Prematurity continues to be the most important cause of neonatal complications, with more-severe outcomes with lower gestational age at birth. A recently published multicenter study conducted in the United States analyzed births that occurred between 2000 and 2011 and found that one in every four extreme preterms (< 28 weeks) died before hospital discharge.¹1 Patel RM, Kandefer S, Walsh MC, et al; Eunice Kennedy Shriver National Institute of Child Health and Human Development Neonatal Research Network. Causes and timing of death in extremely premature infants from 2000 through 2011. N Engl JMed 2015;372(4):331-340 Deaths that occurred in the first 12h were attributed to generalized immaturity; between 12h and 14 days of life, to respiratory distress syndrome (RDS); and between 15 days and 60 days of life, to necrotizing enterocolitis. This emphasizes the important contribution of prematurity to more-severe outcomes.

Even today, the prevention of prematurity is a major challenge not only because of its multifactorial nature but also because the various causes are not subject to prevention. Thus, when premature delivery is inevitable, the use of antenatal corticosteroids is the only effective intervention for reducing neonatal complications such as RDS, intracranial hemorrhage, necrotizing enterocolitis, and death. However, many misconceptions arise in this area, and hasty conclusions and contradictory information are frequent. These often arise from studies that do not allow to draw the conclusions that are proclaimed.

The first evidence in humans that corticosteroids could be used to accelerate fetal lung maturity came from the study of Liggins and Howie²2 Liggins GC, Howie RN. A controlled trial of antepartum glucocorticoid treatment for prevention of the respiratory distress syndrome in premature infants. Pediatrics 1972;50(4):515-525 in 1972, in which betamethasone was compared with a placebo. In this study, 6 mg of betamethasone sodium phosphate and 6 mg of betamethasone acetate (total = 12 mg) were administered by intramuscular injection. After 24h, a second identical injection was applied if the first one had no effect. It should be stressed that this is currently the most commonly used scheme. When compared with the placebo group, the treated group displayed a significant reduction in the incidence of RDS and neonatal mortality rate. Further studies with betamethasone or dexamethasone confirmed the initial results and demonstrated not only fetal pulmonary maturation but also improvement in other neonatal results.

A meta-analysis that included 21 controlled and randomized studies (n= 4,269 newborns) revealed a significant reduction in the incidences of RDS (relative risk [RR] = 0.66), intracranial hemorrhage (RR = 0.54), necrotizing enterocolitis (RR = 0.46), and neonatal death (RR = 0.69), without increased incidences of maternal and neonatal infections.³3 Roberts D, Dalziel S. Antenatal corticosteroids for accelerating fetal lung maturation for women at risk of preterm birth. Cochrane Database Syst Rev 2006;(3):CD004454 In the same study, beneficial results were observed in cases of preterm premature rupture of membranes.

Corticosteroids act by promoting the expressions of proteins that accelerate the functional and structural maturity of pulmonary cells and other organs.⁴4 Mercer BM. Assessment and induction of fetal maturity. In: Creasy RK, Resnik R, Iams JD, Lockwood CJ, Moore TR, Greene MF editors. Creasy &Resnik's maternal-fetal medicine: principles and practice. 7th ed. Philadelphia: Elsevier Saunders; 2014. p. 507-15 The physiological effects on the lungs result from the production of proteins and enzymes involved in the production of phospholipids by type 2 pneumocytes. The physiological effects include improvement of pulmonary expansion, reduction in vascular permeability, improvement of respiratory function, and response to postnatal surfactants.

Betamethasone and dexamethasone are equally effective in promoting the acceleration of lung maturation. Dexamethasone should be administered intramuscularly at 4 doses of 6 mg, with 12-hour intervals between applications. However, in most studies, the use of betamethasone is preferred because long-term follow-up data of fetuses exposed to dexamethasone are still limited.

