breech delivery
• uterine abnormalities
• abnormal amniotic fluid volume
• placental abnormalities
• female fetus

Diagnostic investigations

1st investigations to order.

• transabdominal/transvaginal ultrasound

Treatment algorithm

<37 weeks' gestation and in labour, ≥37 weeks' gestation not in labour, ≥37 weeks' gestation in labour: no imminent delivery, ≥37 weeks' gestation in labour: imminent delivery, contributors, natasha nassar, phd.

Associate Professor

Menzies Centre for Health Policy

Sydney School of Public Health

University of Sydney

Disclosures

NN has received salary support from Australian National Health and a Medical Research Council Career Development Fellowship; she is an author of a number of references cited in this topic.

Christine L. Roberts, MBBS, FAFPHM, DrPH

Research Director

Clinical and Population Health Division

Perinatal Medicine Group

Kolling Institute of Medical Research

CLR declares that she has no competing interests.

Jonathan Morris, MBChB, FRANZCOG, PhD

Professor of Obstetrics and Gynaecology and Head of Department

JM declares that he has no competing interests.

Peer reviewers

John w. bachman, md.

Consultant in Family Medicine

Department of Family Medicine

Mayo Clinic

JWB declares that he has no competing interests.

Rhona Hughes, MBChB

Lead Obstetrician

Lothian Simpson Centre for Reproductive Health

The Royal Infirmary

RH declares that she has no competing interests.

Brian Peat, MD

Director of Obstetrics

Women's and Children's Hospital

North Adelaide

South Australia

BP declares that he has no competing interests.

Lelia Duley, MBChB

Professor of Obstetric Epidemiology

University of Leeds

Bradford Institute of Health Research

Temple Bank House

Bradford Royal Infirmary

LD declares that she has no competing interests.

Justus Hofmeyr, MD

Head of the Department of Obstetrics and Gynaecology

East London Private Hospital

East London

South Africa

JH is an author of a number of references cited in this topic.

Differentials

• Transverse lie
• Caesarean birth
• Mode of term singleton breech delivery

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Breech presentation

Highlights & basics.

• Diagnostic Approach
• Risk Factors

History & Exam

• Differential Diagnosis
• Tx Approach
• Emerging Tx
• Complications

PATIENT RESOURCES

• Patient Instructions

Breech presentation refers to the baby presenting for delivery with the buttocks or feet first rather than head.

Associated with increased morbidity and mortality for the mother in terms of emergency cesarean section and placenta previa; and for the baby in terms of preterm birth, small fetal size, congenital anomalies, and perinatal mortality.

Incidence decreases as pregnancy progresses and by term occurs in 3% to 4% of singleton term pregnancies.

Treatment options include external cephalic version to increase the likelihood of vaginal birth or a planned cesarean section, the optimal gestation being 37 and 39 weeks, respectively.

Planned cesarean section is considered the safest form of delivery for infants with a persisting breech presentation at term.

Quick Reference

Key Factors

Other Factors

Diagnostics Tests

Treatment Options

Epidemiology

Pathophysiology.

Key Articles

Impey LWM, Murphy DJ, Griffiths M, et al; Royal College of Obstetricians and Gynaecologists. Management of breech presentation: green-top guideline no. 20b. BJOG. 2017 Jun;124(7):e151-77. [Full Text]

Hofmeyr GJ, Hannah M, Lawrie TA. Planned caesarean section for term breech delivery. Cochrane Database Syst Rev. 2015 Jul 21;(7):CD000166. [Abstract] [Full Text]

Royal College of Obstetricians and Gynaecologists. External cephalic version and reducing the incidence of term breech presentation. Mar 2017 [internet publication]. [Full Text]

Cluver C, Gyte GM, Sinclair M, et al. Interventions for helping to turn term breech babies to head first presentation when using external cephalic version. Cochrane Database Syst Rev. 2015 Feb 9;(2):CD000184. [Abstract] [Full Text]

de Hundt M, Velzel J, de Groot CJ, et al. Mode of delivery after successful external cephalic version: a systematic review and meta-analysis. Obstet Gynecol. 2014 Jun;123(6):1327-34. [Abstract]

Referenced Articles

1. Cunningham F, Gant N, Leveno K, et al. Williams obstetrics. 21st ed. New York: McGraw-Hill; 1997.

2. Kish K, Collea JV. Malpresentation and cord prolapse. In: DeCherney AH, Nathan L, eds. Current obstetric and gynecologic diagnosis and treatment. New York: McGraw-Hill Professional; 2002.

