Extremely low gestational age and very low birthweight for gestational age are risk factors for autism spectrum disorder in a large cohort study of 10‐year‐old children born at 23–27 weeks’ gestation

[1]  R. Joseph,et al.  Prevalence and associated features of autism spectrum disorder in extremely low gestational age newborns at age 10 years , 2017, Autism research : official journal of the International Society for Autism Research.

[2]  A. Penn,et al.  Controversies in preterm brain injury , 2016, Neurobiology of Disease.

[3]  D. Fallin,et al.  Demographic profile of families and children in the Study to Explore Early Development (SEED): Case-control study of autism spectrum disorder. , 2016, Disability and health journal.

[4]  J. LaSalle,et al.  The landscape of DNA methylation amid a perfect storm of autism aetiologies , 2016, Nature Reviews Neuroscience.

[5]  A. Knight,et al.  Epigenetic Biomarkers of Preterm Birth and Its Risk Factors , 2016, Genes.

[6]  A. Guidotti,et al.  Merging data from genetic and epigenetic approaches to better understand autistic spectrum disorder , 2016, Epigenomics.

[7]  R. Saffery,et al.  Epigenetic regulation of human placental function and pregnancy outcome: considerations for causal inference. , 2015, American journal of obstetrics and gynecology.

[8]  A. McAllister,et al.  Immune mediators in the brain and peripheral tissues in autism spectrum disorder , 2015, Nature Reviews Neuroscience.

[9]  A. Hannan,et al.  The Role of Epigenetic Change in Autism Spectrum Disorders , 2015, Front. Neurol..

[10]  O. Ghribi,et al.  Epigenetics of inflammation, maternal infection, and nutrition. , 2015, The Journal of nutrition.

[11]  L. Barcellos,et al.  Immune mediated conditions in autism spectrum disorders , 2015, Brain, Behavior, and Immunity.

[12]  D. Ferriero,et al.  The role of inflammation in perinatal brain injury , 2015, Nature Reviews Neurology.

[13]  A. Leviton,et al.  Systemic Inflammation in the Extremely Low Gestational Age Newborn Following Maternal Genitourinary Infections , 2015, American journal of reproductive immunology.

[14]  Junko Matsuzaki,et al.  Retrospective diagnosis of congenital cytomegalovirus infection in children with autism spectrum disorder but no other major neurologic deficit , 2015, Brain and Development.

[15]  I. Hertz-Picciotto,et al.  Preeclampsia, placental insufficiency, and autism spectrum disorder or developmental delay. , 2015, JAMA pediatrics.

[16]  G. Hitman,et al.  Novel DNA methylation profiles associated with key gene regulation and transcription pathways in blood and placenta of growth-restricted neonates , 2015, Epigenetics.

[17]  D. Vanderveen,et al.  Prethreshold retinopathy in premature infants with intrauterine growth restriction , 2015, Acta paediatrica.

[18]  R. Menon,et al.  Preterm Birth and Its Long-Term Effects: Methylation to Mechanisms , 2014, Biology.

[19]  B. M. D. Tejada Antibiotic Use and Misuse during Pregnancy and Delivery: Benefits and Risks , 2014 .

[20]  G. Portella,et al.  Exposure to Varicella Zoster Virus is higher in children with autism spectrum disorder than in healthy controls. Results from a case-control study. , 2014, In vivo.

[21]  Allan W. Taylor,et al.  Validation of Self-reported Maternal and Infant Health Indicators in the Pregnancy Risk Assessment Monitoring System , 2014, Maternal and Child Health Journal.

[22]  B. Goldstein,et al.  Inflammation in children and adolescents with neuropsychiatric disorders: a systematic review. , 2014, Journal of the American Academy of Child and Adolescent Psychiatry.

[23]  Eileen M. Walsh,et al.  Prevalence and neonatal factors associated with autism spectrum disorders in preterm infants. , 2013, The Journal of pediatrics.

[24]  A. Leviton,et al.  Intermittent or Sustained Systemic Inflammation (ISSI) and the Preterm Brain , 2013, Pediatric Research.

[25]  R. Ehrenkranz,et al.  Risk Factors and Correlates of Neonatal Growth Velocity in Extremely Low Gestational Age Newborns. The ELGAN Study , 2013, Neonatology.

[26]  E. Gratacós,et al.  Neurodevelopmental outcome of full‐term small‐for‐gestational‐age infants with normal placental function , 2013, Ultrasound in obstetrics & gynecology : the official journal of the International Society of Ultrasound in Obstetrics and Gynecology.

[27]  S. Murphy,et al.  DNA methylation at imprint regulatory regions in preterm birth and infection. , 2013, American journal of obstetrics and gynecology.

[28]  A. Papageorghiou,et al.  Novel biomarkers for predicting intrauterine growth restriction: a systematic review and meta‐analysis , 2013, BJOG : an international journal of obstetrics and gynaecology.

[29]  Everett F Magann,et al.  Prenatal Detection of Fetal Growth Restriction in Newborns Classified as Small for Gestational Age: Correlates and Risk of Neonatal Morbidity , 2013, American Journal of Perinatology.

