Early visual training and environmental adaptation for infants with visual impairment

Elisa Fazzi; Serena Micheletti; Stefano Calza; Lotfi Merabet; Andrea Rossi; Jessica Galli; Patrizia Accorsi; Anna Alessandrini; Alice Bertoletti; Elena Campostrini; Nicole D’Adda; Alessandra Franzoni; Elisa Fumagalli; Erica Grassi Scalvini; Paola Martelli; Melissa Marras; Anna Molinaro; Mario Motta; Nadia Pasini; Lorenzo Pinelli; Francesco Semeraro

doi:10.1111/dmcn.14865

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References (134)

Elizabeth Dennison (2015)
Book Review: Vision and the Brain: Understanding Cerebral Visual Impairment in Children
Journal of Visual Impairment & Blindness, 109
E. Fazzi, S. Signorini, R. Piana, C. Bertone, W. Misefari, J. Galli, U. Balottin, P. Bianchi (2012)
Neuro‐ophthalmological disorders in cerebral palsy: ophthalmological, oculomotor, and visual aspects
Developmental Medicine & Child Neurology, 54
( Yin W , Chen MH , Hung SC , Baluyot KR , Li T , Lin W . Brain functional development separates into three distinct time periods in the first two years of life. NeuroImage 2019; 189: 715–26.30641240)
Yin W , Chen MH , Hung SC , Baluyot KR , Li T , Lin W . Brain functional development separates into three distinct time periods in the first two years of life. NeuroImage 2019; 189: 715–26.30641240
Yin W , Chen MH , Hung SC , Baluyot KR , Li T , Lin W . Brain functional development separates into three distinct time periods in the first two years of life. NeuroImage 2019; 189: 715–26.30641240, Yin W , Chen MH , Hung SC , Baluyot KR , Li T , Lin W . Brain functional development separates into three distinct time periods in the first two years of life. NeuroImage 2019; 189: 715–26.30641240
A. Guzzetta, S. Fiori, D. Scelfo, Eugenia Conti, A. Bancale (2013)
Reorganization of visual fields after periventricular haemorrhagic infarction: potentials and limitations
Developmental Medicine & Child Neurology, 55
M. Laeremans, E. Dons, I. Avila-Palencia, G. Carrasco-Turigas, J. Orjuela, E. Anaya, C. Brand, T. Cole-Hunter, A. Nazelle, T. Götschi, S. Kahlmeier, M. Nieuwenhuijsen, A. Standaert, P. Boever, Luc Panis (2017)
Physical activity and sedentary behaviour in daily life: A comparative analysis of the Global Physical Activity Questionnaire (GPAQ) and the SenseWear armband
PLoS ONE, 12
J. Dutkowsky, Karen Dutkowsky (2011)
Visual Impairment in Children Due to Damage to the Brain
Developmental Medicine & Child Neurology, 53
( Fraiberg S , Adelson E . Self‐representation in language and play: observations of blind children. Psychoanal Q 1973; 42: 539–62.4766828)
Fraiberg S , Adelson E . Self‐representation in language and play: observations of blind children. Psychoanal Q 1973; 42: 539–62.4766828
Fraiberg S , Adelson E . Self‐representation in language and play: observations of blind children. Psychoanal Q 1973; 42: 539–62.4766828, Fraiberg S , Adelson E . Self‐representation in language and play: observations of blind children. Psychoanal Q 1973; 42: 539–62.4766828
L. Kong, Me Fry, Mohannad Al-Samarraie, C. Gilbert, P. Steinkuller (2012)
An update on progress and the changing epidemiology of causes of childhood blindness worldwide.
Journal of AAPOS : the official publication of the American Association for Pediatric Ophthalmology and Strabismus, 16 6
L. Baroncelli, C. Braschi, M. Spolidoro, T. Begenisic, Alessandro Sale, L. Maffei (2010)
Nurturing brain plasticity: impact of environmental enrichment
Cell Death and Differentiation, 17
J. Lanners, A. Piccioni, F. Fea, E. Goergen (1999)
Early intervention for children with cerebral visual impairment: preliminary results.
Journal of intellectual disability research : JIDR, 43 ( Pt 1)
L. Hyvärinen (1995)
Contrast sensitivity testing in clinical practice.
British Journal of Ophthalmology, 79
( Shaikh AG , Zee DS . Eye Movement research in the twenty‐first century—a window to the brain, mind, and more. Cerebellum 2018; 17: 252–8.29260439)
Shaikh AG , Zee DS . Eye Movement research in the twenty‐first century—a window to the brain, mind, and more. Cerebellum 2018; 17: 252–8.29260439
Shaikh AG , Zee DS . Eye Movement research in the twenty‐first century—a window to the brain, mind, and more. Cerebellum 2018; 17: 252–8.29260439, Shaikh AG , Zee DS . Eye Movement research in the twenty‐first century—a window to the brain, mind, and more. Cerebellum 2018; 17: 252–8.29260439
( Ivanov IV , Kuester S , MacKeben M , et al. Effects of visual search training in children with hemianopia. PLoS ONE 2018; 13: 1–29.)
Ivanov IV , Kuester S , MacKeben M , et al. Effects of visual search training in children with hemianopia. PLoS ONE 2018; 13: 1–29.
Ivanov IV , Kuester S , MacKeben M , et al. Effects of visual search training in children with hemianopia. PLoS ONE 2018; 13: 1–29., Ivanov IV , Kuester S , MacKeben M , et al. Effects of visual search training in children with hemianopia. PLoS ONE 2018; 13: 1–29.
( Moore MW . Visual efficiency training with low vision children. Am Orthopt J 1972; 22: 68–70.5052856)
Moore MW . Visual efficiency training with low vision children. Am Orthopt J 1972; 22: 68–70.5052856
Moore MW . Visual efficiency training with low vision children. Am Orthopt J 1972; 22: 68–70.5052856, Moore MW . Visual efficiency training with low vision children. Am Orthopt J 1972; 22: 68–70.5052856
N. Dale, Elena Sakkalou, M. O'reilly, Clare Springall, Hanna Sakki, Sarah Glew, E. Pissaridou, M. Haan, A. Salt (2018)
Home‐based early intervention in infants and young children with visual impairment using the Developmental Journal: longitudinal cohort study
Developmental Medicine & Child Neurology, 61
N. Berardi, Alessandro Sale, L. Maffei (2015)
Brain structural and functional development: genetics and experience
Developmental Medicine & Child Neurology, 57
Hanna Sakki, R. Bowman, J. Sargent, R. Kukadia, N. Dale (2020)
Visual function subtyping in children with early‐onset cerebral visual impairment
Developmental Medicine & Child Neurology, 63
A. Shaikh, D. Zee (2018)
Eye Movement Research in the Twenty-First Century—a Window to the Brain, Mind, and More
The Cerebellum, 17
( Barraga NC . Effects of experimental teaching on the visual behavior of children with low vision. Optom Vis Sci 1965; 42: 557–61.)
Barraga NC . Effects of experimental teaching on the visual behavior of children with low vision. Optom Vis Sci 1965; 42: 557–61.
Barraga NC . Effects of experimental teaching on the visual behavior of children with low vision. Optom Vis Sci 1965; 42: 557–61., Barraga NC . Effects of experimental teaching on the visual behavior of children with low vision. Optom Vis Sci 1965; 42: 557–61.
