ABSTRACT
Objective:
To estimate the magnitude of the association between Autism Spectrum Disorder (ASD) and postnatal factors in a Brazilian population.
Methods:
A case-control study was performed with 253 individuals diagnosed with ASD and 886 individuals without signs of the disorder. A semi-structured questionnaire and the multiple logistic regression model were adopted in the data analysis. To estimate the magnitude of associations, the crude and adjusted Odds Ratio (OR) was used.
Results:
An association with the following factors was found: having been born with congenital malformation (OR 4.24; confidence interval of 95% - 95%CI 1.92-9.34), neonatal jaundice (OR 1.43; 95%CI 1.01-2.02), absence of crying at birth and seizure episode in childhood (OR 5.75; 95%CI 3.37-9.81). The magnitude of the association was higher in the children/adolescents who had two or more postnatal complications (OR 6.39; 95%CI 4.10-10.00).
Conclusions:
The findings of the present study suggest that malformation, neonatal jaundice, absence of crying at birth and seizure episodes in childhood are important factors to be considered when studying the etiology of ASD.
Keywords:
Autistic disorder; Risk factors; Child; Infant, newborn
RESUMO
Objetivo:
Estimar, em uma população brasileira, a magnitude da associação entre o transtorno do espectro do autismo (TEA) e os fatores pós-natais.
Métodos:
Estudo de caso controle realizado com 253 indivíduos com diagnóstico do TEA e 886 sem sinais do transtorno. Foi aplicado um questionário semiestruturado e adotou-se o modelo de regressão logística múltipla na análise dos dados. Para estimar a magnitude das associações, utilizou-se a razão de chances (Odds Ratio - OR) bruta e ajustada.
Resultados:
Encontrou-se associação de TEA com os seguintes fatores: ter nascido com má-formação congênita (OR 4,24; intervalo de confiança de 95% - IC95% 1,92-9,34), icterícia neonatal (OR 1,43; IC95% 1,01-2,02), ausência de choro ao nascer (OR 1,97; IC95% 1,20-3,23) e episódio de convulsão na infância (OR 5,75; IC95% 3,37-9,81). A magnitude da associação foi maior nas crianças/adolescentes que tiveram duas ou mais complicações pós-natais (OR 6,39; IC95% 4,10-10,00).
Conclusões:
Os achados do presente estudo sugerem que má-formação, icterícia neonatal, ausência de choro ao nascer e episódios de convulsão na infância são fatores importantes a serem considerados ao estudar a etiologia do TEA.
Palavras-chave:
Autismo; Fatores de risco; Criança; Recém-nascido
INTRODUCTION
Autism Spectrum Disorder (ASD) is a neurodevelopmental disorder that involves persistent impairment in reciprocal social communication and in social interaction, as well as restricted and repetitive patterns of behavior, interests, or activities, and whose symptoms generally appear in early childhood. These symptoms usually persist throughout life and may cause impairment in social, occupational, or other important areas of the individual’s life.11. American Psychiatric Association. Diagnostic and statistical manual of mental disorders. 5th ed. Arlington, VA: American Psychiatric Association; 2013.
From the first epidemiological study on ASD, conducted in 1966 in the United Kingdom, to one of the most recent studies, conducted in 2014 in the United States, there has been an increase in the prevalence of this disorder in the population. In the first study, an estimated 4.1 people were affected in every 10,000 individuals, while in the American study, one ASD case was found for every 59 eight-year-old children.22. Lotter V. Epidemiology of autistic conditions in young children. Soc Psychiatry Psychiatr Epidemiol. 1966;1:124-35.,33. Baio J, Wiggins L, Christensen DL, Maenner MJ, Daniels J, Warren Z, et al. Prevalence of autism spectrum disorder among children aged 8 years - Autism and Developmental Disabilities Monitoring Network, 11 Sites, United States, 2014. MMWR Surveill Summ 2018;67:1-23.