[30]  M. Pearce,et al.  No improvement in socioeconomic inequalities in birthweight and preterm birth over four decades: a population-based cohort study , 2013, BMC Public Health.

[31]  E. Susser,et al.  Deviance in fetal growth and risk of autism spectrum disorder. , 2013, The American journal of psychiatry.

[32]  T. O'Shea,et al.  Inflammation-initiating illnesses, inflammation-related proteins, and cognitive impairment in extremely preterm infants , 2013, Brain, Behavior, and Immunity.

[33]  L. Zwaigenbaum,et al.  Gestational age at birth and risk of autism spectrum disorders in Alberta, Canada. , 2013, The Journal of pediatrics.

[34]  F. Stanley,et al.  Maternal Conditions and Perinatal Characteristics Associated with Autism Spectrum Disorder and Intellectual Disability , 2013, PloS one.

[35]  Nigel Paneth,et al.  Two-hit model of brain damage in the very preterm newborn: small for gestational age and postnatal systemic inflammation , 2012, Pediatric Research.

[36]  M. Feldkamp,et al.  Self-reported maternal smoking during pregnancy by source in Utah, 2003-2007. , 2012, Birth defects research. Part A, Clinical and molecular teratology.

[37]  R. Araya,et al.  Parental socioeconomic status and risk of offspring autism spectrum disorders in a Swedish population-based study. , 2012, Journal of the American Academy of Child and Adolescent Psychiatry.

[38]  T. O'Shea,et al.  Systemic responses of preterm newborns with presumed or documented bacteraemia , 2012, Acta paediatrica.

[39]  G. Xing,et al.  Autism risk in small- and large-for-gestational-age infants. , 2012, American journal of obstetrics and gynecology.

[40]  David Cohen,et al.  Pre‐, peri‐ and neonatal risk factors for autism , 2012, Acta obstetricia et gynecologica Scandinavica.

[41]  S. Brown,et al.  Assessing obstetric risk factors for maternal morbidity: congruity between medical records and mothers' reports of obstetric exposures. , 2012, American journal of obstetrics and gynecology.

[42]  P. Lichtenstein,et al.  Lower birth weight indicates higher risk of autistic traits in discordant twin pairs , 2011, Psychological Medicine.

[43]  J. Duker,et al.  Neonatal bacteremia and retinopathy of prematurity: the ELGAN study. , 2011, Archives of ophthalmology.

[44]  D. Spiegelman,et al.  Perinatal and Neonatal Risk Factors for Autism: A Comprehensive Meta-analysis , 2011, Pediatrics.

[45]  R. Ehrenkranz,et al.  Blood Protein Concentrations in the First Two Postnatal Weeks That Predict Bronchopulmonary Dysplasia Among Infants Born Before the 28th Week of Gestation , 2011, Pediatric Research.

[46]  A. Leviton,et al.  Presumed and definite bacteremia in extremely low gestational age newborns , 2011, Acta paediatrica.

[47]  D. Hirtz,et al.  Early blood gas abnormalities and the preterm brain. , 2010, American journal of epidemiology.

[48]  R. Ehrenkranz,et al.  Does bronchopulmonary dysplasia contribute to the occurrence of cerebral palsy among infants born before 28 weeks of gestation? , 2010, Archives of Disease in Childhood: Fetal and Neonatal Edition.

[49]  R. Ehrenkranz,et al.  Antecedents of chronic lung disease following three patterns of early respiratory disease in preterm infants , 2010, Archives of Disease in Childhood: Fetal and Neonatal Edition.

[50]  J. Cecatti,et al.  Development and validation of a questionnaire to identify severe maternal morbidity in epidemiological surveys , 2010, Reproductive health.

[51]  N. Marlow,et al.  Autism spectrum disorders in extremely preterm children. , 2010, The Journal of pediatrics.

[52]  D. Hirtz,et al.  The ELGAN study of the brain and related disorders in extremely low gestational age newborns. , 2009, Early human development.

[53]  T. O'Shea,et al.  SNAP-II and SNAPPE-II and the Risk of Structural and Functional Brain Disorders in Extremely Low Gestational Age Newborns: The ELGAN Study , 2009, Neonatology.

[54]  R. Ehrenkranz,et al.  Chronic Lung Disease and Developmental Delay at 2 Years of Age in Children Born Before 28 Weeks' Gestation , 2009, Pediatrics.

[55]  A. Leviton,et al.  Perinatal Correlates of Ureaplasma urealyticum in Placenta Parenchyma of Singleton Pregnancies That End Before 28 Weeks of Gestation , 2009, Pediatrics.

[56]  R. Ehrenkranz,et al.  Patterns of Respiratory Disease During the First 2 Postnatal Weeks in Extremely Premature Infants , 2009, Pediatrics.

[57]  S. Chauhan,et al.  Intrauterine growth restriction: comparison of American College of Obstetricians and Gynecologists practice bulletin with other national guidelines. , 2009, American journal of obstetrics and gynecology.