( Rogers SJ . Characteristics of social interactions between mothers and their disabled infants: a review. Child Care Health Dev 1988; 14: 301–17.2976324)
Rogers SJ . Characteristics of social interactions between mothers and their disabled infants: a review. Child Care Health Dev 1988; 14: 301–17.2976324
Rogers SJ . Characteristics of social interactions between mothers and their disabled infants: a review. Child Care Health Dev 1988; 14: 301–17.2976324, Rogers SJ . Characteristics of social interactions between mothers and their disabled infants: a review. Child Care Health Dev 1988; 14: 301–17.2976324
N. Dale, Elena Sakkalou, M. O'reilly, Clare Springall, M. Haan, A. Salt (2017)
Functional vision and cognition in infants with congenital disorders of the peripheral visual system
Developmental Medicine & Child Neurology, 59
T. Lewis, D. Maurer (2005)
Multiple sensitive periods in human visual development: evidence from visually deprived children.
Developmental psychobiology, 46 3
( Nyström M , Andersson R , Holmqvist K , van de Weijer J . The influence of calibration method and eye physiology on eyetracking data quality. Behav Res Methods 2013; 45: 272–88.22956394)
Nyström M , Andersson R , Holmqvist K , van de Weijer J . The influence of calibration method and eye physiology on eyetracking data quality. Behav Res Methods 2013; 45: 272–88.22956394
Nyström M , Andersson R , Holmqvist K , van de Weijer J . The influence of calibration method and eye physiology on eyetracking data quality. Behav Res Methods 2013; 45: 272–88.22956394, Nyström M , Andersson R , Holmqvist K , van de Weijer J . The influence of calibration method and eye physiology on eyetracking data quality. Behav Res Methods 2013; 45: 272–88.22956394
M. Moore (1972)
Visual efficiency training with low vision children.
The American orthoptic journal, 22
F. Elisa, Lanners Josée, Ferrari-Ginevra Oreste, Achille Claudia, Luparia Antonella, Signorini Sabrina, L. Giovanni (2002)
Gross motor development and reach on sound as critical tools for the development of the blind child
Brain and Development, 24
Bette Liu, R. Ivers, R. Norton, S. Boufous, S. Blows, S. Lo (2008)
Helmets for preventing injury in motorcycle riders.
The Cochrane database of systematic reviews, 1
( Alimović S , Mejaški‐Bošnjak V . Stimulation of functional vision in children with perinatal brain damage. Coll Antropol 2011; 35: 3–9.)
Alimović S , Mejaški‐Bošnjak V . Stimulation of functional vision in children with perinatal brain damage. Coll Antropol 2011; 35: 3–9.
Alimović S , Mejaški‐Bošnjak V . Stimulation of functional vision in children with perinatal brain damage. Coll Antropol 2011; 35: 3–9., Alimović S , Mejaški‐Bošnjak V . Stimulation of functional vision in children with perinatal brain damage. Coll Antropol 2011; 35: 3–9.
M. Nyström, Richard Andersson, K. Holmqvist, J. Weijer (2012)
The influence of calibration method and eye physiology on eyetracking data quality
Behavior Research Methods, 45
( Bauer CM , Heidary G , Koo B‐B , Killiany RJ , Bex P , Merabet LB . Abnormal white matter tractography of visual pathways detected by high‐angular‐resolution diffusion imaging (HARDI) corresponds to visual dysfunction in cortical/cerebral visual impairment. J AAPOS 2014; 18: 398–401.25087644)
Bauer CM , Heidary G , Koo B‐B , Killiany RJ , Bex P , Merabet LB . Abnormal white matter tractography of visual pathways detected by high‐angular‐resolution diffusion imaging (HARDI) corresponds to visual dysfunction in cortical/cerebral visual impairment. J AAPOS 2014; 18: 398–401.25087644
Bauer CM , Heidary G , Koo B‐B , Killiany RJ , Bex P , Merabet LB . Abnormal white matter tractography of visual pathways detected by high‐angular‐resolution diffusion imaging (HARDI) corresponds to visual dysfunction in cortical/cerebral visual impairment. J AAPOS 2014; 18: 398–401.25087644, Bauer CM , Heidary G , Koo B‐B , Killiany RJ , Bex P , Merabet LB . Abnormal white matter tractography of visual pathways detected by high‐angular‐resolution diffusion imaging (HARDI) corresponds to visual dysfunction in cortical/cerebral visual impairment. J AAPOS 2014; 18: 398–401.25087644
Leon Hosang, Rashad Yusifov, S. Löwel (2018)
Long-Term Visual Training Increases Visual Acuity and Long-Term Monocular Deprivation Promotes Ocular Dominance Plasticity in Adult Standard Cage-Raised Mice
eNeuro, 5
( Polat U , Ma‐Naim T , Spierer A . Treatment of children with amblyopia by perceptual learning. Vision Res 2009; 49: 2599–603.19622368)
Polat U , Ma‐Naim T , Spierer A . Treatment of children with amblyopia by perceptual learning. Vision Res 2009; 49: 2599–603.19622368
Polat U , Ma‐Naim T , Spierer A . Treatment of children with amblyopia by perceptual learning. Vision Res 2009; 49: 2599–603.19622368, Polat U , Ma‐Naim T , Spierer A . Treatment of children with amblyopia by perceptual learning. Vision Res 2009; 49: 2599–603.19622368
( Kong L , Fry M , Al‐Samarraie M , Gilbert C , Steinkuller PG . An update on progress and the changing epidemiology of causes of childhood blindness worldwide. J AAPOS 2012; 16: 501–7.23237744)
Kong L , Fry M , Al‐Samarraie M , Gilbert C , Steinkuller PG . An update on progress and the changing epidemiology of causes of childhood blindness worldwide. J AAPOS 2012; 16: 501–7.23237744
Kong L , Fry M , Al‐Samarraie M , Gilbert C , Steinkuller PG . An update on progress and the changing epidemiology of causes of childhood blindness worldwide. J AAPOS 2012; 16: 501–7.23237744, Kong L , Fry M , Al‐Samarraie M , Gilbert C , Steinkuller PG . An update on progress and the changing epidemiology of causes of childhood blindness worldwide. J AAPOS 2012; 16: 501–7.23237744
( Rösblad B . Roles of visual information for control of reaching movements in children. J Mot Behav 1997; 29: 174–82.12453793)
Rösblad B . Roles of visual information for control of reaching movements in children. J Mot Behav 1997; 29: 174–82.12453793
Rösblad B . Roles of visual information for control of reaching movements in children. J Mot Behav 1997; 29: 174–82.12453793, Rösblad B . Roles of visual information for control of reaching movements in children. J Mot Behav 1997; 29: 174–82.12453793
( Hosang L , Yusifov R , Löwel S . Long‐term visual training increases visual acuity and long‐term monocular deprivation promotes ocular dominance plasticity in adult standard cage‐raised mice. eNeuro 2018; 5: 1–17.)
Hosang L , Yusifov R , Löwel S . Long‐term visual training increases visual acuity and long‐term monocular deprivation promotes ocular dominance plasticity in adult standard cage‐raised mice. eNeuro 2018; 5: 1–17.
Hosang L , Yusifov R , Löwel S . Long‐term visual training increases visual acuity and long‐term monocular deprivation promotes ocular dominance plasticity in adult standard cage‐raised mice. eNeuro 2018; 5: 1–17., Hosang L , Yusifov R , Löwel S . Long‐term visual training increases visual acuity and long‐term monocular deprivation promotes ocular dominance plasticity in adult standard cage‐raised mice. eNeuro 2018; 5: 1–17.
