Bayley Scales of Infant and Development – 3nd edition (Bayley-III) |
Evaluates infant development in five domains: cognitive, language, motor, socio-emotional and adaptive behavior. |
Nielsen-Saines et al.88 Nielsen-Saines K, Brasil P, Kerin T, Vasconcelos Z, Gabaglia CR, Damasceno L, et al. Delayed childhood neurodevelopment and neurosensory alterations in the second year of life in a prospective cohort of ZIKV-exposed children. Nat Med. 2019; 25 (8): 1213-7.
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Delayed childhood neurodevelopment and neurosensory alterations in the second year of life in a prospective cohort of ZIKV - exposed children |
Einspieler et al.99 Einspieler C, Utsch F, Brasil P, Panvequio Aizawa C Y, Peyton C, Hydee Hasue R, et al. Association of Infants Exposed to Prenatal Zika Virus Infection With Their Clinical, Neurologic, and Developmental Status Evaluated via the General Movement Assessment Tool. JAMA Netw Open. 2019; 2 (1): e187235.
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Association of infants exposed to prenatal Zika virus infection with their clinical, neurologic, and developmental status evaluated via the general movement assessment tool |
Carvalho et al.2828 Carvalho AL, Ventura P, Taguchi T, Brandi I, Brites C, Lucena R. Cerebral Palsy in Children With Congenital Zika Syndrome: A 2-Year Neurodevelopmental Follow-up. J Child Neurol. 2020; 35 (3): 202-7.
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Cerebral palsy in children with congenital Zika syndrome: a 2-year neurodevelopmental follow-up |
Carvalho et al.1717 Carvalho A, Brites C, Mochida G, Ventura P, Fernandes A, Lage ML, et al. Clinical and neurodevelopmental features in children with cerebral palsy and probable congenital zika. Brain Dev. 2019; 41 (7): 587-94.
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Clinical and neurodevelopmental features in children with cerebral palsy and probable congenital Zika |
Carvalho et al.2929 Carvalho AL, Brites C, Taguchi TB, Pinho SF, Campos G, Lucena R. Congenital Zika virus infection with normal neurodevelopmental outcome, Brazil. Emerg Infect Dis. 2018; 24 (11): 2128-30.
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Congenital Zika virus infection with normal neurodevelopmental outcome, Brazil |
Marques et al.2525 Marques FJP, Teixeira MCS, Barra RR, Lima FM, Dias BLS, Pupe C, et al. Children Born With Congenital Zika Syndrome Display Atypical Gross Motor Development and a Higher Risk for Cerebral Palsy. J Child Neurol. 2019; 34 (2): 81-5.
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Children born with congenital zika syndrome display atypical gross motor development and a higher risk for cerebral palsy |
Gerzson et al.3434 Gerzson LR, Almeida CS, Silva JHD, Feitosa MMA, Oliveira LN, Schuler-Faccini L. Neurodevelopment of Nonmicrocephalic Children, After 18 Months of Life, Exposed Prenatally to Zika Virus. J Child Neurol. 2020; 35 (4): 278-82.
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Neurodevelopment of nonmicrocephalic children, after 18 months of life, exposed prenatally to Zika virus |
Moreira et al.2727 Lopes Moreira ME, Nielsen-Saines K, Brasil P, Kerin T, Damasceno L, Pone M, et al. Neurodevelopment in Infants Exposed to Zika Virus In Utero. N Engl J Med. 2018; 379 (24): 2377-9.
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Neurodevelopment in infants exposed to zika virus in utero |
França et al.3232 França TLB, Medeiros WR, Souza NL, Longo E, Pereira SA, França TBO, et al. Growth and Development of Children with Microcephaly Associated with Congenital Zika Virus Syndrome in Brazil. Int J Environ Res Public Health. 2018 Sep; 15 (9): 1990.
