Abstract

Objective

To promote informed choice for women and to compare home andhospital births in relation to the Apgar score.

Methods

Mother’s profile and Apgar score of naturally born infants (without forceps assistance) in Brazil between 2011 and 2015, in both settings-hospital or home-were collected from live birth records provided by the Informatics Department of the Unified Health System (DATASUS, in the Portuguese acronym). For the analysis, were included only data fromlow-riskdeliveries, including gestational time between 37 and 41weeks, singleton pregnancy, at least four visits of prenatal care, infants weighing between 2,500 g, and 4,000 g, mother age between 20-40 years old, and absence of congenital anomalies.

Results

Home birth infants presented significantly higher risk of 0-5 Apgar scores, both in 1 minute (6.4% versus 3%, odds ratio [OR] = 2.2, confidence interval [CI] IC 2-2.4) and in 5 minutes (4.8% versus0.4%,OR = 11.5,CI 10.5-12.7). Another findingis related to recovery estimateswhen from an initially bad 1-minute Apgar (<6) to a subsequently better 5-minute Apgar (> 6). In this scenario, home infants had poorer recovery, Apgar scorewas persistently < 6 throughout the fifth minute in most cases (71% versus 10.7%, OR 20.4, CI 17-24.6).

Conclusion

The results show worse Apgar scores for babies born at home, compared with those born at the hospital setting. This is a pioneer and preliminary study that brings attention concerning differences in Apgar score related to home versus hospital place of birth in Brazil.

Keywords:
home birth; normal birth; apgar score

Resumo

Objetivo

Promover a escolha informada para asmulheres, comparando os resultados de partos domiciliares e hospitalares em relação à escala de Apgar.

Métodos

Foramcoletadas as informaçõesmaternas e a pontuação Apgar de nascidos de parto normal (pela definição, sem auxílio de fórcipe) no Brasil, de 2011 a 2015, a partir de registros de nascidos vivos disponibilizados pela plataforma do Departamento de Informática do Sistema Único de Saúde (DATASUS). Para a análise, incluímos somente dados de partos de baixo risco ocorridos em hospitais ou residências, incluindo tempo de gestação entre 37 e 41 semanas, gestação única, pelo menos quatro consultas de pré-natal, crianças com peso entre 2.500 g e 4.000 g, e idade materna entre 20 anos e 40 anos e ausência de anomalias congênitas.

Resultados

Em comparação ao nascido em ambiente hospitalar, o nascido em domicílio apresentou risco significativamente maior de pontuação 0 a 5, tanto no primeiro minuto (6,4% versus 3%, razão de chance [RC] = 2,2, intervalo de confiança [IC] 2-2,4) como no quinto minuto (4,8% versus 0,4%; RC = 11,5; IC 10,5-12,7). Outro achado que merece destaque é em relação às estimativas de recuperação quando de um Apgar inicialmente ruimao primeirominuto (< 6) para um subsequentemelhor (> 6) no quinto minuto. Neste cenário, os nascidos em domicílio apresentaram menor recuperação até o quinto minuto, persistindo em Apgar < 6 na maior parte dos casos (71% versus 10,7%; OR 20,4; IC 17-24,6).

Conclusão

Os resultados indicam piores escalas de Apgar para bebês nascidos em ambiente domiciliar, em comparação àqueles nascidos em ambiente hospitalar. Este é um estudo pioneiro e preliminar que atenta para as diferenças na escala de Apgar em relação ao local de nascimento domiciliar versus hospitalar no Brasil.

Palavras-chave:
parto domiciliar; parto normal; escala apgar

Introduction

Over the last decades, the number of births by cesarean section has been growing significantly in Brazil, which ranks the country among those carrying out this procedure the most in the world.¹1 Althabe F, Sosa C, Belizán JM, Gibbons L, Jacquerioz F, Bergel E. Cesareansectionrates andmaternal andneonatalmortality in low-, medium-, and high-income countries: an ecological study. Birth 2006;33(04):270-277 Doi: 10.1111/j.1523-536X.2006.00118.x
https://doi.org/10.1111/j.1523-536X.2006... ²2 Betrán AP, Ye J, Moller AB, Zhang J, Gülmezoglu AM, Torloni MR. The increasing trend in caesarean section rates: global, regional and national estimates: 1990-2014. PLoS One 2016;11(02): e0148343 Doi: 10.1371/journal.pone.0148343
https://doi.org/10.1371/journal.pone.014... ³3 Torloni MR, Daher S, Betrán AP, et al. Portrayal of caesarean section in Brazilian women's magazines: 20 year review. BMJ 2011;342:d276 Doi: 10.1136/bmj.d276
https://doi.org/10.1136/bmj.d276... On the other hand, an intense debate has been noticed in the search for the decrease of cesarean section births and the return to home births, which used to be the rule decades ago when the access to hospital health services was not an option.

Around the 1980s, non-governmental organizations and popular fronts started to give this cause a voice. Designations such as “obstetric violence” against “humanized birth” became popular, driven by growing reports of abuse from birth assistance in public and private hospitals. Those movements intend to recover the mother's autonomy and her main role in the process of giving birth.⁴4 Zanardo GLP, Uribe MC, Nadal AHR, Habigzang LF. Violência obstétrica no Brasil: uma revisão narrativa. Psicol Soc 2017;29: e155043 Doi: 10.1590/1807-0310/2017v29155043
https://doi.org/10.1590/1807-0310/2017v2... ⁵5 Diniz CSG. Humanização da assistência ao parto no Brasil: os muitos sentidos de um movimento. Cien Saude Colet 2005; 10:627-637 Doi: 10.1590/S1413-81232005000300019
https://doi.org/10.1590/S1413-8123200500...

The year of 1993 was the milestone for the fight against the so called “obstetric violence,” with the foundation of the Network for the Humanization of Labor and Birth (ReHuNa, in the Portuguese acronym), a non-profit organization that offers help reporting violence and embarrassing circumstances, which can turn the birth experience into one of “terror, anguish, helplessness, alienation and pain.”⁶6 ReHuNa - Rede pela Humanização do Parto e Nascimento. http://www.rehuna.org.br/index.php/quem-somos. Accessed March 15, 2018.
http://www.rehuna.org.br/index.php/quem-...

In 2011, the United Nations (UN) Convention on the Elimination of All Forms of Discrimination against Women Committee sentenced the State of Brazil to pay compensation for the maternal death of a 28-year-old woman deceased in 2002, victim of medical assistance negligence during gestation.⁷7 Senado Federal. Entenda o Caso Alyne. 2013 https://www12.senado. leg.br/noticias/materias/2013/11/14/entenda-o-caso-alyne.Accessed March 15, 2018.
https://www12.senado. leg.br/noticias/ma...

The matter regained repercussion in March 2014, when attorneys representing a hospital filed a petition with the Court to interrupt a home birth. According to the report, the measure was justified because the parturient had undergone two previous cesarean sections and the fetus was in breech position. The woman refused to undergo cesarean section and left the hospital. The petition was successful, and the parturient was coerced to return. She then received manifestations of support from several national and international authorities, including the Federal Government's Office of Human Rights.⁸8 Secretaria de Direitos Humanos. Governo Manifesta Solidariedade a Adelir Carmem Lemos de Goes. 2014 http://www.brasil.gov.br/ cidadania-e-justica/2014/04/governo-manifesta-solidariedade-a -adelir-carmem-lemos-de-goes. Accessed March 15, 2018.
http://www.brasil.gov.br/ cidadania-e-ju...