(1996)
Griffiths mental developmental scale-revised: birth to 2 years (GMDS-R)
( Pieh C , Proudlock F , Gottlob I . Smooth pursuit in infants: maturation and the influence of stimulation. Br J Ophthalmol 2012; 96: 73–7.21486743)
Pieh C , Proudlock F , Gottlob I . Smooth pursuit in infants: maturation and the influence of stimulation. Br J Ophthalmol 2012; 96: 73–7.21486743
Pieh C , Proudlock F , Gottlob I . Smooth pursuit in infants: maturation and the influence of stimulation. Br J Ophthalmol 2012; 96: 73–7.21486743, Pieh C , Proudlock F , Gottlob I . Smooth pursuit in infants: maturation and the influence of stimulation. Br J Ophthalmol 2012; 96: 73–7.21486743
( Fazzi E , Signorini SG , La Piana R , et al. Neuro‐ophthalmological disorders in cerebral palsy: Ophthalmological, oculomotor, and visual aspects. Dev Med Child Neurol 2012; 54: 730–6.22712803)
Fazzi E , Signorini SG , La Piana R , et al. Neuro‐ophthalmological disorders in cerebral palsy: Ophthalmological, oculomotor, and visual aspects. Dev Med Child Neurol 2012; 54: 730–6.22712803
Fazzi E , Signorini SG , La Piana R , et al. Neuro‐ophthalmological disorders in cerebral palsy: Ophthalmological, oculomotor, and visual aspects. Dev Med Child Neurol 2012; 54: 730–6.22712803, Fazzi E , Signorini SG , La Piana R , et al. Neuro‐ophthalmological disorders in cerebral palsy: Ophthalmological, oculomotor, and visual aspects. Dev Med Child Neurol 2012; 54: 730–6.22712803
A. Bigelow (2003)
The development of joint attention in blind infants
Development and Psychopathology, 15
Christopher Bennett, P. Bex, C. Bauer, L. Merabet (2019)
The Assessment of Visual Function and Functional Vision.
Seminars in pediatric neurology, 31
( Williams C , Northstone K , Borwick C , et al. How to help children with neurodevelopmental and visual problems: a scoping review. Br J Ophthalmol 2014; 98: 6–12.24158842)
Williams C , Northstone K , Borwick C , et al. How to help children with neurodevelopmental and visual problems: a scoping review. Br J Ophthalmol 2014; 98: 6–12.24158842
Williams C , Northstone K , Borwick C , et al. How to help children with neurodevelopmental and visual problems: a scoping review. Br J Ophthalmol 2014; 98: 6–12.24158842, Williams C , Northstone K , Borwick C , et al. How to help children with neurodevelopmental and visual problems: a scoping review. Br J Ophthalmol 2014; 98: 6–12.24158842
S. Rogers (1988)
Characteristics of social interactions between mothers and their disabled infants: a review.
Child: care, health and development, 14 5
S. Fraiberg, E. Adelson (1973)
Self-representation in language and play: observations of blind children.
The Psychoanalytic quarterly, 42 4
( Dutton G , Bax M . Visual impairment in children due to damage to the brain. London: John Wiley, 2010.)
Dutton G , Bax M . Visual impairment in children due to damage to the brain. London: John Wiley, 2010.
Dutton G , Bax M . Visual impairment in children due to damage to the brain. London: John Wiley, 2010., Dutton G , Bax M . Visual impairment in children due to damage to the brain. London: John Wiley, 2010.
Marjorie Hooper (1951)
American Printing House for the Blind
Journal of Visual Impairment & Blindness, 45
L. Ramenghi, D. Ricci, E. Mercuri, M. Groppo, A. Carli, A. Ometto, M. Fumagalli, L. Bassi, S. Pisoni, G. Cioni, F. Mosca (2010)
Visual performance and brain structures in the developing brain of pre-term infants.
Early human development, 86 Suppl 1
S. Kostyuk, Margarita Kvasha, Daria Khrabrova, O. Kirsanova, E. Ershova, E. Malinovskaya, N. Veiko, A. Ivanov, V. Koval, A. Zhuze, Vadim Tashlitsky, P. Umriukhin, S. Kutsev, E. Gromova (2018)
Symmetric dimeric bisbenzimidazoles DBP(n) reduce methylation of RARB and PTEN while significantly increase methylation of rRNA genes in MCF-7 cancer cells
PLoS ONE, 13
A. Iodice, J. Galli, A. Molinaro, A. Franzoni, R. Micheli, L. Pinelli, A. Plebani, A. Soresina, E. Fazzi (2017)
Neurovisual Assessment in Children with Ataxia Telangiectasia
Neuropediatrics, 49
( Griffith R . Griffiths mental developmental scale‐revised: birth to 2 years (GMDS‐R). Florence: Hogrefe, 1996.)
Griffith R . Griffiths mental developmental scale‐revised: birth to 2 years (GMDS‐R). Florence: Hogrefe, 1996.
Griffith R . Griffiths mental developmental scale‐revised: birth to 2 years (GMDS‐R). Florence: Hogrefe, 1996., Griffith R . Griffiths mental developmental scale‐revised: birth to 2 years (GMDS‐R). Florence: Hogrefe, 1996.
Patricia Senior, Consultant Paediatrician (2002)
Developmental outcome, including setback, in young children with severe visual impairment
Developmental Medicine & Child Neurology, 44
Li-Ting Tsai, J. Hsu, Chien-Te Wu, Chia-Ching Chen, Yu-Chin Su (2016)
A New Visual Stimulation Program for Improving Visual Acuity in Children with Visual Impairment: A Pilot Study
Frontiers in Human Neuroscience, 10
( Elsman EBM , Al Baaj M , van Rens GHMB , et al. Interventions to improve functioning, participation, and quality of life in children with visual impairment: a systematic review. Surv Ophthalmol 2019; 64: 512–57.30703405)
Elsman EBM , Al Baaj M , van Rens GHMB , et al. Interventions to improve functioning, participation, and quality of life in children with visual impairment: a systematic review. Surv Ophthalmol 2019; 64: 512–57.30703405
Elsman EBM , Al Baaj M , van Rens GHMB , et al. Interventions to improve functioning, participation, and quality of life in children with visual impairment: a systematic review. Surv Ophthalmol 2019; 64: 512–57.30703405, Elsman EBM , Al Baaj M , van Rens GHMB , et al. Interventions to improve functioning, participation, and quality of life in children with visual impairment: a systematic review. Surv Ophthalmol 2019; 64: 512–57.30703405
C. Pieh, F. Proudlock, I. Gottlob (2011)
Smooth pursuit in infants: maturation and the influence of stimulation
British Journal of Ophthalmology, 96
( Gothwal VK , Sumalini R , Bharani S . Assessing the effectiveness of low Vision Rehabilitation in children: An observational study. Invest Ophthalmol Vis Sci 2015; 56: 3355–60.25829416)
Gothwal VK , Sumalini R , Bharani S . Assessing the effectiveness of low Vision Rehabilitation in children: An observational study. Invest Ophthalmol Vis Sci 2015; 56: 3355–60.25829416
Gothwal VK , Sumalini R , Bharani S . Assessing the effectiveness of low Vision Rehabilitation in children: An observational study. Invest Ophthalmol Vis Sci 2015; 56: 3355–60.25829416, Gothwal VK , Sumalini R , Bharani S . Assessing the effectiveness of low Vision Rehabilitation in children: An observational study. Invest Ophthalmol Vis Sci 2015; 56: 3355–60.25829416
( Martín MBC , Santos‐Lozano A , Martín‐Hernández J , et al. Cerebral versus ocular visual impairment: the impact on developmental neuroplasticity. Front Psychol 2016; 7: 1958.28082927)
Martín MBC , Santos‐Lozano A , Martín‐Hernández J , et al. Cerebral versus ocular visual impairment: the impact on developmental neuroplasticity. Front Psychol 2016; 7: 1958.28082927
Martín MBC , Santos‐Lozano A , Martín‐Hernández J , et al. Cerebral versus ocular visual impairment: the impact on developmental neuroplasticity. Front Psychol 2016; 7: 1958.28082927, Martín MBC , Santos‐Lozano A , Martín‐Hernández J , et al. Cerebral versus ocular visual impairment: the impact on developmental neuroplasticity. Front Psychol 2016; 7: 1958.28082927
D. Teller, M. mcDonald, K. Preston, S. Sebris, V. Dobson (1986)
ASSESSMENT OF VISUAL ACUITY IN INFANTS AND CHILDREN; THE ACUITY CARD PROCEDURE
Developmental Medicine & Child Neurology, 28
M. Kooiker, Yoni Linden, J. Dijk, Y. Zee, R. Swarte, L. Smit, S. Steen-Kant, S. Loudon, I. Reiss, Kees Kuyper, J. Pel, J. Steen (2019)
Early intervention for children at risk of visual processing dysfunctions from 1 year of age: a randomized controlled trial protocol
Trials, 21
V. Gothwal, Rebecca Sumalini, Seelam Bharani (2015)
Assessing the effectiveness of low vision rehabilitation in children: an observational study.
