Olusanya B, Davis A, Wertlieb D, Boo N, Nair M, Halpern R et al. Developmental disabilities among children younger than 5 years in 195 countries and territories, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016. The Lancet Global Health. 2018;6(10):e1100-e1121.
Bornstein M, Hendricks C. Screening for Developmental Disabilities in Developing Countries. NIH Public Access Author Manuscript. 2013;97:1-20.
Lazcano-Ponce E, Katz G, Allen-Leigh B, Magaña Valladares L, Rangel-Eudave G, Minoletti A, et al. Trastornos del desarrollo intelectual en América Latina: un marco para establecer prioridades políticas de investigación y atención. Rev Panam Salud Pública. 2013;34(3):204–9.
Molina H, Bedregal P, Margozzini P. Revision sistematica sobre eficacia y costo de intervenciones para el desarollo biosicosocial de la niñez. OPS/OMS - Programa de salud familiar y comunitaria y salud del niño y del adolescente. Santiago de Chile: Tierra Mia; 2002
Ríos-Flórez J, López-Gutiérrez C. Neurobiología de los trastornos del aprendizaje y sus implicaciones en el desarrollo infantil: propuesta de una nueva perspectiva conceptual. Revista Psicoespacios. 2017;11(19). Available from https://doi.org/10.25057/issn.2145-2776
Lejarraga D. Genética del desarrollo y la conducta. Sociedad Argentina de Pediatría, [online]. 2010;108(4):331-6. Available at: https://www.sap.org.ar/docs/publicaciones/archivosarg/2010/v108n4a08.pdf [Accessed 15th Dec. 2019].
Carballal Mariño M, Gago Ageitos A, Ares Alvárez J, del Rio Garma M, García Cendón C, Goicoechea Castaño A, et al. Prevalencia de trastornos del neurodesarrollo, comportamiento y aprendizaje en Atención Primaria. J. Anpedi 2018;89(3):153-61.
Más del 4 % de la población mundial tiene TDAH - Fundación INECO [Internet]. Fundación INECO. 2019 [cited 18 December 2019]. Available from: https://www.fundacionineco.org/mas-del-4-de-la-poblacion-mundial-tiene-tdah/
Rathore F, Mansoor S. Developmental milestones: Even the Physicians don’t know enough and what we need to do? J Pak Med Assoc. 2013;5(63):132-3.
Trastornos del espectro autista [Internet]. Who.int. 2019 [cited 18 December 2019]. Available from: https://www.who.int/es/news-room/fact-sheets/detail/autism-spectrum-disorders
Li D, Karnath H-O, Xu X. Candidate biomarkers in children with autism spectrum disorder: a review of MRI studies. Neuroscience bulletin. 2017;1–19. Doi 10.1007/s12264-017-0118-1
Jann K, Hernández LM, Beck-Pancer D, McCarron R, Smith RX, Dapretto M, et al. Altered resting perfusion and functional connectivity of default mode network in youth with autism spectrum disorder. Brain and behavior. 2015;5(9). Doi: 10.1002/brb3.358
Chen S, Xing Y, Kang J. Latent and Abnormal Functional Connectivity Circuits in Autism Spectrum Disorder. Frontiers in Neuroscience. 2017;11:125. Doi: 10.3389/fnins. 2017.00125
Hull JV, Jacokes ZJ, Torgerson CM, Irimia A, Van Horn JD. Resting-State Functional Connectivity in Autism Spectrum Disorders: A Review. Frontiers in psychiatry. 2016;7:205. Doi: 10.3389/fpsyt.2016.00205
Slattery J, MacFabe D, Kahler S, Frye R. Enteric Ecosystem Disruption in Autism Spectrum Disorder: Can the Microbiota and Macrobiota be Restored? Current Pharmaceutical Design. 2016;22(40):6107–21. Doi:10.2174/1381612822666160905123953
Li Q, Han Y, Dy ABC and Hagerman RJ. The Gut Microbiota and Autism Spectrum Disorders. Front. Cell. Neurosci. 2017;11:120. Doi: 10.3389/fncel.2017.00120
Gwatkin, DR, Rutstein S, Johnson K, Suliman E, Wagstaff A, Amouzou A. Socio-economic differences in health, nutrition, and population within developing countries; 2007. Retrieved March 13, 2012 from http://siteresources.worldbank.org/INTPAH/Resources/IndicatorsOverview.pdf
Dercon S, Krishnan P. Poverty and the psychosocial competencies of children: Evidence from the Young Lives Sample in four developing countries. Children, Youth and Environments. 2009;19:138–63.