Briefly, some authors started to suggest weekly courses of corticosteroids between the 24^th and 34^th weeks of life. After multiple courses of corticosteroids have been applied in clinical practice for several years, several studies questioned the practice.⁵5 Banks BA, Cnaan A, Morgan MA, et al; North American Thyrotropin- Releasing Hormone Study Group. Multiple courses of antenatal corticosteroids and outcome of premature neonates. Am J ObstetGynecol 1999;181(3):709-717 ⁶6 Lee MJ, Davies J, Guinn D, et al. Single versus weekly courses of antenatal corticosteroids in preterm premature rupture of membranes. ObstetGynecol 2004;103(2):274-281 ⁷7 Murphy KE, Hannah ME, Willan AR, et al; MACS Collaborative Group. Multiple courses of antenatal corticosteroids for preterm birth (MACS): a randomised controlled trial. Lancet 2008;372- (9656):2143-2151 Besides having no neonatal benefit, administration of multiple courses of corticosteroids to fetuses resulted in impairment of growth with reductions in head circumference, weight, and stature at birth, in addition to behavioral changes in childhood, when compared with the use of a single course. One should emphasize that adverse effects such as impairment of cerebral myelination and other neurological anomalies, alterations of pulmonary tissue growth, and developmental disorders of the hypothalamic-pituitary-adrenal axis have already been observed in animal studies.⁸8 Dunlop SA, Archer MA, Quinlivan JA, Beazley LD, Newnham JP. Repeated prenatal corticosteroids delay myelination in the ovine central nervous system. J Matern Fetal Med 1997;6(6):309-313 ⁹9 Aghajafari F, Murphy K, Matthews S, Ohlsson A, Amankwah K, Hannah M. Repeated doses of antenatal corticosteroids in animals: a systematic review. Am J ObstetGynecol 2002;186(4): 843-849 Such findings occur because corticosteroids do not act specifically on the pulmonary tissue but affect other tissues with rapid cell proliferation, such as cerebral tissue, the intestines, the kidneys, and the skin. Taking into account these unfavorable results, along with the risk of premature delivery in the following 7 days, between the 24^th and 34^th weeks,¹⁰10 National Institutes of Health Consensus Development Panel. Antenatal corticosteroids revisited: repeat courses. NIH Consens Statement 2000;17(2):1-18 the consensus of the National Institute of Child Health and Human Development in 2000 reaffirmed what had been decided in the consensus of the same entity in 1994, which is the use of a single course of betamethasone (12 mg per day, intramuscularly, with a 24-hour interval).

In 2015, a new systematic review indicated contradictory results.¹¹11 Crowther CA, McKinlay CJ, Middleton P, Harding JE. Repeat doses of prenatal corticosteroids for women at risk of preterm birth for improving neonatal health outcomes. Cochrane Database Syst Rev 2015;7:CD003935 The use of multiple courses of betamethasone when compared with a single course demonstrated a reduction in the incidence of RDS; nonsignificant reductions in the incidences of severe pulmonary disease, perinatal mortality, chronic pulmonary disease, intracranial hemorrhage, and birth weight. With regard to maternal complications, no significant increase in the incidence of chorioamnionitis or puerperal sepsis was observed. Such results should be analyzed with great care. The main criticism is that this revision did not assess whether the incidence of complications increased as more doses were used (dose dependence), as demonstrated by other studies.¹²12 Murphy KE, Willan AR, Hannah ME, et al; Multiple Courses of Antenatal Corticosteroids for Preterm Birth Study Collaborative Group. Effect of antenatal corticosteroids on fetal growth and gestational age at birth. ObstetGynecol 2012;119(5):917-923 Hence, the conclusions should not be considered definitive. The recommendations of the American College of Obstetricians and Gynecologists should be preferred. Moreover, based on the studies cited earlier, as a general rule, only a single course of betamethasone¹³13 American College of Obstetricians and Gynecologists. ACOG committee opinion no. 561: Nonmedically indicated early-term deliveries. ObstetGynecol 2013;121(4):911-915 should be administered. However, as an exception, a second course of corticosteroid can be administered when premature delivery is imminent (< 34 weeks) and more than 2 weeks had passed after the initial cycle.