Investigative ophthalmology & visual science, 56 5
( Cioni G , Inguaggiato E , Sgandurra G . Early intervention in neurodevelopmental disorders: underlying neural mechanisms. Dev Med Child Neurol 2016; 58: 61–6.27027609)
Cioni G , Inguaggiato E , Sgandurra G . Early intervention in neurodevelopmental disorders: underlying neural mechanisms. Dev Med Child Neurol 2016; 58: 61–6.27027609
Cioni G , Inguaggiato E , Sgandurra G . Early intervention in neurodevelopmental disorders: underlying neural mechanisms. Dev Med Child Neurol 2016; 58: 61–6.27027609, Cioni G , Inguaggiato E , Sgandurra G . Early intervention in neurodevelopmental disorders: underlying neural mechanisms. Dev Med Child Neurol 2016; 58: 61–6.27027609
( Guzzetta A , Fiori S , Scelfo D , Conti E , Bancale A . Reorganization of visual fields after periventricular haemorrhagic infarction: potentials and limitations. Dev Med Child Neurol 2013; 55: 23–6.)
Guzzetta A , Fiori S , Scelfo D , Conti E , Bancale A . Reorganization of visual fields after periventricular haemorrhagic infarction: potentials and limitations. Dev Med Child Neurol 2013; 55: 23–6.
Guzzetta A , Fiori S , Scelfo D , Conti E , Bancale A . Reorganization of visual fields after periventricular haemorrhagic infarction: potentials and limitations. Dev Med Child Neurol 2013; 55: 23–6., Guzzetta A , Fiori S , Scelfo D , Conti E , Bancale A . Reorganization of visual fields after periventricular haemorrhagic infarction: potentials and limitations. Dev Med Child Neurol 2013; 55: 23–6.
( Merabet LB , Mayer DL , Bauer CM , Wright D , Kran BS . Disentangling how the brain is “wired” in cortical (cerebral) visual impairment. Semin Pediatr Neurol 2017; 24: 83–91.28941531)
Merabet LB , Mayer DL , Bauer CM , Wright D , Kran BS . Disentangling how the brain is “wired” in cortical (cerebral) visual impairment. Semin Pediatr Neurol 2017; 24: 83–91.28941531
Merabet LB , Mayer DL , Bauer CM , Wright D , Kran BS . Disentangling how the brain is “wired” in cortical (cerebral) visual impairment. Semin Pediatr Neurol 2017; 24: 83–91.28941531, Merabet LB , Mayer DL , Bauer CM , Wright D , Kran BS . Disentangling how the brain is “wired” in cortical (cerebral) visual impairment. Semin Pediatr Neurol 2017; 24: 83–91.28941531
( Teller DY , McDonald MA , Preston K , Sebris SL , Dobson V . Assessment of visual acuity in infants and children; the acuity card procedure. Dev Med Child Neurol 1986; 28: 779–89.3817317)
Teller DY , McDonald MA , Preston K , Sebris SL , Dobson V . Assessment of visual acuity in infants and children; the acuity card procedure. Dev Med Child Neurol 1986; 28: 779–89.3817317
Teller DY , McDonald MA , Preston K , Sebris SL , Dobson V . Assessment of visual acuity in infants and children; the acuity card procedure. Dev Med Child Neurol 1986; 28: 779–89.3817317, Teller DY , McDonald MA , Preston K , Sebris SL , Dobson V . Assessment of visual acuity in infants and children; the acuity card procedure. Dev Med Child Neurol 1986; 28: 779–89.3817317
B. Vojniković, Iván Tóth (2011)
Daily variation of UV-A and UV-B solar radiation on the Adriatic Sea.
Collegium antropologicum, 35 Suppl 2
( Sonksen PM , Petrie A , Drew KJ . Promotion of visual development of severely visually impaired babies: evaluation of a developmentally based programme. Dev Med Child Neurol 1991; 33: 320–35.2044853)
Sonksen PM , Petrie A , Drew KJ . Promotion of visual development of severely visually impaired babies: evaluation of a developmentally based programme. Dev Med Child Neurol 1991; 33: 320–35.2044853
Sonksen PM , Petrie A , Drew KJ . Promotion of visual development of severely visually impaired babies: evaluation of a developmentally based programme. Dev Med Child Neurol 1991; 33: 320–35.2044853, Sonksen PM , Petrie A , Drew KJ . Promotion of visual development of severely visually impaired babies: evaluation of a developmentally based programme. Dev Med Child Neurol 1991; 33: 320–35.2044853
P. Sonksen, A. Petrie, K. Drew (1991)
Promotion of Visual Development of Severely Visually Impaired Babies: Evaluation of A Developmentally Based Programme
Developmental Medicine & Child Neurology, 33
( Ramenghi LA , Ricci D , Mercuri E , et al. Visual performance and brain structures in the developing brain of pre‐term infants. Early Hum Dev 2010; 86: 73–5.20153942)
Ramenghi LA , Ricci D , Mercuri E , et al. Visual performance and brain structures in the developing brain of pre‐term infants. Early Hum Dev 2010; 86: 73–5.20153942
Ramenghi LA , Ricci D , Mercuri E , et al. Visual performance and brain structures in the developing brain of pre‐term infants. Early Hum Dev 2010; 86: 73–5.20153942, Ramenghi LA , Ricci D , Mercuri E , et al. Visual performance and brain structures in the developing brain of pre‐term infants. Early Hum Dev 2010; 86: 73–5.20153942
( Dale NJ , Sakkalou E , O’Reilly MA , et al. Home‐based early intervention in infants and young children with visual impairment using the Developmental Journal: longitudinal cohort study. Dev Med Child Neurol 2019; 61: 697–709.30421462)
Dale NJ , Sakkalou E , O’Reilly MA , et al. Home‐based early intervention in infants and young children with visual impairment using the Developmental Journal: longitudinal cohort study. Dev Med Child Neurol 2019; 61: 697–709.30421462
Dale NJ , Sakkalou E , O’Reilly MA , et al. Home‐based early intervention in infants and young children with visual impairment using the Developmental Journal: longitudinal cohort study. Dev Med Child Neurol 2019; 61: 697–709.30421462, Dale NJ , Sakkalou E , O’Reilly MA , et al. Home‐based early intervention in infants and young children with visual impairment using the Developmental Journal: longitudinal cohort study. Dev Med Child Neurol 2019; 61: 697–709.30421462
( Berardi N , Sale A , Maffei L . Brain structural and functional development: Genetics and experience. Dev Med Child Neurol 2015; 57: 4–9.)