Some of the most frequent reported reasons for choosing home births are: fewer interventions, sensation of being in control, a comfortable environment, and bad previous experiences in the hospital.⁹9 Boucher D, Bennett C, McFarlin B, Freeze R. Staying home to give birth: why women in the United States choose home birth. J Midwifery Womens Health 2009;54(02):119-126Doi: 10.1016/j. jmwh.2008.09.006
https://doi.org/10.1016/j... The choice for home birth is also made when the mother does not agree with the recommendation of a cesarean section given in the hospital, such as in cases of breech, twin pregnancy and previous cesarean sections.¹⁰10 Grünebaum A, McCullough LB, Brent RL, Arabin B, Levene MI, Chervenak FA. Perinatal risks of planned home births in the United States. Am J Obstet Gynecol 2015;212(03):350.e1-350. e6 Doi: 10.1016/j.ajog.2014.10.021
https://doi.org/10.1016/j.ajog.2014.10.0...

The Health Secretary, through the “Rede Cegonha” program,¹¹11 Ministério da Saúde. Portaria N° 1.459, de 24 de junho de 2011. Institui, no âmbito do Sistema Único de Saúde - SUS - a Rede Cegonha. 2011http://bvsms.saude.gov.br/bvs/saudelegis/gm/2011/ prt1459_24_06_2011_comp.html. Accessed December 10, 2017.
http://bvsms.saude.gov.br/bvs/saudelegis... requires from public governments the compliance of the World Health Organization's (WHO) 1996 document “Care in Normal Birth: A Practical Guide,”¹²12 Care in normal birth: a practical guide. TechnicalWorking Group, World Health Organization. Birth 1997;24(02):121-123 Doi: 10.1111/j.1523-536X.1997.00121.pp.x
https://doi.org/10.1111/j.1523-536X.1997... which includes the respect of mother's choice of birthplace among other recommended measures.

No study comparing neonatal results of home and hospital births was ever conducted in Brazil. Apgar scoring is a worldwide recognized system that remains to this day as an important neonatal prognosis tool as it was described 65 years ago.¹³13 Apgar V. A proposal for a new method of evaluation of the newborn infant. Curr Res Anest Anal 1953;32(04):260-267 The purpose of this study is to promote informed choice for women and provide information on safety of place of birth (hospital births compared with home births) in Brazil based on 1 and 5-minute Apgar score distribution. Although the Apgar score alone does not predict long-term outcomes, its importance can be assured by the fact that infants scoring 0 to 3 in 5-minute Apgar score are related to increased mortality in the first week of life.¹⁴14 Casey BM, McIntire DD, Leveno KJ. The continuing value of the Apgar score for the assessment of newborn infants. N Engl J Med 2001;344(07):467-471 Doi: 10.1056/NEJM200102153440701
https://doi.org/10.1056/NEJM200102153440... This is a pioneer study conducted in Brazil whose results can be useful for future investigations and to help planning strategies on childbirth care.

Methods

This study comprises population retrospective analysis based on live births records provided by the Informatics Department of the Unified Health System (DATASUS, in the Portuguese acronym) in cooperation with the Live Birth Information System (SINASC, in the Portuguese acronym).¹⁵15 Ministério da Saúde. DATASUS.Nascidos Vivos.2016http://tabnet.datasus.gov.br/cgi/tabcgi.exe?sinasc/cnv/nvuf.def. Accessed December 10, 2017.
http://tabnet.datasus.gov.br/cgi/tabcgi.... These are online public access data platform administered by Brazilian government that includes the records of births throughout Brazilian territory, collected from health care intuitions or notary offices (for home births). DATASUS-SISNAC provides a rich source of data, mostly unexploited yet by the scientific community. Despite of some missing data, for example, individual data, still births and, in case of hospital births, if it was initially planned at home and then rushed to the hospital, this is the most complete source of information for births in Brazil.

Mother profile and Apgar score of naturally born infants (without forceps assistance) in Brazil, between 2011 and 2015, in both settings—home and hospital—were collected. To avoid possible bias among comparisons due to risk childbirth, a choice was made to include only deliveries considered to be of good prognosis, from low-risk pregnancies, including gestational time between 37 and 41 weeks, singleton pregnancy, with at least four visits of prenatal care, infants weighing between 2,500-4,000 g, mother age between 20-40 years old, and absence of congenital anomalies. Schematic representation for methodology is presented in Fig. 1.