3. Scheer K, Nubar J. Variation of fetal presentation with gestational age. Am J Obstet Gynecol. 1976 May 15;125(2):269-70. [Abstract]

4. Nassar N, Roberts CL, Cameron CA, et al. Diagnostic accuracy of clinical examination for detection of non-cephalic presentation in late pregnancy: cross sectional analytic study. BMJ. 2006 Sep 16;333(7568):578-80. [Abstract] [Full Text]

5. Roberts CL, Peat B, Algert CS, et al. Term breech birth in New South Wales, 1990-1997. Aust N Z J Obstet Gynaecol. 2000 Feb;40(1):23-9. [Abstract]

6. Roberts CL, Algert CS, Peat B, et al. Small fetal size: a risk factor for breech birth at term. Int J Gynaecol Obstet. 1999 Oct;67(1):1-8. [Abstract]

7. Brar HS, Platt LD, DeVore GR, et al. Fetal umbilical velocimetry for the surveillance of pregnancies complicated by placenta previa. J Reprod Med. 1988 Sep;33(9):741-4. [Abstract]

8. Kian L. The role of the placental site in the aetiology of breech presentation. J Obstet Gynaecol Br Commonw. 1963 Oct;70:795-7. [Abstract]

9. Rayl J, Gibson PJ, Hickok DE. A population-based case-control study of risk factors for breech presentation. Am J Obstet Gynecol. 1996 Jan;174(1 Pt 1):28-32. [Abstract]

10. Westgren M, Edvall H, Nordstrom L, et al. Spontaneous cephalic version of breech presentation in the last trimester. Br J Obstet Gynaecol. 1985 Jan;92(1):19-22. [Abstract]

11. Brenner WE, Bruce RD, Hendricks CH. The characteristics and perils of breech presentation. Am J Obstet Gynecol. 1974 Mar 1;118(5):700-12. [Abstract]

12. Hall JE, Kohl S. Breech presentation. Am J Obstet Gynecol. 1956 Nov;72(5):977-90. [Abstract]

13. Morgan HS, Kane SH. An analysis of 16,327 breech births. JAMA. 1964 Jan 25;187:262-4. [Abstract]

14. Luterkort M, Persson P, Weldner B. Maternal and fetal factors in breech presentation. Obstet Gynecol. 1984 Jul;64(1):55-9. [Abstract]

15. Braun FH, Jones KL, Smith DW. Breech presentation as an indicator of fetal abnormality. J Pediatr. 1975 Mar;86(3):419-21. [Abstract]

16. Albrechtsen S, Rasmussen S, Dalaker K, et al. Reproductive career after breech presentation: subsequent pregnancy rates, interpregnancy interval, and recurrence. Obstet Gynecol. 1998 Sep;92(3):345-50. [Abstract]

17. Zlopasa G, Skrablin S, Kalafatić D, et al. Uterine anomalies and pregnancy outcome following resectoscope metroplasty. Int J Gynaecol Obstet. 2007 Aug;98(2):129-33. [Abstract]

18. Acién P. Breech presentation in Spain, 1992: a collaborative study. Eur J Obstet Gynecol Reprod Biol. 1995 Sep;62(1):19-24. [Abstract]

19. Michalas SP. Outcome of pregnancy in women with uterine malformation: evaluation of 62 cases. Int J Gynaecol Obstet. 1991 Jul;35(3):215-9. [Abstract]

20. Fianu S, Vaclavinkova V. The site of placental attachment as a factor in the aetiology of breech presentation. Acta Obstet Gynecol Scand. 1978;57(4):371-2. [Abstract]

21. Haruyama Y. Placental implantation as the cause of breech presentation [in Japanese]. Nihon Sanka Fujinka Gakkai Zasshi. 1987 Jan;39(1):92-8. [Abstract]

22. Filipov E, Borisov I, Kolarov G. Placental location and its influence on the position of the fetus in the uterus [in Bulgarian]. Akush Ginekol (Sofiia). 2000;40(4):11-2. [Abstract]

23. Waterstone M, Bewley S, Wolfe C. Incidence and predictors of severe obstetric morbidity: case-control study. BMJ. 2001 May 5;322(7294):1089-93. [Abstract] [Full Text]

24. Beischer NA, Mackay EV, Colditz P, eds. Obstetrics and the newborn: an illustrated textbook. 3rd ed. London: W.B. Saunders; 1997.