Berardi N , Sale A , Maffei L . Brain structural and functional development: Genetics and experience. Dev Med Child Neurol 2015; 57: 4–9.
Berardi N , Sale A , Maffei L . Brain structural and functional development: Genetics and experience. Dev Med Child Neurol 2015; 57: 4–9., Berardi N , Sale A , Maffei L . Brain structural and functional development: Genetics and experience. Dev Med Child Neurol 2015; 57: 4–9.
( Sgandurra G , Lorentzen J , Inguaggiato E , et al. A randomized clinical trial in preterm infants on the effects of a home‐based early intervention with the “CareToy System”. PLoS ONE 2017; 12: 1–13.)
Sgandurra G , Lorentzen J , Inguaggiato E , et al. A randomized clinical trial in preterm infants on the effects of a home‐based early intervention with the “CareToy System”. PLoS ONE 2017; 12: 1–13.
Sgandurra G , Lorentzen J , Inguaggiato E , et al. A randomized clinical trial in preterm infants on the effects of a home‐based early intervention with the “CareToy System”. PLoS ONE 2017; 12: 1–13., Sgandurra G , Lorentzen J , Inguaggiato E , et al. A randomized clinical trial in preterm infants on the effects of a home‐based early intervention with the “CareToy System”. PLoS ONE 2017; 12: 1–13.
( Lueck AH . Developmental guidelines for infants with visual impairments: a guidebook for early intervention. Louisville, KY: American Printing House for the Blind Incorporated Press, 2008.)
Lueck AH . Developmental guidelines for infants with visual impairments: a guidebook for early intervention. Louisville, KY: American Printing House for the Blind Incorporated Press, 2008.
Lueck AH . Developmental guidelines for infants with visual impairments: a guidebook for early intervention. Louisville, KY: American Printing House for the Blind Incorporated Press, 2008., Lueck AH . Developmental guidelines for infants with visual impairments: a guidebook for early intervention. Louisville, KY: American Printing House for the Blind Incorporated Press, 2008.
F. Ismail, A. Fatemi, M. Johnston (2017)
Cerebral plasticity: Windows of opportunity in the developing brain.
European journal of paediatric neurology : EJPN : official journal of the European Paediatric Neurology Society, 21 1
( Tröster H , Brambring M . Early social‐emotional development in blind infants. Child Care Health Dev 1992; 18: 207–27.1386004)
Tröster H , Brambring M . Early social‐emotional development in blind infants. Child Care Health Dev 1992; 18: 207–27.1386004
Tröster H , Brambring M . Early social‐emotional development in blind infants. Child Care Health Dev 1992; 18: 207–27.1386004, Tröster H , Brambring M . Early social‐emotional development in blind infants. Child Care Health Dev 1992; 18: 207–27.1386004
Z. Iscan, M. Nazarova, T. Fedele, E. Blagovechtchenski, V. Nikulin (2016)
Pre-stimulus Alpha Oscillations and Inter-subject Variability of Motor Evoked Potentials in Single- and Paired-Pulse TMS Paradigms
Frontiers in Human Neuroscience, 10
( Bigelow AE . The development of joint attention in blind infants. Dev Psychopathol 2003; 15: 259–75.12931827)
Bigelow AE . The development of joint attention in blind infants. Dev Psychopathol 2003; 15: 259–75.12931827
Bigelow AE . The development of joint attention in blind infants. Dev Psychopathol 2003; 15: 259–75.12931827, Bigelow AE . The development of joint attention in blind infants. Dev Psychopathol 2003; 15: 259–75.12931827
Weiyan Yin, Meng-Hsiang Chen, S. Hung, Kristine Baluyot, Tengfei Li, Weili Lin (2019)
Brain functional development separates into three distinct time periods in the first two years of life
NeuroImage, 189
M. Martín, A. Santos-Lozano, J. Martín-Hernández, A. López-Miguel, M. Maldonado, C. Baladrón, C. Bauer, L. Merabet (2016)
Cerebral versus Ocular Visual Impairment: The Impact on Developmental Neuroplasticity
Frontiers in Psychology, 7
( Chorna OD , Guzzetta A , Maitre NL . Vision assessments and interventions for infants 0–2 years at high risk for cerebral palsy: a systematic review. Pediatr Neurol 2017; 76: 3–13.28918222)
Chorna OD , Guzzetta A , Maitre NL . Vision assessments and interventions for infants 0–2 years at high risk for cerebral palsy: a systematic review. Pediatr Neurol 2017; 76: 3–13.28918222
Chorna OD , Guzzetta A , Maitre NL . Vision assessments and interventions for infants 0–2 years at high risk for cerebral palsy: a systematic review. Pediatr Neurol 2017; 76: 3–13.28918222, Chorna OD , Guzzetta A , Maitre NL . Vision assessments and interventions for infants 0–2 years at high risk for cerebral palsy: a systematic review. Pediatr Neurol 2017; 76: 3–13.28918222
S. Alimović, V. Mejaški‐Bošnjak (2011)
Stimulation of functional vision in children with perinatal brain damage.
Collegium antropologicum, 35 Suppl 1
Alessandro Sale, N. Berardi, L. Maffei (2009)
Enrich the environment to empower the brain
Trends in Neurosciences, 32
B. Rösblad (1997)
Roles of Visual Information for Control of Reaching Movements in Children.
Journal of motor behavior, 29 2
A. Spittle, J. Orton, L. Doyle, R. Boyd (2008)
Early developmental intervention programs post hospital discharge to prevent motor and cognitive impairments in preterm infants.