Apgar scoring system was set as endpoint because of its worldwide recognition tool as an important neonatal prognosis marker, as described by Dr. Virginia Apgar in 1953.¹³13 Apgar V. A proposal for a new method of evaluation of the newborn infant. Curr Res Anest Anal 1953;32(04):260-267 The scoring system ranges from zero to ten and corresponds to the summing up of the score obtained by the evaluation of five criteria: heart rate, respiration, muscle tone, reflex irritability and color. Distribution of newborns was obtained according to different 1-minute and 5- minute Apgar zones: 0–2, 3–5, 6–7, 8–10. These zones are the usual presentation at the birth certificate. Thus, birth records without Apgar score were excluded. Three ratios were then obtained: 1) the proportion of newborns presenting with the bottom scores, 0–2 and 3–5, in relation to birthplace, at the first minute; 2) the same, at the fifth minute; 3) newborns who, presenting low 1-minute scores, sustained 5-minute scores below 6, expressing poor recovery (it is unknown whether they did recover at 10, 15 or 20 minutes, because this information is not usually provided at the birth certificate). Chi-square, OR (odds ratio), and Fisher exact tests were calculated with GraphPad Prism software, version 7 (GraphPad Software Inc., La Jolla, CA, USA) and were considered significant if p< 0.05.

Results

The cohort included 24,300 newborns born at home, and 2,955,748 born at the hospital, as shown in Table 1. Some characteristics were associated with a higher rate of home births: North region (35/1,000); indigenous ethnicity (201/1,000); no schooling (75/1,000) or less than 4 years (25/1,000).

1-minute Apgar: 62.7% of home births did not have 1-minute Apgar scores registered at the birth certificate, in contrast to 2.1% of hospital births. These cases were excluded. The newborns distribution according to different 1-minute Apgar scores are shown in Table 2. As noted, 6.4% of newborns from home births and 3% from hospital births had 1-minute Apgar scores below 6; therefore, the chance of a low score was 2.2 times higher for home births [OR = 2.2 (IC 2–2.4); p< 0.0001].

5-minute Apgar: a high rate of uninformed Apgar on the records was also seen, 62.6% of home and 2.1% of hospital births. These cases were excluded for this analysis. The newborns distribution according to different 5-minute Apgar are shown in Table 3. Apgar scores below 6 were seen in 4.8% of newborns at home, and 0.4% of newborns at the hospital. For 5-minute Apgar, the chance of a low score was 11.5 higher for home compared with hospital births (OR = 11.5[IC 10.5-12.7]; p< 0.0001).

Persistence of Apgar < 6 from 1- to 5-minute: Persistence in low score means both 1-minute and 5-minute below 6. Likewise, recovery was defined as a 5-minute Apgar above 6 succeeding a 1-minute Apgar below 6. The analysis was not possible when 1-minute score was low, but the 5-minute score was not informed (0.2% of hospitals and 4.3% of home records were excluded). The results are shown in Table 4. The chance of a persistent low Apgar score was 20.4 times higher for home compared with hospital newborns (OR = 20.4 [IC 17-24.6]; p< 0.0001). When presenting a low 1-minute Apgar score, recovery to higher values was seen in almost 90% of the newborns at the hospital and only 29% of those at home.

