Breech birth

For other uses, see Breech (disambiguation).
Breech birth

Frank breech, William Smellie, 1792
Classification and external resources
Specialty Obstetrics, Midwifery
ICD-10 O32.1, O64.1, O80.1, O83.0, P03.0
ICD-9-CM 652.1
DiseasesDB 1631
MedlinePlus 002060
eMedicine med/3272 emerg/868
MeSH D001946

A breech birth is the birth of a baby from a breech presentation, in which the baby exits the pelvis with the buttocks or feet first as opposed to the normal head-first presentation. In breech presentation, fetal heart sounds are heard just above the umbilicus.

The bottom-down position presents some hazards to the baby during the process of birth, and the mode of delivery (vaginal versus Caesarean) is controversial in the fields of obstetrics and midwifery.

Though vaginal birth is possible for the breech baby, certain fetal and maternal factors influence the safety of vaginal breech birth. The majority of breech babies born in the United States are delivered by Caesarean section as studies have shown increased risks of morbidity and mortality for vaginal breech delivery, and most hospital policies do not permit vaginal breech birth for this reason. As a result of reduced numbers of vaginal breech deliveries, most obstetricians do not receive training in the skill set required for safe vaginal breech delivery anymore.

Cause

With regard to the fetal presentation during human gestation, three periods have been distinguished.

During the first period, which lasts until the 24th gestational week, the incidence of a longitudinal lie increases, with equal proportions of breech or cephalic presentations from this lie. This period is characterized by frequent changes of presentations. The fetuses in breech presentation during this period have the same probability for breech and cephalic presentation at delivery.

During the second period, lasting from the 25th to the 35th gestational week, the incidence of cephalic presentation increases, with a proportional decrease of breech presentation. The second period is characterized by a higher than random probability that the fetal presentation during this period will also be present at the time of delivery. The increase of this probability is gradual and identical for breech and cephalic presentations during this period.

In the third period, from the 36th gestational week onward, the incidence of cephalic and breech presentations remain stable, i.e. breech presentation around 3-4% and cephalic presentation approximately 95%. In the general population, incidence of breech presentation at preterm corresponds to the incidence of breech presentation when birth occurs.[1][2][3][4][5][6][7]

A breech presentation at delivery occurs when the fetus does not turn to a cephalic presentation. This failure to change presentation can result from endogenous and exogenous factors. Endogenous factors involve fetal inability to adequately move, whereas exogenous factors refer to insufficient intrauterine space available for fetal movements.[8]

Incidence of breech presentation among diseases and medical conditions with the incidence of breech presentation higher than occurs in the general population, shows that the probability of breech presentation is between 4% and 50%. These data are related to: 1. single series of medical entities; 2. collections of series for some particular medical entity; 3. data obtained from repeated observations under the same conditions; 4. series of two concomitant medical conditions.

Incidence of breech presentation at delivery in various medical conditions and diseases:

Fetal entities: First twin 17-30%; Second twin 28-39%; Stillborn 26%; Prader-Willi syndrome 50%, Werdnig-Hoffman syndrome 10%; Smith-Lemli-Opitz syndrome 40%; Fetal alcohol syndrome 40%; Potter anomaly 36%; Zellweger syndrome 27%; Myotonic dystrophy 21%, 13 trisomy syndrome 12%; 18 trisomy syndrome 43%; 21 trisomy syndrome 5%; de Lange syndrome 10%; Anencephalus 6-18%, Spina bifida 20-30%; Congenital Hydrocephalus 24-37%; Osteogenesis imperfecta 33.3%; Amyoplasia 33.3%; Achondrogenesis 33.3%; Amelia 50%; Craniosynostosis 8%; Sacral agenesis 30.4%; Arthrogriposis multiplex congenita 33.3; Congenital dislocation of the hip 33.3%; Hereditary sensory neuropathy type III 25%; Centronuclear myoptathy 16.7%; Multiple pituitary hormone deficiency 50%; Isolated pituitary hormone deficiency 20%; Ectopic posterior pituitary gland 33.3%; Congenital bilateral perisilvian syndrome 33.3; Symmetric fetal growth restriction 40%; Asymmetric fetal growth restriction 40%; Nonimmune hydrops fetalis 15%; Atresio ani 18.2%; Microcephalus 15.4%; Omphalocele 12.5%; Prematurity 40%

Placental and amniotic fluid entities: Amniotic sheet perpendicular to the placenta 50%; Cornual-fundal implantation of the placenta 30%; Placenta previa 12.5%; Oligohydramnios 17%; Polyhydramnios 15.8%; MATERNAL ENTITIES: Uterus arcuatus 22.6%; Uterus unicornuatus 33.3%; Uterus bicornuatus 34.8%; Uterus didelphys 30-41%; Uterus septus 45.8%; Leimyoma uteri 9-20%; Spinal cord injury 10%; Carriers of Duchenne muscular dystrophy 17%