Few studies have assessed the neonatal respiratory benefits of administering corticosteroids to pregnant women in the gestational period of ≥ 34 weeks.¹⁴14 Sotiriadis A, Makrydimas G, Papatheodorou S, Ioannidis JP. Corticosteroids for preventing neonatal respiratory morbidity after elective caesarean section at term. Cochrane Database Syst Rev 2009;(4):CD006614 Although late preterms (34 to 36 weeks and 6 days) had a significant increase in the prevalence of respiratory complications (RDS, transient tachypnea. and apnea of prematurity) when compared with newborns with gestational ages of > 37 weeks, no sufficient evidence has been found to support the use of corticoid therapy in these cases. The evidence is even more questionable for its use in early preterms (between 37 and 38 weeks and 6 days). In a study conducted in 2005 with 998 pregnant women who were divided between those who received and those who did not receive antenatal corticosteroid 48 hour before the planned cesarean delivery at gestational ages of ≥ 37 weeks, the incidence of respiratory complications was lower in newborns whose mothers received corticosteroids (2.4% vs 5.1%; RR = 0.46).¹⁵15 Stutchfield P, Whitaker R, Russell I; Antenatal Steroids for Term Elective Caesarean Section (ASTECS) Research Team. Antenatal betamethasone and incidence of neonatal respiratory distress after elective caesarean section: pragmatic randomised trial. BMJ 2005;331(7518):662 In 2010, the Royal College of Obstetricians and Gynecologists (RCOG) started to recommend the administration of corticosteroids for pregnant women with imminent preterm birth up to 34 weeks and 6 days and to all pregnant women with planned elective cesarean section prior to 38 weeks and 6 days.¹⁶16 Royal College of Obstetricians & Gynaecologists [Internet]. Antenatal corticosteroids to reduce neonatal morbidity and mortality. London: RCOG; 2010. (Greentop Guideline no. 7) [cited 2015 Dec 27]. Available from: https://www.rcog.org.uk/globalassets/ documents/guidelines/gtg_7.pdf
https://www.rcog.org.uk/globalassets/ do... On the other hand, in a randomized study with betamethasone (n= 163) in comparison with a placebo (n= 157) that was conducted in Brazil with pregnant women between 34 and 36 weeks of gestation who had an imminent risk of premature delivery, no significant difference was observed between the groups regarding the incidence of respiratory disorders of newborns (RDS and transient tachypnea).¹⁷17 Porto AMF, Coutinho IC, Correia JB, Amorim MMR. Effectiveness of antenatal corticosteroids in reducing respiratory disorders in late preterm infants: randomised clinical trial. BMJ 2011; 342:d1696 According to some authors, besides not having benefits, fetal exposure to corticosteroids can cause damage to the newborn babies with gestational ages of ≥ 34 weeks. In a study with 362 fetuses that assessed pulmonary maturity, the use of antenatal corticosteroids showed no benefits regarding respiratory complications for late preterms and early terms. However, the same study found a 2-fold higher prevalence of hypoglycemia and 3-fold higher prevalence of neonatal sepsis when the mothers received the medication.¹⁸18 Kamath-Rayne BD, DeFranco EA, Marcotte MP. Antenatal steroids for treatment of fetal lung immaturity after 34 weeks of gestation: an evaluation of neonatal outcomes. ObstetGynecol 2012;119(5): 909-916 In addition, neurological follow-up data of children submitted to treatment after 34 weeks gestation are still limited. Human and animal studies have demonstrated that at the beginning of pregnancy, antenatal exposure to corticosteroids may delay myelination. On the other hand, close to term, the central nervous system becomes more active mitotically and its exposure to corticosteroids can cause cell death.¹⁹19 American College of Obstetricians and Gynecologists; Committee on Practice Bulletins-Obstetrics. ACOG practice bulletin no. 127: Management of preterm labor. ObstetGynecol 2012;119(6):1308-1317 ²⁰20 Lee MJ , Guinn D. Antenatal corticosteroid therapy for reduction of neonatal morbidity and mortality from preterm delivery [Internet]. 2015 [citado 2015 Dec 27]. Available from: http://www.uptodate.com/contents/antenatal-corticosteroid-therapy-for-reduction- of-neonatal-morbidity-and-mortality-from-pretermdelivery
http://www.uptodate.com/contents/antenat... Therefore, in light of the current knowledge, we believe that it is more sensible not to use corticosteroids in late preterm and early-term births.

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