Although 20% of indigenous newborns were delivered at home, ethnicity was not accountable for the differences seen above. Among total indigenous newborns, 2.94% had Apgar score below 6, similar to the rate found for hospital deliveries. It is worth notice that the North region has one of the lowest ratios of newborns with low Apgar scores (2.13%). Some characteristics were associated with higher ratios, including: Northeast Region (3.05%), Southeast region (3.32%); mother age 30–34 years old (3.06%), mother age 35–40 years old (3.43%); white (3.20%), black (3.19%) and Asian ethnicity (3.53%); married (3.24%); schooling 8-11 years (3.06%) and schooling ≥12 years (3.60%). More details about the distribution of newborns by Apgar score zone and mother profile can be seen in ^{Appendix 1} Appendix 1 Newborn distribution by Apgar score zones, birthplace, and mother profile: first minute Score zones 0–2 3–5 6–7 8–10 Total Apgar < 6 (%) DP (MIN) DP (MAX) Birthplace Hospital 16,325 69,854 244,837 2,562,341 2,893,357 2,978512503 3,00 2,96 Home 418 159 1,009 7,475 9,061 6.37 6,89 5,88 Region North 1,222 5,015 31,052 255,767 293,056 2.13 2,18 2,08 Northeast 4,268 20,368 84,996 699,416 809,048 3.05 3,08 3,01 Southeast 7,860 31,722 85,391 1,068,795 1,193,768 3.32 3,35 3,28 South 2,458 9,036 28,842 359,634 399,970 2.87 2,93 2,82 Central-West 935 3,872 15,565 186,204 206,576 2.33 2,39 2,26 Mother's age (years) 20–24 6,228 27,522 101,832 1,027,136 1,162,718 2.90 2,93 2,87 25–29 5,159 21,497 75,590 806,489 908,735 2.93 2,97 2,90 30–34 3,546 14,236 47,743 515,317 580,842 3.06 3,11 3,02 35–39 1,810 6,758 20,681 220,874 250,123 3.43 3,50 3,35 Ethnicity White 6,079 24,773 73,893 858,056 962,801 3.20 3,24 3,17 Black 1,047 4,217 13,257 146,493 165,014 3.19 3,28 3,11 Asian 70 330 845 10,101 11,346 3.53 3,88 3,20 Mixed 8,931 38,208 149,009 1,462,282 1,658,430 2.84 2,87 2,82 Indigenous 118 459 1,801 17,243 19,621 2.94 3,19 2,71 Ignored 498 2,026 7,041 75,641 85,206 2.96 3,08 2,85 Marital status Single 7,381 30,305 104,601 1,130,868 1,273,155 2.96 2,99 2,93 Married 5,206 21,954 71,657 738,610 837,427 3.24 3,28 3,21 Widowed 32 123 460 4,933 5,548 2.79 3,26 2,39 Divorced 168 647 1,992 25,303 28,110 2.90 3,10 2,71 Consensual union 3,809 16,252 64,218 645,189 729,468 2.75 2,79 2,71 Ignored 147 732 2,918 24,913 28,710 3.06 3,27 2,87 Schooling (years) None 132 525 2,326 18,708 21,691 3.03 3,27 2,81 1–3 817 2,854 13,093 118,686 135,450 2.71 2,80 2,63 4–7 3,504 13,666 56,086 589,250 662,506 2.59 2,63 2,55 8–11 10,129 43,504 146,167 1,553,664 1,753,464 3.06 3,08 3,03 ≥ 12 1,943 8,545 24,198 256,735 291,421 3.60 3,67 3,53 Ignored 218 919 3,976 32,773 37,886 3.00 3,18 2,83 Total 16,743 70,013 245,846 2,569,816 2,902,418 2.99 3,01 2,97 and ² Appendix 2 Newborn distribution by Apgar score zones, birthplace, and mother profile: fifth minute Score zones 0–2 3–5 6–7 8–10 Total Apgar < 6 (%) DP (MIN) DP (MAX) Birthplace Hospital 4,526 8,192 38,100 2,844,157 2,894,975 0.44 0,45 0,43 Home 387 52 107 8,533 9,079 4.84 5,30 4,41 Region North 537 703 3,550 287,972 292,762 0.42 0,45 0,40 Northeast 1,611 2,741 13,546 790,872 808,770 0.54 0,55 0,52 Southeast 2,070 3,324 14,459 1,175,852 1,195,705 0.45 0,46 0,44 South 384 955 4,536 394,298 400,173 0.33 0,35 0,32 Central-West 311 521 2,116 203,696 206,644 0.40 0,43 0,38 Mother's age (years) 20–24 1,865 3,131 15,171 1,142,907 1,163,074 0.43 0,44 0,42 25–29 1,597 2,475 11,767 893,421 909,260 0.45 0,46 0,43 30–34 982 1,744 7,709 570,877 581,312 0.47 0,49 0,45 35–39 469 894 3,560 245,485 250,408 0.54 0,57 0,52 Ethnicity White 1,264 2,691 11,980 947,550 963,485 0.41 0,42 0,40 Black 328 479 2,250 162,225 165,282 0.49 0,52 0,46 Asian 15 29 147 11,162 11,353 0.39 0,52 0,29 Mixed 3,086 4,765 22,552 1,628,757 1,659,160 0.47 0,48 0,46 Indigenous 73 45 200 19,285 19,603 0.6 0,72 0,50 Ignored 147 235 1,078 83,711 85,171 0.45 0,50 0,41 Marital status Single 2,190 3,537 16,481 1,251,869 1,274,077 0.45 0,46 0,44 Married 1,329 2,520 11,252 822,765 837,866 0.46 0,47 0,45 Widowed 9 17 60 5,465 5,551 0.47 0,69 0,32 Divorced 43 88 322 27,688 28,141 0.47 0,55 0,39 Consensual union 1,272 1,992 9,646 716,836 729,746 0.45 0,46 0,43 Ignored 70 90 446 28,067 28,673 0.56 0,65 0,48 Schooling (years) None 52 82 383 21,151 21,668 0.62 0,73 0,52 1–3 321 446 1,826 132,791 135,384 0.57 0,61 0,53 4–7 1,302 1,804 8,154 651,718 662,978 0.47 0,49 0,45 8–11 2,743 4,871 23,168 1,723,857 1,754,639 0.43 0,44 0,42 ≥ 12 407 899 4,142 286,094 291,542 0.45 0,47 0,42 Ignored 88 142 534 37,079 37,843 0.61 0,69 0,53 Total 4,913 8,244 38,207 2,852,690 2,904,054 0.45 0,46 0,45 .

