Amblyopia affects 2% of Americans and is a developmental visual disorder, usually involving poor acuity in one eye. Amblyopia has been well studied behaviorally in humans, and animal models of amblyopia have been developed. However, knowledge of the human neural substrates and mechanisms that underlie the disorder is incomplete. The long-term goal is to develop better treatment strategies for children and adults diagnosed with the two types of amblyopia, called anisometropic and strabismic. The objective of this application is to characterize the functional organization of visual cortex in adult subjects with amblyopia. The central hypothesis is that amblyopia is associated with abnormal patterns of neural activity in particular visual cortical areas, and possibly other brain regions, detected during specific visual tasks measured with functional magnetic resonance imaging (fMRI). By measuring the physiological response of multiple defined visual areas in amblyopic subjects for the first time, we can evaluate the competing accounts of amblyopia, and possibly distinguish the subtypes.
The specific aims are: (1.) Relate the monocular foveal contrast sensitivity of amblyopic eyes, fellow eyes and normal eyes to the fMRI signal in defined visual areas in adults with strabismic or anisometropic amblyopia and control subjects. (2.) Measure both cooperative and suppressive binocular interactions on contrast sensitivity psychophysically and physiologically with fMRI in multiple visual cortical areas in these same subjects. This team offers a rare combination of expertise in fMRI, clinical visual assessment, and medical treatment of eye disorders. The methodological approach is appropriate for describing the heterogeneity of amblyopia because detailed maps of brain activation in individual subjects will be produced. This project is innovative because a new, noninvasive tool will be applied to understand the neural mechanisms of a prevalent visual disorder. By showing how neural deficits vary at different stages of visual processing it will be possible to postulate the neural sites of the behavioral loss in amblyopia. In addition, valuable descriptions of how abnormal early sensory experience rearranges plastic neural circuits in the human brain will be provided. In the future, it is possible that amblyopic subjects' treatment may be modified based on the degree to which fMRI activity patterns are normalized, enabling interactive treatment strategies that may greatly reduce the visual impairments in subjects with amblyopia. ? ? ?

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
7R01EY015219-02
Application #
7214675
Study Section
Central Visual Processing Study Section (CVP)
Program Officer
Agarwal, Neeraj
Project Start
2006-04-01
Project End
2009-08-31
Budget Start
2007-09-01
Budget End
2008-08-31
Support Year
2
Fiscal Year
2007
Total Cost
$162,000
Indirect Cost
Name
Mcgill University
Department
Type
DUNS #
205667090
City
Montreal
State
PQ
Country
Canada
Zip Code
H3 0-G4
Mendola, J D; Lam, J; Rosenstein, M et al. (2018) