Cargando…

Detection of visual field defects using Eye Movement Pediatric Perimetry in children with intracranial lesions: feasibility and applicability

The study aimed at evaluating the feasibility of Eye Movement Pediatric Perimetry (EMPP) among children in detecting Visual Field Defects (VFDs) associated with Intracranial Lesions (IL). Healthy controls (n = 35) and patients diagnosed with IL (n = 19) underwent a comprehensive clinical evaluation...

Descripción completa

Detalles Bibliográficos
Autores principales: Meethal, Najiya Sundus K., Robben, Jasper, Mazumdar, Deepmala, Loudon, S., Naus, N., Polling, J.R., van der Steen, J., George, Ronnie, Pel, Johan J.M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9676553/
https://www.ncbi.nlm.nih.gov/pubmed/36419654
http://dx.doi.org/10.1016/j.heliyon.2022.e11746
_version_ 1784833623805919232
author Meethal, Najiya Sundus K.
Robben, Jasper
Mazumdar, Deepmala
Loudon, S.
Naus, N.
Polling, J.R.
van der Steen, J.
George, Ronnie
Pel, Johan J.M.
author_facet Meethal, Najiya Sundus K.
Robben, Jasper
Mazumdar, Deepmala
Loudon, S.
Naus, N.
Polling, J.R.
van der Steen, J.
George, Ronnie
Pel, Johan J.M.
author_sort Meethal, Najiya Sundus K.
collection PubMed
description The study aimed at evaluating the feasibility of Eye Movement Pediatric Perimetry (EMPP) among children in detecting Visual Field Defects (VFDs) associated with Intracranial Lesions (IL). Healthy controls (n = 35) and patients diagnosed with IL (n = 19) underwent a comprehensive clinical evaluation followed by a Goldmann Visual Field (GVF) and a customised EMPP protocol. During EMPP, all the participants were encouraged to fixate on a central target and initiate Saccadic Eye Movement (SEM) responses towards randomly appearing peripheral stimuli. The SEM responses were recorded using an eye-tracking device and further inspected to calculate Performance Scores (PS), Saccadic Reaction Times (SRTs), and an EMPP Index (EMPI). The mean age (years) of the controls and cases were 7.3 (SD: 1.5) and 9.4 (SD: 2.4) respectively. Among the controls, the older children (≥7 years) showed statistically significantly faster SRTs (p = 0.008) compared to the younger group. The binocular EMPP measurements compared between the controls and the cases revealed no statistically significant differences in PS (p = 0.34) and SRT (p = 0.51). EMPP failed in 4 children because of data loss or unacceptably poor PS whereas GVF failed in 7 children due to unreliable subjective responses. Of the 16 reports, with regard to the central 30-degree VF, 63% of the outputs obtained from both methods were comparable. EMPP is a reliable method to estimate and characterise the central 30-degree VF in greater detail in children with IL. EMPP can supplement the conventional methods, especially in those children who fail to complete a long duration GVF test.
format Online
Article
Text
id pubmed-9676553
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher Elsevier
record_format MEDLINE/PubMed
spelling pubmed-96765532022-11-22 Detection of visual field defects using Eye Movement Pediatric Perimetry in children with intracranial lesions: feasibility and applicability Meethal, Najiya Sundus K. Robben, Jasper Mazumdar, Deepmala Loudon, S. Naus, N. Polling, J.R. van der Steen, J. George, Ronnie Pel, Johan J.M. Heliyon Research Article The study aimed at evaluating the feasibility of Eye Movement Pediatric Perimetry (EMPP) among children in detecting Visual Field Defects (VFDs) associated with Intracranial Lesions (IL). Healthy controls (n = 35) and patients diagnosed with IL (n = 19) underwent a comprehensive clinical evaluation followed by a Goldmann Visual Field (GVF) and a customised EMPP protocol. During EMPP, all the participants were encouraged to fixate on a central target and initiate Saccadic Eye Movement (SEM) responses towards randomly appearing peripheral stimuli. The SEM responses were recorded using an eye-tracking device and further inspected to calculate Performance Scores (PS), Saccadic Reaction Times (SRTs), and an EMPP Index (EMPI). The mean age (years) of the controls and cases were 7.3 (SD: 1.5) and 9.4 (SD: 2.4) respectively. Among the controls, the older children (≥7 years) showed statistically significantly faster SRTs (p = 0.008) compared to the younger group. The binocular EMPP measurements compared between the controls and the cases revealed no statistically significant differences in PS (p = 0.34) and SRT (p = 0.51). EMPP failed in 4 children because of data loss or unacceptably poor PS whereas GVF failed in 7 children due to unreliable subjective responses. Of the 16 reports, with regard to the central 30-degree VF, 63% of the outputs obtained from both methods were comparable. EMPP is a reliable method to estimate and characterise the central 30-degree VF in greater detail in children with IL. EMPP can supplement the conventional methods, especially in those children who fail to complete a long duration GVF test. Elsevier 2022-11-17 /pmc/articles/PMC9676553/ /pubmed/36419654 http://dx.doi.org/10.1016/j.heliyon.2022.e11746 Text en © 2022 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Article
Meethal, Najiya Sundus K.
Robben, Jasper
Mazumdar, Deepmala
Loudon, S.
Naus, N.
Polling, J.R.
van der Steen, J.
George, Ronnie
Pel, Johan J.M.
Detection of visual field defects using Eye Movement Pediatric Perimetry in children with intracranial lesions: feasibility and applicability
title Detection of visual field defects using Eye Movement Pediatric Perimetry in children with intracranial lesions: feasibility and applicability
title_full Detection of visual field defects using Eye Movement Pediatric Perimetry in children with intracranial lesions: feasibility and applicability
title_fullStr Detection of visual field defects using Eye Movement Pediatric Perimetry in children with intracranial lesions: feasibility and applicability
title_full_unstemmed Detection of visual field defects using Eye Movement Pediatric Perimetry in children with intracranial lesions: feasibility and applicability
title_short Detection of visual field defects using Eye Movement Pediatric Perimetry in children with intracranial lesions: feasibility and applicability
title_sort detection of visual field defects using eye movement pediatric perimetry in children with intracranial lesions: feasibility and applicability
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9676553/
https://www.ncbi.nlm.nih.gov/pubmed/36419654
http://dx.doi.org/10.1016/j.heliyon.2022.e11746
work_keys_str_mv AT meethalnajiyasundusk detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability
AT robbenjasper detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability
AT mazumdardeepmala detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability
AT loudons detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability
AT nausn detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability
AT pollingjr detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability
AT vandersteenj detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability
AT georgeronnie detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability
AT peljohanjm detectionofvisualfielddefectsusingeyemovementpediatricperimetryinchildrenwithintracraniallesionsfeasibilityandapplicability