Discussion

This study compared 1- and 5-minute Apgar scores of newborns from home births and from hospital births, as provided on births records in Brazil, between 2011 and 2015. In summary, the results show worse Apgar scores for babies born at home compared with those born at the hospital setting.

There were some surprising data. First, ∼ 63% of home births did not have any Apgar score registered in the birth certificate, even though it has is a specific field for this information. It raises a few questions: Why no importance was given to the Apgar score? Were these babies unassisted? Or was it omitted for some reason? It seems more likely that there would be no reasons to omit a high score, but in fact it is not possible to demonstrate such conclusions.

A second surprising finding regards to persistently low scores until the fifth minute. Previous studies show that when both 1- and 5-minute scores are low (more specifically < 4), there is increased risk of death and cerebral palsy.¹⁶16 Moster D, Lie RT, Irgens LM, Bjerkedal T, Markestad T. The association of Apgar score with subsequent death and cerebral palsy: A population-based study in term infants. J Pediatr 2001; 138(06):798-803 Doi: 10.1067/mpd.2001.114694
https://doi.org/10.1067/mpd.2001.114694... Our result showed that those born at home had poorer recovery when the score was low at the first minute, being persistently < 6 until the fifth minute in most cases (71% versus 10.7%, OR 20.4, IC 17–24.6). In other words, the chance of recovery until the fifth minute was only 29%. In hospital births, on the other hand, recovery was seen in 89.3%. Neonatal resuscitation maneuvers are a major factor accountable for this difference. This is expected data since neonatal resuscitation resources (such as aspiration cannula, oxygen, ventilation masks, intubation materials, and adrenaline) are readily available in hospitals. Still, the fact that a fast recovery was seen is less than a third of the infants born at home is worrisome.

It is important to remember that the population selected for analysis did not present high-risk factors for complications, such as: mother age under 20 or over 40 years old, preterm or post-term birth, prenatal care with less than four visits, birth weight under 2,500 g or over 4,000 g, or congenital anomalies. It is quite likely that, if those conditions were included, the differences found between home and hospital births would be even greater. Such analysis was not made due to obvious bias to the detriment of home births.

The American College of Obstetricians and Gynecologists (ACOG)¹⁷17 ACOG Committee on Obstetric Practice. ACOG Committee Opinion No. 476: planned home birth. Obstet Gynecol 2011;117(2 Pt 1):425-428 Doi: 10.1097/AOG.0b013e31820eee20
https://doi.org/10.1097/AOG.0b013e31820e... and the American Academy of Pediatrics (AAP)¹⁸18 Watterberg KL; Committee on Fetus and Newborn. Policy statement on planned home birth: upholding the best interests of children and families. Pediatrics 2013;132(05):924-926 Doi: 10.1542/peds.2013-0575
https://doi.org/10.1542/peds.2013-0575... state that hospitals and maternities are the safest places for natural birth, regardless of the pregnancy risks. Analysis of US births records have also shown poorer outcomes for home births, including higher risks of a null Apgar score (RR 10.5) and neurological dysfunction (RR 3.8).¹⁹19 Grünebaum A, McCullough LB, Sapra KJ, et al. Apgar score of 0 at 5 minutes and neonatal seizures or serious neurologic dysfunction in relation to birth setting. Am J Obstet Gynecol 2013;209 (04):323.e1-323.e6 Doi: 10.1016/j.ajog.2013.06.025
https://doi.org/10.1016/j.ajog.2013.06.0...

On the other hand, British entities, such as the Royal College of Obstetricians and Gynaecologists and the Royal College of Midwives, support natural home birth for low-risk pregnancies.²⁰20 Royal College of Obstetricians and Gynaecologists, Royal College of Midwives. Home Births. Apr 2007. Joint Statement 2. Published 2007. https://www.rcm.org.uk/sites/default/files/home_births_rcog_rcm0 607.pdf. Accessed December 10, 2017.
https://www.rcm.org.uk/sites/default/fil... A meta-analysis sponsored by National Institute for Health found no differences between planned home and planned hospital births, regarding mortality, Apgar, neonatal jaundice, ICU transfer, conversion to cesarean section and puerperal hemorrhage.²¹21 Olsen O, Clausen JA. Planned hospital birth versus planned home birth. Cochrane Database Syst Rev 2012;(09):CD000352 Doi: 10.1002/14651858.CD000352.pub2
https://doi.org/10.1002/14651858.CD00035... The method was “intention-to-treat”: the groups were not divided by birthplace, but according to where deliveries were planned to take place. In case of complications during home births, a fast transfer to hospital setting minimizes differences between the groups. It does not undermine the study, it is just not applicable to Brazil. Our lack of urban planning, and in some cases, of ambulances, often make rapid access to hospitals more difficult.

As a strong point of the present study, we highlight the population magnitude and the objectivity of data in birth certificates, which made the analysis less susceptible to mistakes in selection. For instance, in a referred Canadian study frequently used to accredit home births, parturients were checked in by the obstetric nurses hired to assist the delivery themselves.²²22 Janssen PA, Lee SK, Ryan EM, et al. Outcomes of planned home births versus planned hospital births after regulation of midwifery in British Columbia. CMAJ 2002;166(03):315-323 This kind of experimental design is not ideal, it is naturally biased on account of the nurses, who are knowledgeable of the objective of study and the hypothesis being tested. Dr. Virginia Apgar herself anticipated potential biases when she stated that “it is strongly advised that an observer, other than the person who delivers the infant, be the one to assign the score.”²³23 Apgar V. The newborn (Apgar) scoring system. Reflections and advice. Pediatr Clin North Am 1966;13(03):645-650 Doi: 10.1016/S0031-3955(16)31874-0
https://doi.org/10.1016/S0031-3955(16)31... Those who deliver the infant are invariably emotionally involved with the births and the families, and thus cannot take an accurate decision on assigning the total score. In home births, it is common to have only one provider. The frequent high rate of Apgar = 10 observed in home births is not reliable, more likely a sign of biased calculation.²⁴24 Grünebaum A, McCullough LB, Brent RL, Arabin B, Levene MI, Chervenak FA. Justified skepticism about Apgar scoring in out-ofhospital birth settings. J Perinat Med 2015;43(04):455-460 Doi: 10.1515/jpm-2014-0003
https://doi.org/10.1515/jpm-2014-0003...

However, Apgar scores alone do not predict long-term outcomes and may not be an exact representation of birth conditions. There is also great interobserver variance: for the same newborn, two doctors may not give the same score in 18 to 45% of cases.²⁵25 Kennare RM, Keirse MJNC, Tucker GR, Chan AC. Planned home and hospital births in South Australia, 1991-2006: differences in outcomes. Med J Aust 2010;192(02):76-80 An Australian study found that, regardless of the fact that live births Apgar scores had been equivalent, there were significant differences in stillborn rates, favoring hospital in comparison to home births.²⁶26 Livingston J. Interrater reliability of the Apgar score in term and premature infants. Appl Nurs Res 1990;3(04):164-165 Doi: 10.1016/S0897-1897(05)80139-9
https://doi.org/10.1016/S0897-1897(05)80... Thus, for future studies, we suggest follow-up throughout the first week, including data of intrapartum, neonatal, and infant deaths, and, if possible, follow-up of the first year as well, with attention to seizures and signs of neurological dysfunction.

According to our results, it is inferred that home births in Brazil may not establish equal safety in relation to hospital births, especially regarding neonatal resuscitation. Despite preliminary, and to encompass only 1- and 5-minute Apgar scores, they bring concerns about women, health care providers, and politic makers.

The Medical Board Council of São Paulo (CREMESP, in the Portuguese acronym) states that “childbirth care, including low-risk deliveries, should be done in the hospital setting.” The same ordinance demands that “the physician that assists any home birth must report the occurrence.”²⁷27 Conselho Regional de Medicina do Estado de São Paulo. Cremesp não recomenda realização de parto domiciliar. Jornal do Cremesp. Junho, 2011https://www.cremesp.org.br/?siteAcao=Jornal&id= 1448. Accessed March 10, 2018.
https://www.cremesp.org.br/?siteAcao=Jor...

As previously mentioned, the reasons women frequently cited when choosing home birth are “fewer interventions, sensation of being in control and comfortable environment.” This information can provide a few tracks. Hospitals should make efforts to improve the mother experience. They must have a full obstetric team that manages to pay attention to each parturient, especially when ob-gyns are busy performing surgeries and cesarean sections, including midwives and back-up physicians. It is mandatory that the hospital provides anesthesia services when required by the patient. Finally, cesarean sections without solid justifications must be avoided.

Conclusion

The present study found worse 1- and 5-minute Apgar scores for babies born at home, compared with those born at the hospital setting. When presenting 1-minute score < 6, home infants had poorer recovery, Apgar score was persistently < 6 until the fifth minute in most cases (71%). Although the Apgar score alone does not predict long-term outcomes, it remains to this day an important prognostic marker of neonatal death. This is a preliminary study that brings attention and concerns about the safety and training of professionals that conduct home births. It is certainly premature to speculate that home births are implied with higher mortality rates. However, it means the need of additional investigation to pursue if those lower Apgar scores are indeed related with long-term unfavorable outcomes.

Appendix 1 Newborn distribution by Apgar score zones, birthplace, and mother profile: first minute

Appendix 2 Newborn distribution by Apgar score zones, birthplace, and mother profile: fifth minute

Publication Dates

History