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Growth and development of children with microcephaly associated with congenital Zika virus syndrome in Brazil |
Faiçal et al.3030 Faiçal AV, Oliveira JC, Oliveira JVV, Almeida BL, Agra IA, Alcantara LCJ, et al. Neurodevelopmental delay in normocephalic children with in utero exposure to Zika virus. BMJ paediatrics open. 2019; 3 (1): e000486.
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Neurodevelopmental delay in normocephalic children with in utero exposure to Zika virus |
Gross Motor Function Measure (GMFM-66) |
Measurement of gross motor function in palsy (motor performance in five dimensions: laying and rolling; sitting down; crawling and kneeling; standing, running and jumping). |
Ventura et al.2424 Ventura PA, Lage M-LC, Carvalho AL, Fernandes AS, Taguchi TB, Nascimento-Carvalho CM. Early Gross Motor Development Among Brazilian Children with Microcephaly Born Right After Zika Virus Infection Outbreak. J Dev Behav Pediatr. 2020; 41 (2): 134-40.
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Early gross motor development among Brazilian children with microcephaly born right after Zika virus infection outbreak |
Gross Motor Function Measure (GMFM-88) |
Measurement of gross motor function in palsy (motor performance in five dimensions: laying and rolling; sitting down; crawling and kneeling; standing, running and jumping). |
Melo et al.1111 Melo A, Gama GL, Silva Júnior RA, Assunção PL, Tavares JS, Silva MB, et al. Motor function in children with congenital Zika syndrome. Dev Med Child Neurol. 2020; 62 (2): 221-6.
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Motor function in children with congenital Zika syndrome |
Ferreira et al.2020 Ferreira HNC, Schiariti V, Regalado ICR, Sousa KG, Pereira SA, Fechine C, et al. Functioning and Disability Profile of Children with Microcephaly Associated with Congenital Zika Virus Infection. Int J Environ Res Public Health. 2018 May; 15 (6): 1107.
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Functioning and disability profile of children with microcephaly associated with congenital Zika virus infection |
Gross Motor Function Classification System (GMFCS) |
Classifies gross motor function of children with cerebral palsy in five levels: level I are mildly affected (marching prognosis), at level V the impairment is severe (use of wheelchair for locomotion). |
Melo et al.1111 Melo A, Gama GL, Silva Júnior RA, Assunção PL, Tavares JS, Silva MB, et al. Motor function in children with congenital Zika syndrome. Dev Med Child Neurol. 2020; 62 (2): 221-6.
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Motor function in children with congenital zika syndrome |
Ventura et al.2424 Ventura PA, Lage M-LC, Carvalho AL, Fernandes AS, Taguchi TB, Nascimento-Carvalho CM. Early Gross Motor Development Among Brazilian Children with Microcephaly Born Right After Zika Virus Infection Outbreak. J Dev Behav Pediatr. 2020; 41 (2): 134-40.
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Early gross motor development among Brazilian children with microcephaly born right after Zika virus infection outbreak |
Carvalho et al.2828 Carvalho AL, Ventura P, Taguchi T, Brandi I, Brites C, Lucena R. Cerebral Palsy in Children With Congenital Zika Syndrome: A 2-Year Neurodevelopmental Follow-up. J Child Neurol. 2020; 35 (3): 202-7.
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Cerebral palsy in children with congenital Zika syndrome: a 2-year neurodevelopmental follow-up |
Carvalho et al.1717 Carvalho A, Brites C, Mochida G, Ventura P, Fernandes A, Lage ML, et al. Clinical and neurodevelopmental features in children with cerebral palsy and probable congenital zika. Brain Dev. 2019; 41 (7): 587-94.
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Clinical and neurodevelopmental features in children with cerebral palsy and probable congenital Zika |
Einspieler et al.99 Einspieler C, Utsch F, Brasil P, Panvequio Aizawa C Y, Peyton C, Hydee Hasue R, et al. Association of Infants Exposed to Prenatal Zika Virus Infection With Their Clinical, Neurologic, and Developmental Status Evaluated via the General Movement Assessment Tool. JAMA Netw Open. 2019; 2 (1): e187235.
