Pediatric Vision Screener 1: Instrument design and operation

David G. Hunter; Deborah S. Nassif; Nadya V. Piskun; Robert Winsor; Boris I. Gramatikov; David L. Guyton

doi:10.1117/1.1805560

Pediatric Vision Screener 1: Instrument design and operation

David G. Hunter, Deborah S. Nassif, Nadya V. Piskun, Robert Winsor, Boris I. Gramatikov, David L. Guyton

School of Medicine

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

We develop the Pediatric Vision Screener (PVS) to automatically detect ocular misalignment (strabismus) and defocus in human subjects. The PVS utilizes binocular retinal birefringence scanning to determine when both eyes are aligned, with a theoretical accuracy of <1 deg. The device employs an autoconjugate, bull's-eye detector-based system to detect focus. The focus and alignment pathways are separated by both wavelength and data acquisition timing. Binocular focus and alignment are detected in rapid alternating sequence, measuring both parameters in both eyes in <0.5 sec. In this work, the theory and design of the PVS are described in detail. With objective, automated measurement of both alignment and focus, the PVS represents a new approach to screening children for treatable eye disease such as amblyopia.

Original language	English (US)
Pages (from-to)	1363-1368
Number of pages	6
Journal	Journal of biomedical optics
Volume	9
Issue number	6
DOIs	https://doi.org/10.1117/1.1805560
State	Published - Nov 2004

Keywords

Amblyopia
Eye
Polarization optics
Retinal birefringence
Strabismus
Vision screening

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Biomaterials
Atomic and Molecular Physics, and Optics
Biomedical Engineering

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10.1117/1.1805560

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title = "Pediatric Vision Screener 1: Instrument design and operation",

abstract = "We develop the Pediatric Vision Screener (PVS) to automatically detect ocular misalignment (strabismus) and defocus in human subjects. The PVS utilizes binocular retinal birefringence scanning to determine when both eyes are aligned, with a theoretical accuracy of <1 deg. The device employs an autoconjugate, bull's-eye detector-based system to detect focus. The focus and alignment pathways are separated by both wavelength and data acquisition timing. Binocular focus and alignment are detected in rapid alternating sequence, measuring both parameters in both eyes in <0.5 sec. In this work, the theory and design of the PVS are described in detail. With objective, automated measurement of both alignment and focus, the PVS represents a new approach to screening children for treatable eye disease such as amblyopia.",

keywords = "Amblyopia, Eye, Polarization optics, Retinal birefringence, Strabismus, Vision screening",

author = "Hunter, {David G.} and Nassif, {Deborah S.} and Piskun, {Nadya V.} and Robert Winsor and Gramatikov, {Boris I.} and Guyton, {David L.}",

note = "Funding Information: The authors thank Bronwen Walters for performing orthoptic evaluations. This work was supported by Research to Prevent Blindness, NIH grant RO1 EY-12883, the Massachusetts Lions Eye Foundation, the Whitaker Foundation, the Roy and Niuta Titus Foundation, the Helena Rubenstein Foundation, the Alcon Research Institute, and the Thomas Wilson Sanitarium for the Children of Baltimore City.",

year = "2004",

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doi = "10.1117/1.1805560",

language = "English (US)",

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AU - Nassif, Deborah S.

AU - Piskun, Nadya V.

AU - Winsor, Robert

AU - Gramatikov, Boris I.

AU - Guyton, David L.

N1 - Funding Information: The authors thank Bronwen Walters for performing orthoptic evaluations. This work was supported by Research to Prevent Blindness, NIH grant RO1 EY-12883, the Massachusetts Lions Eye Foundation, the Whitaker Foundation, the Roy and Niuta Titus Foundation, the Helena Rubenstein Foundation, the Alcon Research Institute, and the Thomas Wilson Sanitarium for the Children of Baltimore City.

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Pediatric Vision Screener 1: Instrument design and operation

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Keywords

ASJC Scopus subject areas

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