The Cochrane database of systematic reviews, 2
( Bennett CR , Bex PJ , Bauer CM , Merabet LB . The assessment of visual function and functional vision. Semin Pediatr Neurol 2019; 31: 30–40.31548022)
Bennett CR , Bex PJ , Bauer CM , Merabet LB . The assessment of visual function and functional vision. Semin Pediatr Neurol 2019; 31: 30–40.31548022
Bennett CR , Bex PJ , Bauer CM , Merabet LB . The assessment of visual function and functional vision. Semin Pediatr Neurol 2019; 31: 30–40.31548022, Bennett CR , Bex PJ , Bauer CM , Merabet LB . The assessment of visual function and functional vision. Semin Pediatr Neurol 2019; 31: 30–40.31548022
( Baroncelli L , Braschi C , Spolidoro M , Begenisic T , Sale A , Maffei L . Nurturing brain plasticity: impact of environmental enrichment. Cell Death Differ 2010; 17: 1092–103.20019745)
Baroncelli L , Braschi C , Spolidoro M , Begenisic T , Sale A , Maffei L . Nurturing brain plasticity: impact of environmental enrichment. Cell Death Differ 2010; 17: 1092–103.20019745
Baroncelli L , Braschi C , Spolidoro M , Begenisic T , Sale A , Maffei L . Nurturing brain plasticity: impact of environmental enrichment. Cell Death Differ 2010; 17: 1092–103.20019745, Baroncelli L , Braschi C , Spolidoro M , Begenisic T , Sale A , Maffei L . Nurturing brain plasticity: impact of environmental enrichment. Cell Death Differ 2010; 17: 1092–103.20019745
Hanna Sakki, N. Dale, J. Sargent, T. Pérez-Roche, R. Bowman (2017)
Is there consensus in defining childhood cerebral visual impairment? A systematic review of terminology and definitions
British Journal of Ophthalmology, 102
L. Merabet, D. Mayer, C. Bauer, D. Wright, B. Kran (2017)
Disentangling How the Brain is "Wired" in Cortical (Cerebral) Visual Impairment.
Seminars in pediatric neurology, 24 2
( Tsai LT , Hsu JL , Wu CT , Chen CC , Su YC . A new visual stimulation program for improving visual acuity in children with visual impairment: a pilot study. Front Hum Neurosci 2016; 10: 1–10.26858619)
Tsai LT , Hsu JL , Wu CT , Chen CC , Su YC . A new visual stimulation program for improving visual acuity in children with visual impairment: a pilot study. Front Hum Neurosci 2016; 10: 1–10.26858619
Tsai LT , Hsu JL , Wu CT , Chen CC , Su YC . A new visual stimulation program for improving visual acuity in children with visual impairment: a pilot study. Front Hum Neurosci 2016; 10: 1–10.26858619, Tsai LT , Hsu JL , Wu CT , Chen CC , Su YC . A new visual stimulation program for improving visual acuity in children with visual impairment: a pilot study. Front Hum Neurosci 2016; 10: 1–10.26858619
O. Chorna, A. Guzzetta, N. Maitre (2017)
Vision Assessments and Interventions for Infants 0-2 Years at High Risk for Cerebral Palsy: A Systematic Review.
Pediatric neurology, 76
( Ferreira V , Albuquerque CP . Adaptation of a developmental test to accommodate young children with low vision. J Vis Impair Blind 2017; 111: 97–111.)
Ferreira V , Albuquerque CP . Adaptation of a developmental test to accommodate young children with low vision. J Vis Impair Blind 2017; 111: 97–111.
Ferreira V , Albuquerque CP . Adaptation of a developmental test to accommodate young children with low vision. J Vis Impair Blind 2017; 111: 97–111., Ferreira V , Albuquerque CP . Adaptation of a developmental test to accommodate young children with low vision. J Vis Impair Blind 2017; 111: 97–111.
B. Sabel, J. Flammer, L. Merabet (2018)
Residual vision activation and the brain-eye-vascular triad: Dysregulation, plasticity and restoration in low vision and blindness – a review
Restorative Neurology and Neuroscience, 36
C. Amiel‐Tison, J. Gosselin (2001)
Neurological Development from Birth to Six Years: Guide for Examination and Evaluation
G. Sgandurra, J. Lorentzen, E. Inguaggiato, L. Bartalena, E. Beani, F. Cecchi, P. Dario, M. Giampietri, G. Greisen, A. Herskind, J. Nielsen, G. Rossi, G. Cioni (2017)
A randomized clinical trial in preterm infants on the effects of a home-based early intervention with the 'CareToy System'
PLoS ONE, 12
( Lewis TL , Maurer D . Multiple sensitive periods in human visual development: evidence from visually deprived children. Dev Psychobiol 2005; 46: 163–83.15772974)
Lewis TL , Maurer D . Multiple sensitive periods in human visual development: evidence from visually deprived children. Dev Psychobiol 2005; 46: 163–83.15772974
Lewis TL , Maurer D . Multiple sensitive periods in human visual development: evidence from visually deprived children. Dev Psychobiol 2005; 46: 163–83.15772974, Lewis TL , Maurer D . Multiple sensitive periods in human visual development: evidence from visually deprived children. Dev Psychobiol 2005; 46: 163–83.15772974
E. Elsman, Mo Baaj, G. Rens, Wencke Sijbrandi, E. Broek, H. Aa, W. Schakel, M. Heymans, R. Vries, M. Vervloed, B. Steenbergen, R. Nispen (2019)
Interventions to improve functioning, participation, and quality of life in children with visual impairment: a systematic review.
Survey of ophthalmology, 64 4
T. Confrey, D. Newport, V. Egan, V. Lacarac, B. Estebe (2013)
Transient natural convection in a conducting enclosure heated from above
Journal of Visualization, 16
( Ismail FY , Fatemi A , Johnston MV . Cerebral plasticity: windows of opportunity in the developing brain. Eur J Paediatr Neurol 2017; 21: 23–48.27567276)
Ismail FY , Fatemi A , Johnston MV . Cerebral plasticity: windows of opportunity in the developing brain. Eur J Paediatr Neurol 2017; 21: 23–48.27567276
Ismail FY , Fatemi A , Johnston MV . Cerebral plasticity: windows of opportunity in the developing brain. Eur J Paediatr Neurol 2017; 21: 23–48.27567276, Ismail FY , Fatemi A , Johnston MV . Cerebral plasticity: windows of opportunity in the developing brain. Eur J Paediatr Neurol 2017; 21: 23–48.27567276
I. Ivanov, Stephan Kuester, M. Mackeben, A. Krumm, M. Haaga, M. Staudt, A. Cordey, C. Gehrlich, P. Martus, S. Trauzettel-Klosinski (2018)
Effects of visual search training in children with hemianopia
PLoS ONE, 13
Viviana Ferreira, C. Albuquerque (2017)
Adaptation of a Developmental Test to Accommodate Young Children with Low Vision
Journal of Visual Impairment & Blindness, 111
G. Dutton, L. Jacobson (2001)
Cerebral visual impairment in children.
Seminars in neonatology : SN, 6 6
AH Lueck, G Dutton (2015)
Vision and the Brain: Understanding Cerebral Visual Impairment in Children
Christopher Bennett, C. Bauer, E. Bailin, L. Merabet (2020)
Neuroplasticity in cerebral visual impairment (CVI): Assessing functional vision and the neurophysiological correlates of dorsal stream dysfunction
Neuroscience & Biobehavioral Reviews, 108
U. Polat, Tova Ma-Naim, A. Spierer (2009)
Treatment of children with amblyopia by perceptual learning
Vision Research, 49
H. Tröster, M. Brambring (1992)
Early social-emotional development in blind infants.