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Association of infants exposed to prenatal Zika virus infection with their clinical, neurologic, and developmental status evaluated via the general movement assessment tool |
Denver Developmental Screening Test II (Denver II) |
Tool for early screening of development conditions, assessing four areas/categories: gross motor, fine adaptive motor, language and personal-social. |
Avelino et al.1919 Avelino MOA, Ferraz PCS. Análise do desenvolvimento neuropsicomotor em crianças com síndrome pósz ika vírus: um estudo transversal. Rev Pesq Fisioter. 2018; 8 (2): 147-54.
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Analysis of neuropsychomotor development in children with congenital Zika syndrome: a cross-sectional study |
Alves et al.2121 Alves LA, Paredes EC, Silva GC, Mello JG, GJ Alves. Neurodevelopment of 24 children born in Brazil with congenital Zika syndrome in 2015: A case series study. BMJ Open. 2018; 8 (7): e021304.
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Neurodevelopment of 24 children born in Brazil with congenital Zika syndrome in 2015: a case series study |
Alberta Infant Motor Scale (AIMS) |
Evaluates the sequence of motor development and control of antigravity muscles, considers four subscales: prone, supine, sitting and standing. |
Marques et al.2525 Marques FJP, Teixeira MCS, Barra RR, Lima FM, Dias BLS, Pupe C, et al. Children Born With Congenital Zika Syndrome Display Atypical Gross Motor Development and a Higher Risk for Cerebral Palsy. J Child Neurol. 2019; 34 (2): 81-5.
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Children born with congenital Zika syndrome display atypical gross motor development and a higher risk for cerebral palsy |
Soares-Marangoni et al.3333 Soares-Marangoni DA, Tedesco NM, Nascimento AL, Almeida PR, Santos Pereira CND. General movements and motor outcomes in two infants exposed to Zika virus: brief report. Dev Neurorehabil. 2019 Jan; 22 (1): 71-4.
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General movements and motor outcomes in two infants exposed to Zika virus: brief report |
Mulkey et al.2626 Mulkey SB, Arroyave-Wessel M, Peyton C, Bulas DI, Fourzali Y, Jiang J, et al. Neurodevelopmental Abnormalities in Children With In Utero Zika Virus Exposure Without Congenital Zika Syndrome. JAMA Pediatr. 2020; 174 (3): 269-76.
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Neurodevelopmental abnormalities in children within utero Zika virus exposure without congenital Zika syndrome |
General Movements Assessment (GMA) |
Assessment of general movements. Predictive assessment for cerebral palsy detection. |
Einspieler et al.99 Einspieler C, Utsch F, Brasil P, Panvequio Aizawa C Y, Peyton C, Hydee Hasue R, et al. Association of Infants Exposed to Prenatal Zika Virus Infection With Their Clinical, Neurologic, and Developmental Status Evaluated via the General Movement Assessment Tool. JAMA Netw Open. 2019; 2 (1): e187235.
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Association of infants exposed to prenatal Zika virus infection with their clinical, neurologic, and developmental status evaluated via the general movement assessment tool |
Soares-Marangoni et al.3333 Soares-Marangoni DA, Tedesco NM, Nascimento AL, Almeida PR, Santos Pereira CND. General movements and motor outcomes in two infants exposed to Zika virus: brief report. Dev Neurorehabil. 2019 Jan; 22 (1): 71-4.
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General movements and motor outcomes in two infants exposed to Zika virus: brief report |
Social and Ages and Stages Social (ASQ-3) |
Evaluates development in five dimensions communication, gross motor, fine motor, problem solving and personal/social. |
Wheeler et al.3131 Wheeler AC, Ventura CV, Ridenour T, Toth D, Nobrega LL, Dantas LCSS, et al. Skills attained by infants with congenital Zika syndrome: Pilot data from Brazil. PLoS One. 2018 Jul; 13 (7): e0201495.