Park S, Bellinger DC, Adamo M, Bennett B, Choi NK, Baltazar PI et al. Pathways from Early Gestation Through Infancy and Neurodevelopment. Pediatrics 2016;138. Doi: 10.1542/peds.2016-1843
Chai LR, Khambhati AN, Ciric R, Moore TM, Gur RC, Gur RE, et al. Evolution of brain network dynamics in neurodevelopment. Network Neuroscience. 2017 Feb;1(1):14–30. Doi: http://doi.org/10.1162/netn_a_00001
Takano T, Funahashi Y, Kaibuchi K. Neuronal Polarity: Positive and Negative Feedback Signals. Frontiers in Cell and Developmental Biology. 2019 Apr 24;7. Available from: https://www.frontiersin.org/article/10.3389/fcell. 2019.00069/full
Stiles J, Jernigan TL. The Basics of Brain Development. Neuropsychology Review. 2010 Dec;20(4):327–48. Doi 10.1007/s11065-010-9148-4
Johnson SB, Riis JL, Noble KG. State of the Art Review: Poverty and the Developing Brain. Pediatrics. 2016 Apr 1;137(4):e20153075–e20153075. Doi: 10.1542/peds.2015-3075
Cariaga-Martínez A, Gutiérrez K, Alelú-Paz R. The Vast Complexity of the Epigenetic Landscape during Neurodevelopment: An Open Frame to Understanding Brain Function. International Journal of Molecular Sciences. 2018 May 1;19(5):1333.
Yentur Doni N, Yildiz Zeyrek F, Simsek Z, Gurses G, Sahin I. Risk Factors and Relationship Between Intestinal Parasites and the Growth Retardation and Psychomotor Development Delays of Children in Şanlıurfa, Turkey. Turkiye Parazitol Derg. 2016 Jan 26;39(4):270–6. Doi: 10.5152/tpd.2015.3620
Kvestad I, Taneja S, Hysing M, Kumar T, Bhandari N, Strand TA. Diarrhea, Stimulation and Growth Predict Neurodevelopment in Young North Indian Children. van Wouwe J, editor. PLOS ONE. 2015 Mar 31;10(3):e0121743. Doi:10.1371/journal.pone.0121743
Logan AC. Dysbiotic drift: mental health, environmental grey space, and microbiota. J Physiol Anthropol. 2015 Dec;34(1). Available from https://doi.org/10.1186/s40101-015-0061-7
Berry D, Blair C, Willoughby M, Garrett-Peters P, Vernon-Feagans L, Mills-Koonce WR. Household chaos and children’s cognitive and socio-emotional development in early childhood: Does childcare play a buffering role? Early Childhood Research Quarterly. 2016;34:115–27.
Yuan J, Wang J, Ma J, Zhu D, Zhang Z, Li J. Peadiatric cerebral palsy prevalence and high-risk factors in Henan Province, Central China. J Rehabil Med. 2019;51(1):47-53.
Dagvadorj A, Ganbaatar D, O. Balogun O, Yonemoto N, Bavuusuren B, Takehara K, et al. Maternal socio-demographic and psychological predictors for risk of developmental delays among young children in Mongolia. BMC Pediatrics [Internet]. 201818(1). Available from: https://bmcpediatr.biomedcentral.com/articles/10.1186/s12887-018-1017-y
Razaz N, Boyce WT, Brownell M, Jutte D, Tremlett H, Marrie RA, et al. Five-minute Apgar score as a marker for developmental vulnerability at 5 years of age. Arch Dis Child Fetal Neonatal Ed. 2016;101(2):F114–20.
Johnson S, Evans TA, Draper ES, Field DJ, Manktelow BN, Marlow N, et al. Neurodevelopmental outcomes following late and moderate prematurity: a population-based cohort study. Arch Dis Child Fetal Neonatal Ed. 2015; 100(4):F301–8.
Linsell L, Malouf R, Morris J, Kurinczuk JJ, Marlow N. Prognostic Factors for Poor Cognitive Development in Children Born Very Preterm or With Very Low Birth Weight: A Systematic Review. JAMA Pediatrics. 2015;169(12):1162.
Schonhaut L, Armijo I, Perez M. Gestational Age and Developmental Risk in Moderately and Late Preterm and Early Term Infants. PEDIATRICS. 2015;135(4):e835–41.
Murray E, Fernandes M, Fazel M, Kennedy S, Villar J, Stein A. Differential effect of intrauterine growth restriction on childhood neurodevelopment: a systematic review. BJOG. 2015;122(8):1062–72.
Forthun I, Strandberg-Larsen K, Wilcox AJ, Moster D, Petersen TG, Vik T, et al. Parental socioeconomic status and risk of cerebral palsy in the child: evidence from two Nordic population-based cohorts. Int J Epidemiol. 2018; 47(4):1298–306.