Combination of two medical entities: First twin in uterus with two bodies 14.29%; Second twin in uterus with two bodies 18.52%.[9][10]

Also, women with previous Caesarean deliveries have a risk of breech presentation at term twice that of women with previous vaginal deliveries.[11]

The highest possible probability of breech presentation of 50% indicates that breech presentation is a consequence of random filling of the intrauterine space, with the same probability of breech and cephalic presentation in a longitudinally elongated uterus.[12]

Types

There are either three or four main categories of breech births, depending upon the source:

In addition to the above, breech births in which the sacrum is the fetal denominator can be classified by the position of a fetus. Thus sacro-anterior, sacro-transverse and sacro-posterior positions all exist, but left sacro-anterior is the commonest presentation. Sacro-anterior indicates an easier delivery compared to other forms.

Risks

Umbilical cord prolapse may occur, particularly in the complete, footling, or kneeling breech. This is caused by the lowermost parts of the baby not completely filling the space of the dilated cervix. When the waters break the amniotic sac, it is possible for the umbilical cord to drop down and become compressed. This complication severely diminishes oxygen flow to the baby and the baby must be delivered immediately (usually by Caesarean section) so that he or she can breathe. If there is a delay in delivery, the brain can be damaged. Among full-term, head-down babies, cord prolapse is quite rare, occurring in 0.4 percent. Among frank breech babies the incidence is 0.5 percent, among complete breeches 4 to 6 percent, and among footling breeches 15 to 18 percent.

Head entrapment is caused by the failure of the fetal head to negotiate the maternal midpelvis. At full term, the fetal bitrochanteric diameter (the distance between the outer points of the hips) is about the same as the biparietal diameter (the transverse diameter of the skull)—simply put the size of the hips are the same as the size of the head. The relatively larger buttocks dilate the cervix as effectively as the head does in the typical head-down presentation. In contrast, the relative head size of a preterm baby is greater than the fetal buttocks. If the baby is preterm, it may be possible for the baby’s body to emerge while the cervix has not dilated enough for the head to emerge.

Because the umbilical cord—the baby’s oxygen supply—is significantly compressed while the head is in the pelvis during a breech birth, it is important that the delivery of the aftercoming fetal head not be delayed. The head only just fits through the pelvis, and if the arm is extended alongside the head, delivery will not occur. If this occurs, the Løvset manoeuvre may be employed, or the arm may be manually brought to a position in front of the chest. The Løvset manoeuvre involves rotating the fetal body by holding the fetal pelvis. Twisting the body such that an arm trails behind the shoulder, it will tend to cross down over the face to a position where it can be reached by the obstetrician's finger, and brought to a position below the head. A similar rotation in the opposite direction is made to deliver the other arm. In order to present the smallest diameter (9.5 cm) to the pelvis, the baby’s head must be flexed (chin to chest). If the head is in a deflexed position, the risk of entrapment is increased. Uterine contractions and maternal muscle tone encourage the head to flex. If the birth attendant pulls on the baby’s body, this action may deflex the head.

Oxygen deprivation may occur from either cord prolapse or prolonged compression of the cord during birth, as in head entrapment. If oxygen deprivation is prolonged, it may cause permanent neurological damage (for instance, cerebral palsy) or death.

Injury to the brain and skull may occur due to the rapid passage of the baby's head through the mother's pelvis. This causes rapid decompression of the baby's head. In contrast, a baby going through labor in the head-down position usually experiences gradual molding (temporary reshaping of the skull) over the course of a few hours. This sudden compression and decompression in breech birth may cause no problems at all, but it can injure the brain. This injury is more likely in preterm babies. The fetal head may be controlled by a special two-handed grip call the Mariceau-Smellie-Veit manoeuvre or the elective application of forceps. This will be of value in controlling the rate of delivery of the head and reduce decompression. Related to potential head trauma, researchers have identified a relationship between breech birth and autism.[13]

Squeezing the baby’s abdomen can damage internal organs. Positioning the baby incorrectly while using forceps to deliver the aftercoming head can damage the spine or spinal cord. It is important for the birth attendant to be knowledgeable, skilled, and experienced with all variations of breech birth. In the United States, because Cesarean section is increasingly being used for breech babies, fewer and fewer birth attendants are developing these skills.

Factors influencing the safety

Management

Breech birth position seen at MRI.

As in labour with a baby in a normal head-down position, uterine contractions typically occur at regular intervals and gradually cause the cervix to become thinner and to open. In the more common breech presentations, the baby’s bottom (rather than feet or knees) is what is first to descend through the maternal pelvis and emerge from the vagina.