The great phenotypic variability observed in individuals with ASD can occur due to the interaction between genes and the environment, interaction of multiple genes within the same genome, and distinct combinations of genes in different individuals.44. Tordjman S, Somogyi E, Coulon N, Kermarrec S, Cohen D, Bronsard G, et al. Gene x Environment interactions in autism spectrum disorders: role of epigenetic mechanisms. Front Psychiatry. 2014;5:53. A study with monozygotic twins has shown a rate higher than 90% of genetic inheritance for ASD;55. Nordenbæk C, Jørgensen M, Kyvik KO, Bilenberg N. A Danish population-based twin study on autism spectrum disorders. Eur Child Adolesc Psychiatry. 2014;23:35-43. however, Tordjman et al. suggest an estimate of 50% genetic inheritance and 50% environmental factor, and indicate that the concordance rate for monozygotic twins is greater than that observed for dizygotic twins, but this concordance rate is incomplete for ASD.44. Tordjman S, Somogyi E, Coulon N, Kermarrec S, Cohen D, Bronsard G, et al. Gene x Environment interactions in autism spectrum disorders: role of epigenetic mechanisms. Front Psychiatry. 2014;5:53. Such findings and the epigenetic mechanisms, which are stably maintained following environmental exposures, reinforce the contribution of non-genetic factors in the etiology of this disorder.44. Tordjman S, Somogyi E, Coulon N, Kermarrec S, Cohen D, Bronsard G, et al. Gene x Environment interactions in autism spectrum disorders: role of epigenetic mechanisms. Front Psychiatry. 2014;5:53. Among the possible non-genetic factors related to ASD, postnatal factors have been studied, but the results differ.66. George B, Padmam MS, Nair MK, Leena ML, Russell PS. CDC Kerala 13: Antenatal, natal and postnatal factors among children (2-6 y) with autism--a case control study. Indian J Pediatr. 2014;81 Suppl 2:S133-7.,77. Hadjkacem I, Ayadi H, Turki M, Yaich S, Khemekhem K, Walha A, et al. Prenatal, perinatal and postnatal factors associated with autism spectrum disorder. J Pediatr (Rio J). 2016;92:595-601.,88. Larsson HJ, Eaton WW, Madsen KM, Vestergaard M, Olesen AV, Agerbo E, et al. Risk factors for autism: perinatal factors, parental psychiatric history, and socioeconomic status. Am J Epidemiol. 2005;161:916-25.,99. Maramara LA, He W, Ming X. Pre-and perinatal risk factors for autism spectrum disorder in a New Jersey cohort. J Child Neurol. 2014;29:1645-51.,1010. Dodds L, Fell DB, Shea S, Armson BA, Allen AC, Bryson S. The role of prenatal, obstetric and neonatal factors in the development of autism. J Autism Dev Disord. 2011;41:891-902.,1111. Hultman CM, Sparén P, Cnattingius S. Perinatal risk factors for infantile autism. Epidemiology. 2002;13:417-23.,1212. Gardener H, Spiegelman D, Buka SL. Perinatal and neonatal risk factors for autism: a comprehensive meta-analysis. Pediatrics. 2011;128:344-55.,1313. Zhang X, Lv CC, Tian J, Miao RJ, Xi W, Hertz-Picciotto I, et al. Prenatal and perinatal risk factors for autism in China. J Autism Dev Disord. 2010;40:1311-21.,1414. Maimburg RD, Væth M, Schendel DE, Bech BH, Olsen J, Thorsen P. Neonatal jaundice: a risk factor for infantile autism? Pediatr Perinat Epidemiol. 2008;22:562-8.,1515. Duan G, Yao M, Ma Y, Zhang W. Perinatal and background risk factors for childhood autism in central China. Psychiatry Res. 2014;220:410-7.,1616. Hwang YS, Weng SF, Cho CY, Tsai WH. Higher prevalence of autism in Taiwanese children born prematurely: a nationwide population-based study. Res Dev Disabil. 2013;34:2462-8.,1717. McCue LM, Flick LH, Twyman KA, Xian H, Conturo TE. Prevalence of non-febrile seizures in children with idiopathic autism spectrum disorder and their unaffected siblings: a retrospective cohort study. BMC Neurol. 2016;16:245.,1818. Fezer GF, Matos MB, Nau AL, Zeigelboim BS, Marques JM, Liberalesso PB. Perinatal features of children with autism spectrum disorder. Rev Paul Pediatr. 2017;35:130-5.
There is still a lack of research investigating this issue, especially in South America. In this context, this study aimed to estimate the magnitude of the association between ASD and postnatal factors in a Brazilian population.
METHOD
This was part of a control case study that investigated the association between prenatal, perinatal and postnatal factors and ASD in the city of Montes Claros, MG, Brazil.
Sample size was planned for an independent control case, aiming to estimate an Odds Ratio (OR) of 1.9, given the probability of 0.18 of exposure among the controls.1919. Lwanga SK, Lemeshow S. Determinación del tamaño de las muestras em los estudios sanitários - Manual práctico. Ginebra: Organización Mundial de la Salud; 1991.,2020. Budi LP, Sitaresmi MN, Windiani IG. Paternal and maternal age at pregnancy and autism spectrum disorders in offspring. Paediatr Indones. 2016;55:345.,2121. Xavier RB, Jannotti CB, Silva KS, Martins AC. Reproductive risk and family income: analysis of the profile of pregnant women. Ciênc Saude Coletiva. 2013;18:1161-71. Because this was an investigation in which several exposure factors were analyzed, these parameters referred to the exposure factor “maternal age in gestation greater than or equal to 35 years”, which provided the largest sample size. The power of the study was defined at 80%; the level of significance was 0.05 and four controls per case; 10% was added to the sample to compensate for possible losses and deff=1.5 was adopted to correct the effect of the design. The required sample size was defined at 213 cases and 930 controls.