[58]  T. Einarson,et al.  Methods for Quantification of Exposure to Cigarette Smoking and Environmental Tobacco Smoke: Focus on Developmental Toxicology , 2009, Therapeutic drug monitoring.

[59]  D. Roberts,et al.  Histological characteristics of singleton placentas delivered before the 28th week of gestation , 2008, Pathology.

[60]  D. Schendel,et al.  Birth Weight and Gestational Age Characteristics of Children With Autism, Including a Comparison With Other Developmental Disabilities , 2008, Pediatrics.

[61]  S. Devaskar,et al.  Histone Code Modifications Repress Glucose Transporter 4 Expression in the Intrauterine Growth-restricted Offspring* , 2008, Journal of Biological Chemistry.

[62]  C. Livasy,et al.  Characterization of Chorioamnionitis in 2nd-Trimester C-Section Placentas and Correlation with Microorganism Recovery from Subamniotic Tissues , 2008, Pediatric and developmental pathology : the official journal of the Society for Pediatric Pathology and the Paediatric Pathology Society.

[63]  E. Allred,et al.  Reference weights for placentas delivered before the 28th week of gestation. , 2007, Placenta.

[64]  Alexander Kolevzon,et al.  Prenatal and perinatal risk factors for autism: a review and integration of findings. , 2007, Archives of pediatrics & adolescent medicine.

[65]  C. Corsello,et al.  Combining information from multiple sources in the diagnosis of autism spectrum disorders. , 2006, Journal of the American Academy of Child and Adolescent Psychiatry.

[66]  B. Reichman,et al.  Prematurity and intrauterine growth retardation--double jeopardy? , 2004, Clinics in perinatology.

[67]  G. Sysyn,et al.  Abnormal fetal growth: intrauterine growth retardation, small for gestational age, large for gestational age. , 2004, Pediatric clinics of North America.

[68]  P. Raina,et al.  Validation of a model of gross motor function for children with cerebral palsy. , 2000, Physical therapy.

[69]  P. Doubilet,et al.  Maternal Infection, Fetal Inflammatory Response, and Brain Damage in Very Low Birth Weight Infants , 1999, Pediatric Research.

[70]  N. Paneth,et al.  Antenatal corticosteroids and cranial ultrasonographic abnormalities. , 1999, American journal of obstetrics and gynecology.

[71]  N. Paneth,et al.  Does the LOSS of Plocentol Hormones Contribute to Neuro‐developmental Disabilities in Preterm infants? , 1994, Developmental medicine and child neurology.

[72]  M. Kramer,et al.  Very low birth weight: a problematic cohort for epidemiologic studies of very small or immature neonates. , 1991, American journal of epidemiology.

[73]  R. Kliegman,et al.  Neonatal necrotizing enterocolitis: Pathogenesis, classification, and spectrum of illness , 1987, Current Problems in Pediatrics.

[74]  L. Dales,et al.  An improper use of statistical significance testing in studying covariables. , 1978, International journal of epidemiology.

[75]  M. Grzybowski,et al.  The antecedents and correlates of necrotizing enterocolitis and spontaneous intestinal perforation among infants born before the 28th week of gestation. , 2016, Journal of neonatal-perinatal medicine.

[76]  T. O'Shea,et al.  The Development of Extremely Preterm Infants Born to Women Who Had Genitourinary Infections During Pregnancy. , 2016, American journal of epidemiology.

[77]  Goran Arbanas Diagnostic and Statistical Manual of Mental Disorders (DSM-5) , 2015 .

[78]  R. Heshmat,et al.  Association of self-reported passive smoking in pregnant women with cotinine level of maternal urine and umbilical cord blood at delivery. , 2012, Paediatric and perinatal epidemiology.

[79]  T. O'Shea,et al.  Microbiologic and Histologic Characteristics of the Extremely Preterm Infant's Placenta Predict White Matter Damage and Later Cerebral Palsy. The ELGAN Study , 2010, Pediatric Research.

[80]  A. Leviton,et al.  Detection of bacteria in placental tissues obtained from extremely low gestational age neonates. , 2008, American journal of obstetrics and gynecology.

[81]  A. Leviton,et al.  The wealth of information conveyed by gestational age. , 2005, The Journal of pediatrics.

[82]  G. Escobar,et al.  SNAP-II and SNAPPE-II: Simplified newborn illness severity and mortality risk scores. , 2001, The Journal of pediatrics.

[83]  S. Bain Differential Ability Scales , 1991 .

[84]  A. Wilkinson,et al.  New birthweight and head circumference centiles for gestational ages 24 to 42 weeks. , 1987, Early human development.

[85]  I. Nissenkorn,et al.  An international classification of retinopathy of prematurity , 1984 .

[86]  A. Leviton,et al.  American Journal of Epidemiology Original Contribution Pregnancy Disorders That Lead to Delivery before the 28th Week of Gestation: an Epidemiologic Approach to Classification , 2022 .