What can visual electrophysiology tell about possible visual-field defects in paediatric patients

Recognising a potential visual-field (VF) defect in paediatric patients might be challenging, especially in children before the age of 5 years and those with developmental delay or intellectual disability. Visual electrophysiological testing is an objective and non-invasive technique for evaluation...

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Veröffentlicht in:	Eye (London) 2021-09, Vol.35 (9), p.2354-2373
Hauptverfasser:	Handley, Siân E., Šuštar, Maja, Tekavčič Pompe, Manca
Format:	Artikel
Sprache:	eng
Schlagworte:	631/378/2613/2615 631/378/2613/2616 692/1807/1482 Child Child, Preschool Defects Electrophysiology Electroretinograms Electroretinography Evoked Potentials, Visual Hemianopsia Humans Intellectual disabilities Laboratory Medicine Medicine Medicine & Public Health Ophthalmology Optic nerve Patients Pediatrics Pharmaceutical Sciences/Technology Retina Review Review Article Surgery Surgical Oncology Vision Vision Disorders - diagnosis Visual evoked potentials Visual Field Tests Visual Fields Visual pathways Visual perception
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description	Recognising a potential visual-field (VF) defect in paediatric patients might be challenging, especially in children before the age of 5 years and those with developmental delay or intellectual disability. Visual electrophysiological testing is an objective and non-invasive technique for evaluation of visual function in paediatric patients, which can characterise the location of dysfunction and differentiate between disorders of the retina, optic nerve and visual pathway. The recording of electroretinography (ERG) and visual-evoked potentials (VEP) is possible from early days of life and requires no subjective input from the patient. As the origins of ERG and VEP tests are known, the pattern of electrophysiological changes can provide information about the VF of a child unable to perform accurate perimetry. This review summarises previously published electrophysiological findings in several common types of VF defects that can be found in paediatric patients (generalised VF defect, peripheral VF loss, central scotoma, bi-temporal hemianopia, altitudinal VF defect, quadrantanopia and homonymous hemianopia). It also shares experience on using electrophysiological testing as additional functional evidence to other tests in the clinical challenge of diagnosing or excluding VF defects in complex paediatric patients. Each type of VF defect is illustrated with one or two clinical cases.
doi_str_mv	10.1038/s41433-021-01680-1
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It also shares experience on using electrophysiological testing as additional functional evidence to other tests in the clinical challenge of diagnosing or excluding VF defects in complex paediatric patients. 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Visual electrophysiological testing is an objective and non-invasive technique for evaluation of visual function in paediatric patients, which can characterise the location of dysfunction and differentiate between disorders of the retina, optic nerve and visual pathway. The recording of electroretinography (ERG) and visual-evoked potentials (VEP) is possible from early days of life and requires no subjective input from the patient. As the origins of ERG and VEP tests are known, the pattern of electrophysiological changes can provide information about the VF of a child unable to perform accurate perimetry. This review summarises previously published electrophysiological findings in several common types of VF defects that can be found in paediatric patients (generalised VF defect, peripheral VF loss, central scotoma, bi-temporal hemianopia, altitudinal VF defect, quadrantanopia and homonymous hemianopia). 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Visual electrophysiological testing is an objective and non-invasive technique for evaluation of visual function in paediatric patients, which can characterise the location of dysfunction and differentiate between disorders of the retina, optic nerve and visual pathway. The recording of electroretinography (ERG) and visual-evoked potentials (VEP) is possible from early days of life and requires no subjective input from the patient. As the origins of ERG and VEP tests are known, the pattern of electrophysiological changes can provide information about the VF of a child unable to perform accurate perimetry. This review summarises previously published electrophysiological findings in several common types of VF defects that can be found in paediatric patients (generalised VF defect, peripheral VF loss, central scotoma, bi-temporal hemianopia, altitudinal VF defect, quadrantanopia and homonymous hemianopia). 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subjects	631/378/2613/2615 631/378/2613/2616 692/1807/1482 Child Child, Preschool Defects Electrophysiology Electroretinograms Electroretinography Evoked Potentials, Visual Hemianopsia Humans Intellectual disabilities Laboratory Medicine Medicine Medicine & Public Health Ophthalmology Optic nerve Patients Pediatrics Pharmaceutical Sciences/Technology Retina Review Review Article Surgery Surgical Oncology Vision Vision Disorders - diagnosis Visual evoked potentials Visual Field Tests Visual Fields Visual pathways Visual perception
title	What can visual electrophysiology tell about possible visual-field defects in paediatric patients
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