The case group consisted of children and adolescents aged between 2 and 15 years, assisted in eight specialized clinics in Montes Claros and in the Associação Norte Mineira de Apoio ao Autista (ANDA). The diagnosis of ASD was confirmed by professionals (speech therapists, psychologists and physicians) with specialization in ASD, which were based on the diagnostic criteria for ASDs proposed by the Diagnostic and Statistical Manual of Mental Disorders (DSM-5).11. American Psychiatric Association. Diagnostic and statistical manual of mental disorders. 5th ed. Arlington, VA: American Psychiatric Association; 2013.
The specialized clinics and ANDA were visited and sensitized, and provided a list of 398 mothers of children/adolescents with a confirmed diagnosis of ASD. After contacting them by phone, 253 (64%) accepted to participate in the study.
The control group was composed of children/adolescents without signs of ASD, enrolled in the same schools where the cases studied were enrolled. In the case group, there were children (n=14) who were not attending school. Thus, children with no signs of ASD who were not included in school environment (n=66) were identified in Family Health Strategy (FHS) units. We aimed to identify control children in the same age group at a ratio of 4:1. Intentionally, the gender variable was not considered, since there is interest in verifying the association between ASD and sex in the Brazilian population.
The managers of the identified schools were sensitized and 63 agreed to participate in this study. The children/adolescents were selected by the schools’ managers, being excluded those with a medical report for ASD and with suspicion of any psychiatric disorders. The mothers of these children were contacted, and 1,006 accepted to participate in the survey.
In order to identify children in the control group with signs of ASD, the Portuguese version of the Modified Checklist for Autism in Toddlers (M-CHAT), an instrument used to screen children aged 18-30 months, was applied in this group.2222. Losapio MF, Pondé MP. Translation into Portuguese of the M-CHAT Scale for early screening of autism. Rev Psiquiatr Rio Gd Sul. 2008;30:221-9.,2323. Robins DL, Fein D, Barton ML, Green JA. The modified checklist for autism in toddlers: an initial study investigating the early detection of autism and pervasive developmental disorders. J Autism Dev Disord. 2001;31:131-44. For the children/adolescents who were not in this age group, the mothers were instructed to respond to the tool according to the children’s behavior in that period. A total of 120 children/adolescents with signs of ASD were identified and excluded from this group, and their mothers were instructed to seek a qualified professional for better investigation.
The data collection was conducted individually and in person, at a previously scheduled place and time, according to the availability of the mothers. A pre-trained team of graduate students, participants in a scientific initiation program, scheduled and conducted the interviews.
A semi-structured instrument was used, based on a literature review and reviewed by a multiprofessional team. All the answers were obtained through a self-administered questionnaire, filled out by the mothers of both groups, with the presence of a member of the team to provide clarification. The instrument contained three open and 19 closed questions, with “yes”, “no”, “don’t know/don’t remember” as answer options.
The open questions were:
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The child was born at how many weeks?
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What was the birth weight (BW) (in g)?
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What is the total number of seizure events throughout life?
The closed questions were:
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Did you have gestational diabetes?
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Did you have pre-eclampsia/eclampsia?
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Did you smoke during pregnancy?
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Has the newborn (NB) had fetal distress (FD), injury or birth trauma?
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Has the NB had hypoxia (lack of oxygen)?
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Has the NB had difficulty breathing at birth?
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Presence of crying at birth?
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Has the NB been treated with oxygen?
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Was the NB born with jaundice (JB) (born yellow)?
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Was the NB born with anemia?
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Has the NB had any infections?
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Has the NB had a fever?
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Was the child hospitalized at the Intensive Care Unit (ICU)/Critical Care Unit (ICU)?
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Has the child had surgery?
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Does the child have epilepsy?
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Does the child have or had seizures?
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Has the child had traumatic brain injury (hemorrhage, head hematoma)?
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Has the child had inflammation of the nervous system (NS) (meningitis, encephalitis)?
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Was the child born with some genetic malformation/disease (GMFD), ex.: Down syndrome, Rett syndrome, Fragile X, unidentified, and others; which one?
The type of neonatal infection was also investigated, with the response alternatives being: conjunctivitis, pneumonia, meningitis, sepsis (generalized infection) and others; which ones?
The questions about the children referred to events from birth to present age. Apgar score and head circumference were not included because of lack of information.
Preterm was considered when the child/adolescent was born with gestational age (GA) less than 37 weeks. BW was defined by the first measurement after birth, with weight below 2,500 g being classified as low weight, and below 1,500 g as very low weight. Weight for GA was classified as small for GA (SGA), adequate for GA (AGA) and large for GA (LGA), according to Battaglia & Lubchenco.2424. Battaglia FC, Lubchenco LO. A practical classification of newborn infants by weight and gestational age. J Pediatr. 1967;71:159-63. Maternal age was categorized at <30 and ≥30 years. The mother was defined as a smoker mother when she used any type of cigarette during gestation, regardless of the number. The other variables were weighted according to the presence or absence of the evaluated event.
It should be noted that, prior to data collection, a pilot study was carried out with ten mothers of children/adolescents diagnosed with ASD and 100 from the general population. The questionnaires applied in this pre-test were not included in the study.
The mothers were instructed to take the prenatal record and the vaccination card at the time of data collection. Of the 1,139 participating mothers, 284 (25%) presented the requested documents and, of these, 198 (70%) had records of such data. The answers were compared with the records of the documents, obtaining an agreement of 85%.
Frequency distributions of all variables were performed according to the case and control groups. In the bivariate analysis, the chi-square test was used, and those variables that presented descriptive level (p value) lower than 0.20 were selected for multiple analysis. In the multiple analysis, the logistic regression model was adopted, whose magnitude of the association between the outcome and the independent variables was estimated by the Odds Ratio (OR), with respective 95% confidence intervals (95%CI). The number of post-natal complications associated with ASD were also evaluated. Confounding variables considered were the child’s/adolescent’s gender, mother’s age, pre-eclampsia/eclampsia. To evaluate the fit quality of the model, we adopted the Hosmer-Lemeshow test and the pseudo R2 Nagelkerke statistic. Statistical analysis of the data was done using statistical software Statistical Package for the Social Sciences (SPSS), version 23.0 (IBM, Chicago, USA).
This study was approved by the Research Ethics Committee (CEP) of the Universidade Estadual de Montes Claros (Unimontes) (Protocol no. 534.000/14), and all the guardians of all children/adolescents signed the free and informed consent.
RESULTS
The sample consisted of 1,139 individuals, of which 253 were from the case group and 886 from the control group. Of these, 80.2 and 50.7% of the case and control groups, respectively, were males, with a significant difference (p<0.001).
A similar mean age was observed between the groups (p=0.464), 6.5±3.5 years in the case group and 6.6±3.4 in the control group. The distribution of social class (p=0.320) and the type of school they attended (p=0.561) were also similar between groups.
In the bivariate analysis, positive and significant associations with ASD were confirmed in relation to the following maternal characteristics: age range ≥30 years, multiple pregnancy and preeclampsia/eclampsia during gestation. There were also positive associations between ASD and most of the variables related to the postnatal factors, except for preterm, LGA, having undergone some type of surgery and the presence of neonatal anemia (Tables 1 and 2).
In the multiple analysis, there was a positive and significant association between ASD and GMFD, JB, absence of crying at birth and episodes of seizure in childhood (Table 3). It was also observed that the magnitude of the association was greater in the group that had two or more postnatal complications than in the group that had only one (Table 4).
Multiple regression model of the number of newborn complications associated with autism spectrum disorder: adjusted Odds Ratio with respective 95% confidence intervals. Montes Claros, MG, Brasil.
DISCUSSION
In the last decades, associations between postnatal factors and ASD have been reported, and this case control study in a Brazilian population has verified an association with the following factors: being born with GMFD, JB, absence of crying and seizure episode. The magnitude of the association was greater in children/adolescents who had two or more postnatal complications.
The results showed similarity between the groups in terms of mean age and social class. It was found that children/adolescents with ASD were more likely to have mothers aged ≥30 years and to be male, as well as in other regions of the world.77. Hadjkacem I, Ayadi H, Turki M, Yaich S, Khemekhem K, Walha A, et al. Prenatal, perinatal and postnatal factors associated with autism spectrum disorder. J Pediatr (Rio J). 2016;92:595-601.,88. Larsson HJ, Eaton WW, Madsen KM, Vestergaard M, Olesen AV, Agerbo E, et al. Risk factors for autism: perinatal factors, parental psychiatric history, and socioeconomic status. Am J Epidemiol. 2005;161:916-25.,99. Maramara LA, He W, Ming X. Pre-and perinatal risk factors for autism spectrum disorder in a New Jersey cohort. J Child Neurol. 2014;29:1645-51.,1010. Dodds L, Fell DB, Shea S, Armson BA, Allen AC, Bryson S. The role of prenatal, obstetric and neonatal factors in the development of autism. J Autism Dev Disord. 2011;41:891-902.