25. Impey LWM, Murphy DJ, Griffiths M, et al; Royal College of Obstetricians and Gynaecologists. Management of breech presentation: green-top guideline no. 20b. BJOG. 2017 Jun;124(7):e151-77. [Full Text]

26. Royal College of Obstetricians and Gynaecologists. Antepartum haemorrhage: green-top guideline no. 63. November 2011 [internet publication]. [Full Text]

27. American College of Obstetricians and Gynecologists. Practice bulletin no. 175: ultrasound in pregnancy. Obstet Gynecol. 2016 Dec;128(6):e241-56. [Abstract]

28. Enkin M, Keirse MJNC, Neilson J, et al. Guide to effective care in pregnancy and childbirth. 3rd ed. Oxford: Oxford University Press; 2000.

29. Hofmeyr GJ, Kulier R, West HM. External cephalic version for breech presentation at term. Cochrane Database Syst Rev. 2012 Oct 17;(10):CD000083. [Abstract] [Full Text]

30. Hofmeyr GJ, Hannah M, Lawrie TA. Planned caesarean section for term breech delivery. Cochrane Database Syst Rev. 2015 Jul 21;(7):CD000166. [Abstract] [Full Text]

31. Royal College of Obstetricians and Gynaecologists. External cephalic version and reducing the incidence of term breech presentation. Mar 2017 [internet publication]. [Full Text]

32. Rosman AN, Guijt A, Vlemmix F, et al. Contraindications for external cephalic version in breech position at term: a systematic review. Acta Obstet Gynecol Scand. 2013 Feb;92(2):137-42. [Abstract]

33. ​American College of Obstetricians and Gynecologists. Practice bulletin no. 221: external cephalic version. May 2020 [internet publication]. [Full Text]

34. Bogner G, Xu F, Simbrunner C, et al. Single-institute experience, management, success rate, and outcome after external cephalic version at term. Int J Gynaecol Obstet. 2012 Feb;116(2):134-7. [Abstract]

35. Hofmeyr GJ. Effect of external cephalic version in late pregnancy on breech presentation and caesarean section rate: a controlled trial. Br J Obstet Gynaecol. 1983 May;90(5):392-9. [Abstract]

36. Beuckens A, Rijnders M, Verburgt-Doeleman GH, et al. An observational study of the success and complications of 2546 external cephalic versions in low-risk pregnant women performed by trained midwives. BJOG. 2016 Feb;123(3):415-23. [Abstract]

37. Nassar N, Roberts CL, Barratt A, et al. Systematic review of adverse outcomes of external cephalic version and persisting breech presentation at term. Paediatr Perinat Epidemiol. 2006 Mar;20(2):163-71. [Abstract]

38. Sela HY, Fiegenberg T, Ben-Meir A, et al. Safety and efficacy of external cephalic version for women with a previous cesarean delivery. Eur J Obstet Gynecol Reprod Biol. 2009 Feb;142(2):111-4. [Abstract]

39. Pichon M, Guittier MJ, Irion O, et al. External cephalic version in case of persisting breech presentation at term: motivations and women's experience of the intervention [in French]. Gynecol Obstet Fertil. 2013 Jul-Aug;41(7-8):427-32. [Abstract]

40. Nassar N, Roberts CL, Raynes-Greenow CH, et al. Evaluation of a decision aid for women with breech presentation at term: a randomised controlled trial [ISRCTN14570598]. BJOG. 2007 Mar;114(3):325-33. [Abstract] [Full Text]

41. Cluver C, Gyte GM, Sinclair M, et al. Interventions for helping to turn term breech babies to head first presentation when using external cephalic version. Cochrane Database Syst Rev. 2015 Feb 9;(2):CD000184. [Abstract] [Full Text]

42. US Food & Drug Administration. FDA Drug Safety Communication: new warnings against use of terbutaline to treat preterm labor. Feb 2011 [internet publication]. [Full Text]

43. European Medicines Agency. Restrictions on use of short-acting beta-agonists in obstetric indications - CMDh endorses PRAC recommendations. October 2013 [internet publication]. [Full Text]