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Skills attained by infants with congenital Zika syndrome: Pilot data from Brazil |
Satterfield-Nash et al.2222 Satterfield-Nash A, Kotzky K, Allen J, Bertolli J, Moore CA, Pereira IO, et al. Health and Development at Age 19-24 Months of 19 Children Who Were Born with Microcephaly and Laboratory Evidence of Congenital Zika Virus Infection During the 2015 Zika Virus Outbreak - Brazil, 2017. MMWR Morb Mortal Wkly Rep. 2017; 66 (49): 1347-51.
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Health and development at age 19–24 months of 19 children who were born with microcephaly and laboratory evidence of congenital zika virus infection during the 2015 Zika virus outbreak - Brazil, 2017 |
Hammersmith Infant Neurological Examination (HINE) |
Predictive assessment for cerebral palsy detection. Assesses the domains: posture and tone, reflexes, movements, abnormal standards and signs, orientation and behavior. |
Carvalho et al.2828 Carvalho AL, Ventura P, Taguchi T, Brandi I, Brites C, Lucena R. Cerebral Palsy in Children With Congenital Zika Syndrome: A 2-Year Neurodevelopmental Follow-up. J Child Neurol. 2020; 35 (3): 202-7.
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Cerebral palsy in children with congenital Zika syndrome: a 2-year neurodevelopmental follow-up |
Satterfield-Nash et al.2222 Satterfield-Nash A, Kotzky K, Allen J, Bertolli J, Moore CA, Pereira IO, et al. Health and Development at Age 19-24 Months of 19 Children Who Were Born with Microcephaly and Laboratory Evidence of Congenital Zika Virus Infection During the 2015 Zika Virus Outbreak - Brazil, 2017. MMWR Morb Mortal Wkly Rep. 2017; 66 (49): 1347-51.
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Health and development at age 19–24 months of 19 children who were born with microcephaly and laboratory evidence of congenital zika virus infection during the 2015 Zika virus outbreak - Brazil, 2017 |
Nielsen-Saines et al.88 Nielsen-Saines K, Brasil P, Kerin T, Vasconcelos Z, Gabaglia CR, Damasceno L, et al. Delayed childhood neurodevelopment and neurosensory alterations in the second year of life in a prospective cohort of ZIKV-exposed children. Nat Med. 2019; 25 (8): 1213-7.
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Delayed childhood neurodevelopment and neurosensory alterations in the second year of life in a prospective cohort of ZIKV - exposed children |
Pediatric Evaluation of Disability Inventory (PEDI) |
Measures functional skills in three dimensions: self-care, mobility and social function; considers the help provided by caregivers. |
Lima et al.1818 Lima DLP, Correia MLGCD, Monteiro MG, Ferraz KM, Wiesiolek CC. Análise do desempenho funcional de lactentes com síndrome congênita do zika: estudo longitudinal. Fisioter Pesq. 2019; 26 (2): 145-50.
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Analysis of the functional performance of infants with congenital Zika syndrome: a longitudinal study |
Test of Infant Motor Performance (TIMP) |
Motor performance and posture control in the categories: sustaining posture; recovering posture, transition between postures, integration of dynamic postures. |
Botelho et al.2323 Botelho ACG, Neri LV, Silva MQF, Lima TT, Santos KG, Cunha RMA, et al. Presumed congenital infection by Zika virus: findings on psychomotor development - a case report. Rev bras saúde matern infant. 2016;16 (Supl. 1): 39-44.
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Presumed congenital infection by Zika virus: findings on psychomotor development - a case report |
Warner Initial Developmental Evaluation of Adaptive and Functional Skills (WIDEA) |
Evaluates skills in the following domains: self-care, mobility, communication and social cognition. |
Mulkey et al.2626 Mulkey SB, Arroyave-Wessel M, Peyton C, Bulas DI, Fourzali Y, Jiang J, et al. Neurodevelopmental Abnormalities in Children With In Utero Zika Virus Exposure Without Congenital Zika Syndrome. JAMA Pediatr. 2020; 174 (3): 269-76.
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Neurodevelopmental abnormalities in children within utero Zika virus exposure without congenital Zika syndrome |