Child: care, health and development, 18 4
Early Visual Training for Infants Elisa Fazzi et al. 13
( Rahi JS , Cable N . British Childhood Visual Impairment Study Group. Severe visual impairment and blindness in children in the UK. Lancet 2003; 362: 1359–65.14585637)
Rahi JS , Cable N . British Childhood Visual Impairment Study Group. Severe visual impairment and blindness in children in the UK. Lancet 2003; 362: 1359–65.14585637
Rahi JS , Cable N . British Childhood Visual Impairment Study Group. Severe visual impairment and blindness in children in the UK. Lancet 2003; 362: 1359–65.14585637, Rahi JS , Cable N . British Childhood Visual Impairment Study Group. Severe visual impairment and blindness in children in the UK. Lancet 2003; 362: 1359–65.14585637
( Iodice A , Galli J , Molinaro A , et al. Neurovisual assessment in children with ataxia telangiectasia. Neuropediatrics 2018; 49: 26–34.28992644)
Iodice A , Galli J , Molinaro A , et al. Neurovisual assessment in children with ataxia telangiectasia. Neuropediatrics 2018; 49: 26–34.28992644
Iodice A , Galli J , Molinaro A , et al. Neurovisual assessment in children with ataxia telangiectasia. Neuropediatrics 2018; 49: 26–34.28992644, Iodice A , Galli J , Molinaro A , et al. Neurovisual assessment in children with ataxia telangiectasia. Neuropediatrics 2018; 49: 26–34.28992644
A. Mazzoni, M. Rosa, J. Carpaneto, L. Romito, S. Micera, S. Micera (2018)
Subthalamic Neural Activity Patterns Anticipate Economic Risk Decisions in Gambling
eNeuro, 5
G. Cioni, E. Inguaggiato, G. Sgandurra (2016)
Early intervention in neurodevelopmental disorders: underlying neural mechanisms
Developmental Medicine & Child Neurology, 58
M. Rosenzweig, E. Bennett, M. Hebert, H. Morimoto (1978)
Social grouping cannot account for cerebral effects of enriched environments
Brain Research, 153
N. Alahyane, Christelle Lemoine-Lardennois, Coline Tailhefer, T. Collins, J. Fagard, K. Doré-Mazars (2016)
Development and learning of saccadic eye movements in 7- to 42-month-old children.
Journal of vision, 16 1
( Lanners J , Piccioni A , Fea F , Goergen E . Early intervention for children with cerebral visual impairment: preliminary results. J Intellect Disabil Res 1999; 43: 1–12.10088963)
Lanners J , Piccioni A , Fea F , Goergen E . Early intervention for children with cerebral visual impairment: preliminary results. J Intellect Disabil Res 1999; 43: 1–12.10088963
Lanners J , Piccioni A , Fea F , Goergen E . Early intervention for children with cerebral visual impairment: preliminary results. J Intellect Disabil Res 1999; 43: 1–12.10088963, Lanners J , Piccioni A , Fea F , Goergen E . Early intervention for children with cerebral visual impairment: preliminary results. J Intellect Disabil Res 1999; 43: 1–12.10088963
( Lemoine‐Lardennois C , Alahyane N , Tailhefer C , Collins T , Fagard J , Doré‐Mazars K . Saccadic adaptation in 10–41 month‐old children. Front Hum Neurosci 2016; 10: 1–13.26858619)
Lemoine‐Lardennois C , Alahyane N , Tailhefer C , Collins T , Fagard J , Doré‐Mazars K . Saccadic adaptation in 10–41 month‐old children. Front Hum Neurosci 2016; 10: 1–13.26858619
Lemoine‐Lardennois C , Alahyane N , Tailhefer C , Collins T , Fagard J , Doré‐Mazars K . Saccadic adaptation in 10–41 month‐old children. Front Hum Neurosci 2016; 10: 1–13.26858619, Lemoine‐Lardennois C , Alahyane N , Tailhefer C , Collins T , Fagard J , Doré‐Mazars K . Saccadic adaptation in 10–41 month‐old children. Front Hum Neurosci 2016; 10: 1–13.26858619
E. Fazzi, S. Signorini, M. Bomba, A. Luparia, J. Lanners, U. Balottin (2011)
Reach on sound: a key to object permanence in visually impaired children.
Early human development, 87 4
( Spittle Orton J , Anderson P , Boyd R , Doyle L . Early developmental intervention programs post hospital discharge to prevent motor and cognitive impairments in preterm infants. Cochrane Database Syst Rev 2009; 1: 1–56.)
Spittle Orton J , Anderson P , Boyd R , Doyle L . Early developmental intervention programs post hospital discharge to prevent motor and cognitive impairments in preterm infants. Cochrane Database Syst Rev 2009; 1: 1–56.
Spittle Orton J , Anderson P , Boyd R , Doyle L . Early developmental intervention programs post hospital discharge to prevent motor and cognitive impairments in preterm infants. Cochrane Database Syst Rev 2009; 1: 1–56., Spittle Orton J , Anderson P , Boyd R , Doyle L . Early developmental intervention programs post hospital discharge to prevent motor and cognitive impairments in preterm infants. Cochrane Database Syst Rev 2009; 1: 1–56.
E. Fazzi, S. Signorini, S. Bova, R. Piana, P. Ondei, C. Bertone, W. Misefari, P. Bianchi (2007)
Spectrum of Visual Disorders in Children With Cerebral Visual Impairment
Journal of Child Neurology, 22
M. Vervloed, N. Janssen, H. Knoors (2006)
Visual Rehabilitation of Children with Visual Impairments
Journal of Developmental & Behavioral Pediatrics, 27
( Rosenzweig MR , Bennett EL , Hebert M , Morimoto H . Social grouping cannot account for cerebral effects of enriched environments. Brain Res 1978; 153: 563–76.698794)
Rosenzweig MR , Bennett EL , Hebert M , Morimoto H . Social grouping cannot account for cerebral effects of enriched environments. Brain Res 1978; 153: 563–76.698794
Rosenzweig MR , Bennett EL , Hebert M , Morimoto H . Social grouping cannot account for cerebral effects of enriched environments. Brain Res 1978; 153: 563–76.698794, Rosenzweig MR , Bennett EL , Hebert M , Morimoto H . Social grouping cannot account for cerebral effects of enriched environments. Brain Res 1978; 153: 563–76.698794
( Amiel‐Tison C . Neurological development from birth to six years: guide for examination and evaluation. Baltimore MD: Johns Hopkins University Press, 2001.)
Amiel‐Tison C . Neurological development from birth to six years: guide for examination and evaluation. Baltimore MD: Johns Hopkins University Press, 2001.
Amiel‐Tison C . Neurological development from birth to six years: guide for examination and evaluation. Baltimore MD: Johns Hopkins University Press, 2001., Amiel‐Tison C . Neurological development from birth to six years: guide for examination and evaluation. Baltimore MD: Johns Hopkins University Press, 2001.