At the beginning of labour, the baby is generally in an oblique position, facing either the right or left side of the mother's back. The baby's bottom is the same size in the term baby as the baby's head. Descent is thus as for the presenting fetal head and delay in descent is a cardinal sign of possible problems with the delivery of the head.

In order to begin the birth, descent of podalic pole along with compaction and internal rotation needs to occur. This happens when the mother's pelvic floor muscles cause the baby to turn so that it can be born with one hip directly in front of the other. At this point the baby is facing one of the mother's inner thighs. Then, the shoulders follow the same path as the hips did. At this time the baby usually turns to face the mother's back. Next occurs external rotation, which is when the shoulders emerge as the baby’s head enters the maternal pelvis. The combination of maternal muscle tone and uterine contractions cause the baby’s head to flex, chin to chest. Then the back of the baby's head emerges and finally the face.

Due to the increased pressure during labour and birth, it is normal for the baby's leading hip to be bruised and genitalia to be swollen. Babies who assumed the frank breech position in utero may continue to hold their legs in this position for some days after birth.

Turning the baby

There are many methods which have been attempted with the aim of turning breech babies, with varying degrees of success:

Using hypothetical scenarios, a small study in the Netherlands found that few obstetric practitioners would attempt ECV in the presence of oligohydramnios.[18] A case report of treating oligohydramnios with amnioinfusion, followed by ECV, was successful in turning the fetus.[19]

Various maneuvers are suggested to assist spontaneous version of a breech presenting pregnancy. These include maternal positioning or other exercises. A study has shown that there is insufficient evidence as to the benefit of maternal positioning in reducing the incidence of breech presentation.[20]

Breech birth versus Caesarean section

Caesarean section is the most common way to deliver a breech baby in Australia, the United Kingdom, and the United States. Like any major surgery, it involves risks. Maternal mortality is increased by a Caesarean section, but still remains a rare complication in developed countries. Third World statistics are dramatically different, and mortality is increased significantly. There is remote risk of injury to the mother's internal organs, injury to the baby, and severe hemorrhage requiring hysterectomy with resultant infertility.

One large study[21] has confirmed that elective Cesarean section has lower risk to the fetus and a slightly increased risk to the mother than planned vaginal delivery of the breech because the mortality was 0.6% of fetuses in cesarean section planned births versus 1.6% of fetuses in planned vaginal births. Elements of the methodology used have undergone some criticism.[22][23]

People born breech

See also

References

  1. Miller EC, Kouam L (1981). "Frequency of breech presentation during pregnancy and on full term". Zentralbl Gynakol 103: 105–109.
  2. Hill L (2008). "Prevalence of Breech Presentation by Gestational Age". American Journal of Perinatology 7: 92–93. doi:10.1055/s-2007-999455. PMID 2403797.
  3. Hughey MJ (1985). "Fetal position during pregnancy". Am J Obstet Gynecol 153: 885–886. doi:10.1016/s0002-9378(85)80276-3.
  4. Sørensen T, Hasch E, Lange AP (1979). "Fetal presentation during pregnancy". Lancet 2: 477. doi:10.1016/s0140-6736(79)91536-8.
  5. Tadmor OP, Rabinowitz R, Alon L, Mostoslavky V, Aboulafia Y. Can breech presentation at birth be predicted from ultrasound examination during the second or third trimester?" Int J Gynaecol Obstet 1994;46:11–14.
  6. Boos R, Hendrik HJ, Schmidt W (1987). "Behavior of fetal position in the second half of pregnancy in labor with breech and vertex presentations". Geburtshilfe Frauenheilkd 47: 341–345.
  7. Witkop CT, Zhang J, Sun W, Troendle J (2008). "Natural history of fetal position during pregnancy and risk of nonvertex delivery". Obstet Gynecol 111: 875–880. doi:10.1097/aog.0b013e318168576d.
  8. Sekulić S, Zarkov M, Slankamenac P, Bozić K, Vejnović T, Novakov-Mikić A (2009). "Decreased expression of the righting reflex and locomotor movements in breech-presenting newborns in the first days of life". Early Hum Dev. 85: 263–6. doi:10.1016/j.earlhumdev.2008.11.001.
  9. Braun FH, Jones KL, Smith DW (1975). "Breech presentation as an indicator of fetal abnormality". J Pediatr 86: 419–21. doi:10.1016/s0022-3476(75)80977-2.
  10. Sekulić SR, Mikov A, Petrović DS (2010). "Probability of breech presentation and its significance". J Matern Fetal Neonatal Med. 23 (10): 1160–4. doi:10.3109/14767051003677996.
  11. Vendittelli, F., Rivière, O., Crenn-Hébert, C., Rozan, M. A., Maria, B., Jacquetin, B. (May 2008) "Is a breech presentation at term more frequent in women with a history of cesarean delivery?" American Journal of Obstetrics and Gynecology 198 (5): 521.e1–6. doi:10.1016/j.ajog.2007.11.009. PMID 18241817
  12. Sekulić SR, Petrović DS, Runić R, Williams M, Vejnović TR. Does a probability of breech presentation of more than 50% exist among diseases and medical conditions? Twin Res Hum Genet. 2007; 10:649-54.
  13. Deborah Bilder, MD, Judith Pinborough-Zimmerman, PhD, Judith Miller, PhD and William McMahon, MD. "Prenatal, Perinatal, and Neonatal Factors Associated With Autism Spectrum Disorders." Pediatrics 123(5), May 2009, pp. 1293–1300
  14. Kotaska A, Menticoglou S,Farine D, et al. "Vaginal delivery of breech presentation" J Obstet Gynaecol Can 2009 Jun;31(6):557-66, 567-78. (Ref is for entire section)
  15. Goer, Henci, Obstetric Myths versus Research Realities, Bergin and Garvey, London, 1995, Oxorn, Harry. Human Labor and Birth, 5th edition. p. 111. Appleton & Lange, 1986.
  16. External cephalic version for breech presentation at term Hofmeyr GJ, Kulier R, cochrane.org
  17. Hutton, EK; Hofmeyr, GJ; Dowswell, T (29 July 2015). "External cephalic version for breech presentation before term.". The Cochrane database of systematic reviews 7: CD000084. doi:10.1002/14651858.CD000084.pub3. PMID 26222245.
  18. Kok, M., Van Der Steeg, J. W., Mol, B. W., Opmeer, B., Van Der Post, J. A. (2008). "Which factors play a role in clinical decision-making in external cephalic version?". Acta Obstet Gynecol Scand 87 (1): 31–5. doi:10.1080/00016340701728075. PMID 17957499.
  19. Buek, J. D., McVearry, I., Lim, E., Landy, H., Afriyie-Gray, A. (June 2005). "Successful external cephalic version after amnioinfusion in a patient with preterm premature rupture of membranes". American Journal of Obstetrics and Gynecology 192 (6): 2063–4. doi:10.1016/j.ajog.2004.07.057. PMID 15970899.
  20. Cephalic version by postural management for breech presentation Hofmeyr, G. J., Kulier, R., cochrane.org
  21. Planned Caesarean section for term breech delivery, Hofmeyr, G. J., Hannah, M. E., cochrane.org
  22. When Research is Flawed: Planned Vaginal Birth versus Elective Cesarean for Breech Presentation at the Wayback Machine (archived 7 March 2012)
  23. Inappropriateness of randomised trials for complex phenomena(subscription required)
  24. Wilgoren, Jodi (9 December 2002). "From a Radical Background, A Rhodes Scholar Emerges". New York Times. Retrieved 3 February 2015.
  25. "'I Am Comic' Director Jordan Brady on Spit Takes and the Downside of Supportive Audiences". Interview. The Humor Code. Retrieved 2 February 2015.
  26. Garrison, Becky (1 Jan 2008). The New Atheist Crusaders and Their Unholy Grail: The Misguided Quest to Destroy Your Faith. Thomas Nelson Inc. p. 133.
  27. Andrew Goldman (26 May 2013). "Billy Joel on not working, not giving up drinking and not caring what Elton John says about any of it". New York Times Magazine. p. 34. Retrieved 2 February 2015. Joel attributes the need for double hip replacement surgery to "probably being born with dysplasia." He explains that he was a breech baby and that forceps may have displaced his hips.
  28. McKennain, Mike (26 February 2010). "Great balls of wax". Retrieved 3 February 2015. Allegedly said, "I was born feet first, and I've been jumpin' ever since."
  29. Ellis, Christine (15 April 2012). "Music for your soul". His website. Bret Michaels. Retrieved 3 February 2015.
  30. Geffcken, Katherine A.; Dickison, Sheila Kathryn; Hallett, Judith P. (2000). Rome and Her Monuments: Essays on the City and Literature of Rome in Honor of Katherine A. Geffcken. Bolchazy-Carducci Publishers. p. 496.
  31. O'Neal, Tatum (4 Oct 2005). A Paper Life. HarperCollins. p. 14.
  32. Shields, David (2009). The Thing about Life Is That One Day You'll Be Dead. Random House LLC. p. 4.
  33. Santopietro, Tom (10 Nov 2009). Sinatra in Hollywood. Macmillan. p. 12.
  34. Putnam, William L. (2001). The Kaiser's merchant ships in World War I. p. 33.
  35. Winick, Judd (2000). Pedro and Me: Friendship, Loss, and What I Learned. Henry Holt & Co. pp. 33-36.
  36. Miles, Barry (2004). Zappa. Grove Press. p. 5.

External links

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