44. Magro-Malosso ER, Saccone G, Di Tommaso M, et al. Neuraxial analgesia to increase the success rate of external cephalic version: a systematic review and meta-analysis of randomized controlled trials. Am J Obstet Gynecol. 2016 Sep;215(3):276-86. [Abstract]

45. de Hundt M, Velzel J, de Groot CJ, et al. Mode of delivery after successful external cephalic version: a systematic review and meta-analysis. Obstet Gynecol. 2014 Jun;123(6):1327-34. [Abstract]

46. American College of Obstetricians and Gynecologists. Committee opinion no. 745: mode of term singleton breech delivery. Aug 2018 (reaffirmed 2023) [internet publication].​ [Full Text]

47. Berhan Y, Haileamlak A. The risks of planned vaginal breech delivery versus planned caesarean section for term breech birth: a meta-analysis including observational studies. BJOG. 2016 Jan;123(1):49-57. [Abstract] [Full Text]

48. Lydon-Rochelle M, Holt VL, Martin DP, et al. Association between method of delivery and maternal rehospitalisation. JAMA. 2000 May 10;283(18):2411-6. [Abstract]

49. Yokoe DS, Christiansen CL, Johnson R, et al. Epidemiology of and surveillance for postpartum infections. Emerg Infect Dis. 2001 Sep-Oct;7(5):837-41. [Abstract]

50. van Ham MA, van Dongen PW, Mulder J. Maternal consequences of caesarean section. A retrospective study of intra-operative and postoperative maternal complications of caesarean section during a 10-year period. Eur J Obstet Gynecol Reprod Biol. 1997 Jul;74(1):1-6. [Abstract]

51. Murphy DJ, Liebling RE, Verity L, et al. Early maternal and neonatal morbidity associated with operative delivery in second stage of labour: a cohort study. Lancet. 2001 Oct 13;358(9289):1203-7. [Abstract]

52. Lydon-Rochelle MT, Holt VL, Martin DP. Delivery method and self-reported postpartum general health status among primiparous women. Paediatr Perinat Epidemiol. 2001 Jul;15(3):232-40. [Abstract]

53. Wilson PD, Herbison RM, Herbison GP. Obstetric practice and the prevalence of urinary incontinence three months after delivery. Br J Obstet Gynaecol. 1996 Feb;103(2):154-61. [Abstract]

54. Persson J, Wolner-Hanssen P, Rydhstroem H. Obstetric risk factors for stress urinary incontinence: a population-based study. Obstet Gynecol. 2000 Sep;96(3):440-5. [Abstract]

55. MacLennan AH, Taylor AW, Wilson DH, et al. The prevalence of pelvic disorders and their relationship to gender, age, parity and mode of delivery. BJOG. 2000 Dec;107(12):1460-70. [Abstract]

56. Thompson JF, Roberts CL, Currie M, et al. Prevalence and persistence of health problems after childbirth: associations with parity and method of birth. Birth. 2002 Jun;29(2):83-94. [Abstract]

57. Australian Institute of Health and Welfare. Australia's mothers and babies 2015 - in brief. October 2017 [internet publication]. [Full Text]

58. Mutryn CS. Psychosocial impact of cesarean section on the family: a literature review. Soc Sci Med. 1993 Nov;37(10):1271-81. [Abstract]

59. DiMatteo MR, Morton SC, Lepper HS, et al. Cesarean childbirth and psychosocial outcomes: a meta-analysis. Health Psychol. 1996 Jul;15(4):303-14. [Abstract]

60. Greene R, Gardeit F, Turner MJ. Long-term implications of cesarean section. Am J Obstet Gynecol. 1997 Jan;176(1 Pt 1):254-5. [Abstract]

61. Coughlan C, Kearney R, Turner MJ. What are the implications for the next delivery in primigravidae who have an elective caesarean section for breech presentation? BJOG. 2002 Jun;109(6):624-6. [Abstract]

62. Hemminki E, Merilainen J. Long-term effects of cesarean sections: ectopic pregnancies and placental problems. Am J Obstet Gynecol. 1996 May;174(5):1569-74. [Abstract]

63. Gilliam M, Rosenberg D, Davis F. The likelihood of placenta previa with greater number of cesarean deliveries and higher parity. Obstet Gynecol. 2002 Jun;99(6):976-80. [Abstract]