It was observed that children/adolescents with ASD were more likely to have GMFD, namely: Down syndrome (n=2), fragile X syndrome (n=2), Rett syndrome (n=1), Kabuki syndrome (n=1), malformation of the foot (n=7) and others (n=23). Because of the small number of individuals in this group, only the presence or absence of such factor was checked in the analyzes. Similar results to those reported were found by other studies, which also found association, differing from the study by Zhang et al., who did not find such association.1010. Dodds L, Fell DB, Shea S, Armson BA, Allen AC, Bryson S. The role of prenatal, obstetric and neonatal factors in the development of autism. J Autism Dev Disord. 2011;41:891-902.,1111. Hultman CM, Sparén P, Cnattingius S. Perinatal risk factors for infantile autism. Epidemiology. 2002;13:417-23.,1212. Gardener H, Spiegelman D, Buka SL. Perinatal and neonatal risk factors for autism: a comprehensive meta-analysis. Pediatrics. 2011;128:344-55.,1313. Zhang X, Lv CC, Tian J, Miao RJ, Xi W, Hertz-Picciotto I, et al. Prenatal and perinatal risk factors for autism in China. J Autism Dev Disord. 2010;40:1311-21. It is emphasized that the birth conditions of a malformed neonate are directly related to a worse prognosis, and more major abnormalities may contribute to complications during this period, suggesting that these complications can lead to neurological abnormalities and consequently to ASD.2525. Nhoncanse GC, Germano CM, Avó LR, Melo DG. Maternal and perinatal aspects of birth defects: a case-control study. Rev Paul Pediatr. 2014;32:24-31.
Positive association between ASD and JB found in this study was also observed by other authors.1212. Gardener H, Spiegelman D, Buka SL. Perinatal and neonatal risk factors for autism: a comprehensive meta-analysis. Pediatrics. 2011;128:344-55.,1414. Maimburg RD, Væth M, Schendel DE, Bech BH, Olsen J, Thorsen P. Neonatal jaundice: a risk factor for infantile autism? Pediatr Perinat Epidemiol. 2008;22:562-8.,1515. Duan G, Yao M, Ma Y, Zhang W. Perinatal and background risk factors for childhood autism in central China. Psychiatry Res. 2014;220:410-7.,2626. Amin SB, Smith T, Wang H. Is neonatal jaundice associated with Autism Spectrum Disorders: a systematic review. J Autism Dev Disord. 2011;41:1455-63. However they differed from the studies that did not find an association, or that saw significance only in the bivariate analysis.66. George B, Padmam MS, Nair MK, Leena ML, Russell PS. CDC Kerala 13: Antenatal, natal and postnatal factors among children (2-6 y) with autism--a case control study. Indian J Pediatr. 2014;81 Suppl 2:S133-7.,1313. Zhang X, Lv CC, Tian J, Miao RJ, Xi W, Hertz-Picciotto I, et al. Prenatal and perinatal risk factors for autism in China. J Autism Dev Disord. 2010;40:1311-21.,1616. Hwang YS, Weng SF, Cho CY, Tsai WH. Higher prevalence of autism in Taiwanese children born prematurely: a nationwide population-based study. Res Dev Disabil. 2013;34:2462-8. Due to bilirubin accumulated physiologically or pathologically, pathological JB may be potentially toxic to the central NS and may cause brain lesions, since unconjugated bilirubin is able to cross the cerebral barrier.1313. Zhang X, Lv CC, Tian J, Miao RJ, Xi W, Hertz-Picciotto I, et al. Prenatal and perinatal risk factors for autism in China. J Autism Dev Disord. 2010;40:1311-21.,1414. Maimburg RD, Væth M, Schendel DE, Bech BH, Olsen J, Thorsen P. Neonatal jaundice: a risk factor for infantile autism? Pediatr Perinat Epidemiol. 2008;22:562-8.,1515. Duan G, Yao M, Ma Y, Zhang W. Perinatal and background risk factors for childhood autism in central China. Psychiatry Res. 2014;220:410-7.,2626. Amin SB, Smith T, Wang H. Is neonatal jaundice associated with Autism Spectrum Disorders: a systematic review. J Autism Dev Disord. 2011;41:1455-63. Amim et al. suggest that hyperbilirubinemia in premature and full-term infants in the neonatal period may be associated with ASD and indicate that variations in parity and time of birth may influence the extent to which jaundice is related to ASD.2626. Amin SB, Smith T, Wang H. Is neonatal jaundice associated with Autism Spectrum Disorders: a systematic review. J Autism Dev Disord. 2011;41:1455-63.