P. Frcpch, N. Bama (2007)
Visual impairment in infancy: impact on neurodevelopmental and neurobiological processes
Developmental Medicine & Child Neurology, 44
JS Rahi, N Cable (2003)
British Childhood Visual Impairment Study Group. Severe visual impairment and blindness in children in the UK
, 362
( Sabel BA , Flammer J , Merabet LB . Residual vision activation and the brain‐eye‐vascular triad: Dysregulation, plasticity and restoration in low vision and blindness‐a review. Restor Neurol Neurosci 2018; 36: 767–91.30412515)
Sabel BA , Flammer J , Merabet LB . Residual vision activation and the brain‐eye‐vascular triad: Dysregulation, plasticity and restoration in low vision and blindness‐a review. Restor Neurol Neurosci 2018; 36: 767–91.30412515
Sabel BA , Flammer J , Merabet LB . Residual vision activation and the brain‐eye‐vascular triad: Dysregulation, plasticity and restoration in low vision and blindness‐a review. Restor Neurol Neurosci 2018; 36: 767–91.30412515, Sabel BA , Flammer J , Merabet LB . Residual vision activation and the brain‐eye‐vascular triad: Dysregulation, plasticity and restoration in low vision and blindness‐a review. Restor Neurol Neurosci 2018; 36: 767–91.30412515
AH Lueck (2008)
Developmental guidelines for infants with visual impairments: a guidebook for early intervention
( Sale A , Berardi N , Maffei L . Enrich the environment to empower the brain. Trends Neurosci 2009; 32: 233–9.19268375)
Sale A , Berardi N , Maffei L . Enrich the environment to empower the brain. Trends Neurosci 2009; 32: 233–9.19268375
Sale A , Berardi N , Maffei L . Enrich the environment to empower the brain. Trends Neurosci 2009; 32: 233–9.19268375, Sale A , Berardi N , Maffei L . Enrich the environment to empower the brain. Trends Neurosci 2009; 32: 233–9.19268375
( Sakki H , Bowman R , Sargent J , Kukadia R , Dale N . Visual function subtyping in children with early‐onset cerebral visual impairment. Dev Med Child Neurol 2021; 63: 303–12.33111315)
Sakki H , Bowman R , Sargent J , Kukadia R , Dale N . Visual function subtyping in children with early‐onset cerebral visual impairment. Dev Med Child Neurol 2021; 63: 303–12.33111315
Sakki H , Bowman R , Sargent J , Kukadia R , Dale N . Visual function subtyping in children with early‐onset cerebral visual impairment. Dev Med Child Neurol 2021; 63: 303–12.33111315, Sakki H , Bowman R , Sargent J , Kukadia R , Dale N . Visual function subtyping in children with early‐onset cerebral visual impairment. Dev Med Child Neurol 2021; 63: 303–12.33111315
( Alahyane N , Lemoine‐Lardennois C , Tailhefer C , Collins T , Fagard J , Doré‐Mazars K . Development and learning of saccadic eye movements in 7‐ to 42‐month‐old children. J Vis 2016; 16: 1–12.)
Alahyane N , Lemoine‐Lardennois C , Tailhefer C , Collins T , Fagard J , Doré‐Mazars K . Development and learning of saccadic eye movements in 7‐ to 42‐month‐old children. J Vis 2016; 16: 1–12.
Alahyane N , Lemoine‐Lardennois C , Tailhefer C , Collins T , Fagard J , Doré‐Mazars K . Development and learning of saccadic eye movements in 7‐ to 42‐month‐old children. J Vis 2016; 16: 1–12., Alahyane N , Lemoine‐Lardennois C , Tailhefer C , Collins T , Fagard J , Doré‐Mazars K . Development and learning of saccadic eye movements in 7‐ to 42‐month‐old children. J Vis 2016; 16: 1–12.
B. Luna, K. Velanova, C. Geier (2008)
Development of eye-movement control
Brain and Cognition, 68
J. Rahi, N. Cable (2003)
Severe visual impairment and blindness in children in the UK
The Lancet, 362
C. Bauer, G. Heidary, B. Koo, R. Killiany, P. Bex, L. Merabet (2014)
Abnormal white matter tractography of visual pathways detected by high-angular-resolution diffusion imaging (HARDI) corresponds to visual dysfunction in cortical/cerebral visual impairment.
Journal of AAPOS : the official publication of the American Association for Pediatric Ophthalmology and Strabismus, 18 4
H. Tröster, M. Brambring, A. Beelmann (1991)
Prevalence and situational causes of stereotyped behaviors in blind infants and preschoolers
Journal of Abnormal Child Psychology, 19
( Hyvarinen L . Contrast sensitivity testing in clinical practice. British Journal of Ophthalmology. 1995;79: 9:867–868. 10.1136/bjo.79.9.867.)
Hyvarinen L . Contrast sensitivity testing in clinical practice. British Journal of Ophthalmology. 1995;79: 9:867–868. 10.1136/bjo.79.9.867.
Hyvarinen L . Contrast sensitivity testing in clinical practice. British Journal of Ophthalmology. 1995;79: 9:867–868. 10.1136/bjo.79.9.867., Hyvarinen L . Contrast sensitivity testing in clinical practice. British Journal of Ophthalmology. 1995;79: 9:867–868. 10.1136/bjo.79.9.867.
( Luna B , Velanova K , Geier CF . Development of eye‐movement control. Brain Cogn 2008; 68: 293–308.18938009)
Luna B , Velanova K , Geier CF . Development of eye‐movement control. Brain Cogn 2008; 68: 293–308.18938009
Luna B , Velanova K , Geier CF . Development of eye‐movement control. Brain Cogn 2008; 68: 293–308.18938009, Luna B , Velanova K , Geier CF . Development of eye‐movement control. Brain Cogn 2008; 68: 293–308.18938009
N. Barraga (1965)
Effects of experimental teaching on the visual behavior of children with low vision.
American journal of optometry and archives of American Academy of Optometry, 42 9
( Vervloed MPJ , Janssen N , Knoors H . Visual rehabilitation of children with visual impairments. J Dev Behav Pediatr 2006; 27: 493–506.17164624)
Vervloed MPJ , Janssen N , Knoors H . Visual rehabilitation of children with visual impairments. J Dev Behav Pediatr 2006; 27: 493–506.17164624
Vervloed MPJ , Janssen N , Knoors H . Visual rehabilitation of children with visual impairments. J Dev Behav Pediatr 2006; 27: 493–506.17164624, Vervloed MPJ , Janssen N , Knoors H . Visual rehabilitation of children with visual impairments. J Dev Behav Pediatr 2006; 27: 493–506.17164624
C. Williams, K. Northstone, C. Borwick, M. Gainsborough, J. Roe, S. Howard, S. Rogers, J. Amos, J. Woodhouse (2013)
How to help children with neurodevelopmental and visual problems: a scoping review
The British Journal of Ophthalmology, 98
Christelle Lemoine-Lardennois, N. Alahyane, Coline Tailhefer, T. Collins, J. Fagard, K. Doré-Mazars (2016)
Saccadic Adaptation in 10–41 Month-Old Children
Frontiers in Human Neuroscience, 10
( Kooiker MJG , van der Linden Y , van Dijk J , et al. Early intervention for children at risk of visual processing dysfunctions from 1 year of age: a randomized controlled trial protocol. Trials 2020; 21: 44.31915035)
Kooiker MJG , van der Linden Y , van Dijk J , et al. Early intervention for children at risk of visual processing dysfunctions from 1 year of age: a randomized controlled trial protocol. Trials 2020; 21: 44.31915035
Kooiker MJG , van der Linden Y , van Dijk J , et al. Early intervention for children at risk of visual processing dysfunctions from 1 year of age: a randomized controlled trial protocol. Trials 2020; 21: 44.31915035, Kooiker MJG , van der Linden Y , van Dijk J , et al. Early intervention for children at risk of visual processing dysfunctions from 1 year of age: a randomized controlled trial protocol. Trials 2020; 21: 44.31915035

Publisher: Wiley
ISSN: 0012-1622
eISSN: 1469-8749
DOI: 10.1111/dmcn.14865
Publisher site: See Article on Publisher Site

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Early visual training and environmental adaptation for infants with visual impairment

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