64. Morrison JJ, Rennie JM, Milton PJ. Neonatal respiratory morbidity and mode of delivery at term: influence of timing of elective caesarean section. Br J Obstet Gynaecol. 1995 Feb;102(2):101-6. [Abstract]

65. Annibale DJ, Hulsey TC, Wagner CL, et al. Comparative neonatal morbidity of abdominal and vaginal deliveries after uncomplicated pregnancies. Arch Pediatr Adolesc Med. 1995 Aug;149(8):862-7. [Abstract]

66. Hook B, Kiwi R, Amini SB, et al. Neonatal morbidity after elective repeat cesarean section and trial of labor. Pediatrics. 1997 Sep;100(3 Pt 1):348-53. [Abstract]

67. Stock SJ, Thomson AJ, Papworth S, et al. Antenatal corticosteroids to reduce neonatal morbidity and mortality: Green-top Guideline No. 74. BJOG. 2022 Jul;129(8):e35-60. [Abstract] [Full Text]

68. American College of Obstetricians and Gynaecologists. Committee opinion no. 713: antenatal corticosteroid therapy for fetal maturation. Aug 2017 (reaffirmed 2024) [internet publication]. [Full Text]

69. Nassar N, Roberts CL, Cameron CA, et al. Outcomes of external cephalic version and breech presentation at term: an audit of deliveries at a Sydney tertiary obstetric hospital, 1997-2004. Acta Obstet Gynecol Scand. 2006;85(10):1231-8. [Abstract]

70. Nwosu EC, Walkinshaw S, Chia P, et al. Undiagnosed breech. Br J Obstet Gynaecol. 1993 Jun;100(6):531-5. [Abstract]

71. Flamm BL, Ruffini RM. Undetected breech presentation: impact on external version and cesarean rates. Am J Perinatol. 1998 May;15(5):287-9. [Abstract]

72. Cockburn J, Foong C, Cockburn P. Undiagnosed breech. Br J Obstet Gynaecol. 1994 Jul;101(7):648-9. [Abstract]

73. Leung WC, Pun TC, Wong WM. Undiagnosed breech revisited. Br J Obstet Gynaecol. 1999 Jul;106(7):638-41. [Abstract]

74. Wilcox C, Nassar N, Roberts C. Effectiveness of nifedipine tocolysis to facilitate external cephalic version: a systematic review. BJOG. 2011 Mar;118(4):423-8. [Abstract]

75. Qureshi H, Massey E, Kirwan D, et al. BCSH guideline for the use of anti-D immunoglobulin for the prevention of haemolytic disease of the fetus and newborn. Transfus Med. 2014 Feb;24(1):8-20. [Abstract] [Full Text]

76. Hutton EK, Hofmeyr GJ, Dowswell T. External cephalic version for breech presentation before term. Cochrane Database Syst Rev. 2015 Jul 29;(7):CD000084. [Abstract] [Full Text]

77. Coyle ME, Smith CA, Peat B. Cephalic version by moxibustion for breech presentation. Cochrane Database Syst Rev. 2012 May 16;(5):CD003928. [Abstract] [Full Text]

78. Hofmeyr GJ, Kulier R. Cephalic version by postural management for breech presentation. Cochrane Database Syst Rev. 2012 Oct 17;(10):CD000051. [Abstract] [Full Text]

79. National Institute for Health and Care Excellence. Caesarean birth. Jan 2024 [internet publication]. [Full Text]

80. Hannah ME, Whyte H, Hannah WJ, et al. Maternal outcomes at 2 years after planned cesarean section versus planned vaginal birth for breech presentation at term: the International Randomized Term Breech Trial. Am J Obstet Gynecol. 2004 Sep;191(3):917-27. [Abstract]

81. Eide MG, Oyen N, Skjaerven R, et al. Breech delivery and Intelligence: a population-based study of 8,738 breech infants. Obstet Gynecol. 2005 Jan;105(1):4-11. [Abstract]

82. Whyte H, Hannah ME, Saigal S, et al. Outcomes of children at 2 years after planned cesarean birth versus planned vaginal birth for breech presentation at term: the International Randomized Term Breech Trial. Am J Obstet Gynecol. 2004 Sep;191(3):864-71. [Abstract]

83. Brown S, Lumley J. Maternal health after childbirth: results of an Australian population based survey. Br J Obstet Gynaecol. 1998 Feb;105(2):156-61. [Abstract]

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