On the other hand, positive association between ASD and absence of crying at birth was not observed by other authors.66. George B, Padmam MS, Nair MK, Leena ML, Russell PS. CDC Kerala 13: Antenatal, natal and postnatal factors among children (2-6 y) with autism--a case control study. Indian J Pediatr. 2014;81 Suppl 2:S133-7.,1313. Zhang X, Lv CC, Tian J, Miao RJ, Xi W, Hertz-Picciotto I, et al. Prenatal and perinatal risk factors for autism in China. J Autism Dev Disord. 2010;40:1311-21. This variable may be related to other factors related to neonatal respiratory disorders, such as difficulty in initiating respiration, hypoxia and FD. These factors can result from a variety of gestational conditions and birth events that, at birth, can cause problems in the brain due to oxygen deprivation.99. Maramara LA, He W, Ming X. Pre-and perinatal risk factors for autism spectrum disorder in a New Jersey cohort. J Child Neurol. 2014;29:1645-51. In addition, anoxia provoked by asphyxia at birth could stimulate the dopaminergic system, and dopaminergic hyperactivity has been described in some children with ASD.1515. Duan G, Yao M, Ma Y, Zhang W. Perinatal and background risk factors for childhood autism in central China. Psychiatry Res. 2014;220:410-7. Therefore, these conditions may require the administration of oxygen, which, while inappropriately applied, may be toxic and cause serious consequences, such as tracheobronchitis, depression of mucociliary activity, nausea, anorexia and headache.2727. Camargo PA, Pinheiro AT, Hercos AC, Ferrari GF. Oxygen inhalation therapy in children admitted to an university hospital. Rev Paul Pediatr. 2008;26:43-7. Thus, both oxygen deprivation in the brain and its administration may be linked to ASD.
SGA, low BW and GA<37 weeks are other factors correlated with each other and associated with neonatal complications. In this study, no connection was observed between ASD and SGA, differing from other investigations.1111. Hultman CM, Sparén P, Cnattingius S. Perinatal risk factors for infantile autism. Epidemiology. 2002;13:417-23.,1212. Gardener H, Spiegelman D, Buka SL. Perinatal and neonatal risk factors for autism: a comprehensive meta-analysis. Pediatrics. 2011;128:344-55.,2828. Moore GS, Kneitel AW, Walker CK, Gilbert WM, Xing G. Autism risk in small- and large-for-gestational-age infants. Am J Obstet Gyneco. 2012;206:314.e1-9. Moore et al. found that the risk of ASD was increased in preterm SGA children at 23-33 weeks.2828. Moore GS, Kneitel AW, Walker CK, Gilbert WM, Xing G. Autism risk in small- and large-for-gestational-age infants. Am J Obstet Gyneco. 2012;206:314.e1-9. The association between SGA and ASD may reflect impairment to neurodevelopment, since the pathophysiology of limited fetal growth may be related to neurodevelopmental impairment. As for SGA, there is still restricted intrauterine growth - limited transport of nutrients and oxygen via the placenta may impede the growth potential of the fetus. This is also a condition associated with chronic hypoxia. Therefore, it is conceivable that restricted intrauterine growth may contribute to the manifestations of ASD observed in children born SGA.1818. Fezer GF, Matos MB, Nau AL, Zeigelboim BS, Marques JM, Liberalesso PB. Perinatal features of children with autism spectrum disorder. Rev Paul Pediatr. 2017;35:130-5.,2828. Moore GS, Kneitel AW, Walker CK, Gilbert WM, Xing G. Autism risk in small- and large-for-gestational-age infants. Am J Obstet Gyneco. 2012;206:314.e1-9.
BW and GA/prematurity are some of the most examined neonatal variables, and several studies have pointed them as risk factors for ASD.88. Larsson HJ, Eaton WW, Madsen KM, Vestergaard M, Olesen AV, Agerbo E, et al. Risk factors for autism: perinatal factors, parental psychiatric history, and socioeconomic status. Am J Epidemiol. 2005;161:916-25.,99. Maramara LA, He W, Ming X. Pre-and perinatal risk factors for autism spectrum disorder in a New Jersey cohort. J Child Neurol. 2014;29:1645-51.,1111. Hultman CM, Sparén P, Cnattingius S. Perinatal risk factors for infantile autism. Epidemiology. 2002;13:417-23.,1212. Gardener H, Spiegelman D, Buka SL. Perinatal and neonatal risk factors for autism: a comprehensive meta-analysis. Pediatrics. 2011;128:344-55.,1515. Duan G, Yao M, Ma Y, Zhang W. Perinatal and background risk factors for childhood autism in central China. Psychiatry Res. 2014;220:410-7.,2818. Fezer GF, Matos MB, Nau AL, Zeigelboim BS, Marques JM, Liberalesso PB. Perinatal features of children with autism spectrum disorder. Rev Paul Pediatr. 2017;35:130-5. In the present study, we observed an association with the BW variable only in the crude analysis; when the model was adjusted, it lost significance, suggesting that maternal age may have influenced the adjusted analysis, since older women may present more complications during pregnancy and childbirth.1111. Hultman CM, Sparén P, Cnattingius S. Perinatal risk factors for infantile autism. Epidemiology. 2002;13:417-23.,1212. Gardener H, Spiegelman D, Buka SL. Perinatal and neonatal risk factors for autism: a comprehensive meta-analysis. Pediatrics. 2011;128:344-55.,1515. Duan G, Yao M, Ma Y, Zhang W. Perinatal and background risk factors for childhood autism in central China. Psychiatry Res. 2014;220:410-7. Complications during labor may affect fetal/neonatal neurological development and contribute to the risk of ASD.77. Hadjkacem I, Ayadi H, Turki M, Yaich S, Khemekhem K, Walha A, et al. Prenatal, perinatal and postnatal factors associated with autism spectrum disorder. J Pediatr (Rio J). 2016;92:595-601.
