Journal article

A two-stage neural spiking model of visual contrast detection in perimetry

SK Gardiner, WH Swanson, S Demirel, AM McKendrick, A Turpin, CA Johnson

Vision Research | Published : 2008

DOI: 10.1016/j.visres.2008.06.006

Abstract

Perimetry is a commonly used clinical test for visual function, limited by high variability. The sources of this variability need to be better understood. In this paper, we investigate whether noise intrinsic to neural firing could explain the variability in normal subjects. We present the most physiologically accurate model to date for stimulus detection in perimetry combining knowledge of the physiology of components of the visual system with signal detection theory, and show that it requires that detection be mediated by multiple cortical cells in order to give predictions consistent with psychometric functions measured in human observers. © 2008 Elsevier Ltd. All rights reserved.

University of Melbourne Researchers

Related Projects (1)

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CHARACTERISING THE CHANGES IN REGULATION OF VISUAL CONTRAST SENSITIVITY IN GLAUCOMA

Glaucoma is the second leading cause of blindness in developed nations. A recent study estimated the number of Australian's that will need r..

Grants

Awarded by National Eye Institute

Funding Acknowledgements

Support: NIH EY007716 (to author WHS): NHMRC #353567 (to author AMM); NIH EY03424 (to author CAJ).

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Keywords

Modeling
1.1 Normal Biological Development and Functioning
Psychology
Threshold
Variability
Precision
Field
Sensitivity
Social Sciences
Cortex
Ophthalmology
Science & Technology
Neurosciences & Neurology
Eye Disease and Disorders of Vision
Neurosciences
Glaucoma
Life Sciences & Biomedicine
32 Biomedical and Clinical Sciences
Visual Detection
Primate Retina
Lateral Geniculate-Nucleus
Perimetry
4.1 Discovery and Preclinical Testing of Markers and Technologies
3212 Ophthalmology and Optometry
Retinal Ganglion-Cells