Studies indicate that individuals who were born with GA≤37 weeks of gestation and/or BW of less than 2,500 g are more likely to develop ASD. A study performed with a preterm population found that the low end BW, between 750-1,499 g, is also associated with ASD.1616. Hwang YS, Weng SF, Cho CY, Tsai WH. Higher prevalence of autism in Taiwanese children born prematurely: a nationwide population-based study. Res Dev Disabil. 2013;34:2462-8. Fezer et al. found a high prevalence of prematurity, low BW and perinatal hypoxia in people with ASD when compared to the general population.1818. Fezer GF, Matos MB, Nau AL, Zeigelboim BS, Marques JM, Liberalesso PB. Perinatal features of children with autism spectrum disorder. Rev Paul Pediatr. 2017;35:130-5. Low BW and prematurity are two correlated factors that may be linked to other risk factors.99. Maramara LA, He W, Ming X. Pre-and perinatal risk factors for autism spectrum disorder in a New Jersey cohort. J Child Neurol. 2014;29:1645-51.,1010. Dodds L, Fell DB, Shea S, Armson BA, Allen AC, Bryson S. The role of prenatal, obstetric and neonatal factors in the development of autism. J Autism Dev Disord. 2011;41:891-902.,1111. Hultman CM, Sparén P, Cnattingius S. Perinatal risk factors for infantile autism. Epidemiology. 2002;13:417-23.,1212. Gardener H, Spiegelman D, Buka SL. Perinatal and neonatal risk factors for autism: a comprehensive meta-analysis. Pediatrics. 2011;128:344-55.,1313. Zhang X, Lv CC, Tian J, Miao RJ, Xi W, Hertz-Picciotto I, et al. Prenatal and perinatal risk factors for autism in China. J Autism Dev Disord. 2010;40:1311-21.,1414. Maimburg RD, Væth M, Schendel DE, Bech BH, Olsen J, Thorsen P. Neonatal jaundice: a risk factor for infantile autism? Pediatr Perinat Epidemiol. 2008;22:562-8.,1515. Duan G, Yao M, Ma Y, Zhang W. Perinatal and background risk factors for childhood autism in central China. Psychiatry Res. 2014;220:410-7.,1616. Hwang YS, Weng SF, Cho CY, Tsai WH. Higher prevalence of autism in Taiwanese children born prematurely: a nationwide population-based study. Res Dev Disabil. 2013;34:2462-8.,1717. McCue LM, Flick LH, Twyman KA, Xian H, Conturo TE. Prevalence of non-febrile seizures in children with idiopathic autism spectrum disorder and their unaffected siblings: a retrospective cohort study. BMC Neurol. 2016;16:245.,1818. Fezer GF, Matos MB, Nau AL, Zeigelboim BS, Marques JM, Liberalesso PB. Perinatal features of children with autism spectrum disorder. Rev Paul Pediatr. 2017;35:130-5. However, it is not yet established if prematurity and low BW exert a differential effect on the increase in cases of ASD, or if other related factors also contribute to this increase.2929. Schrieken M, Visser J, Oosterling I, van Steijn D, Bons D, Draaisma J, et al. Head circumference and height abnormalities in autism revisited: the role of pre- and perinatal risk factors. Eur Child Adolesc Psychiatry. 2013;22:35-43. It is worth noting that the relationship between prematurity and ASD can be mediated by prenatal and neonatal complications, which influence neurodevelopment,1818. Fezer GF, Matos MB, Nau AL, Zeigelboim BS, Marques JM, Liberalesso PB. Perinatal features of children with autism spectrum disorder. Rev Paul Pediatr. 2017;35:130-5. but Fezer et al. suggest that low BW may be associated with ASD, regardless of prematurity.1818. Fezer GF, Matos MB, Nau AL, Zeigelboim BS, Marques JM, Liberalesso PB. Perinatal features of children with autism spectrum disorder. Rev Paul Pediatr. 2017;35:130-5.
The presence of any type of infection at birth was another factor associated with ASD in the present study, as well as in the study by Hadjkacem et al.,77. Hadjkacem I, Ayadi H, Turki M, Yaich S, Khemekhem K, Walha A, et al. Prenatal, perinatal and postnatal factors associated with autism spectrum disorder. J Pediatr (Rio J). 2016;92:595-601. although Dodds et al. found no such association.1010. Dodds L, Fell DB, Shea S, Armson BA, Allen AC, Bryson S. The role of prenatal, obstetric and neonatal factors in the development of autism. J Autism Dev Disord. 2011;41:891-902. The most common infections seen in this population were those of the respiratory or urinary system, followed by generalized infections. These findings may be explained by the release of cytokines in the immune response to infections, affecting the proliferation and differentiation of neural cells, which may lead to the development of ASD.1818. Fezer GF, Matos MB, Nau AL, Zeigelboim BS, Marques JM, Liberalesso PB. Perinatal features of children with autism spectrum disorder. Rev Paul Pediatr. 2017;35:130-5. It should be noted that events that may be related to neonatal infections, such as the presence of fever and hospitalization in the ICU, were associated with ASD only in the bivariate analysis in the present study.
In this study, the percentage of children/adolescents with ASD (19.8%) who reported seizures was significantly higher when compared to those without ASD (4.0%), which corroborates the findings of Frye that children with ASD are more likely to develop seizures when compared to the general population.3030. Frye RE. Prevalence, significance and clinical characteristics of seizures, epilepsy and subclinical electrical activity in autism. N Am J Med Sci. 2015;8:113-22.
It was also observed in this study that the rate of children/adolescents with ASD (18.0%) who had two episodes of seizures during life was higher than those in the group without ASD (9.9%). In the adjusted analyzes, there was also a positive association between ASD and the occurrence of seizures, independently of the presence or absence of fever. Association with the same magnitude was noted in the study by McCue et al., who found that people with ASD were more likely to have non-febrile seizures compared to their siblings without ASD and suggested that non-febrile seizures may be related to ASD.1717. McCue LM, Flick LH, Twyman KA, Xian H, Conturo TE. Prevalence of non-febrile seizures in children with idiopathic autism spectrum disorder and their unaffected siblings: a retrospective cohort study. BMC Neurol. 2016;16:245. The age at onset of seizures is a critical factor for ASD or cognitive dysfunction, as the earlier the onset of seizures, the greater the damage to the social and behavioral deficit appears to be.3030. Frye RE. Prevalence, significance and clinical characteristics of seizures, epilepsy and subclinical electrical activity in autism. N Am J Med Sci. 2015;8:113-22. The relationship between ASD and seizures can be explained by structural changes in the prefrontal cortex and consequent changes in brain function generated by seizures.3131. Hartley-McAndrew ME, Weinstock A. Autism Spectrum Disorder: Correlation between aberrant behaviors, EEG abnormalities and seizures. Neurol Int. 2010;2:e10.
As for the number of postnatal complications, there was a positive association with ASD in both the group with one complication and the one with two or more complications, but the magnitude of the association was greater in the group of children/adolescents with two or more post-natal complications. These data reinforce the importance of monitoring children with one or more postnatal complications, since it may contribute to the identification of signs and to the early diagnosis of ASD.
Among the limitations of this study, one can point out the possibility of memory bias in the mothers’ responses. However, there was consistency between the mothers’ reports and the documents presented. Another limitation was the fact that the diagnosis was not made by this study’s research team, making it impossible to verify the adopted criterion. In addition, the use of M-CHAT to track children older than 30 months was another limitation, but the specific signs of ASD are expected to persist with increasing age when appropriate interventions are not performed.
The findings of the present study suggest that GMFD, JB, absence of crying at birth and episodes of seizure in childhood are important factors to be considered when studying the etiology of ASD. Children/adolescents with ASD were more likely to have been exposed to two or more postnatal complications. It is believed that the knowledge of the factors involved in the etiology of ASD can facilitate immediate diagnosis and intervention and, consequently, a better prognosis for people with ASD and support for the relatives, besides causing a reduction in public expenses.
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Funding
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Foundation for Research Support of Minas Gerais (FAPEMIG), Process no. CDS-APQ-02346-14 (Public Notice no. 01/2014 - Universal Demand).
Publication Dates
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Publication in this collection
18 July 2019 -
Date of issue
Oct-Dec 2019
History
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Received
26 Dec 2017 -
Accepted
07 July 2018 -
Published
10 July 2019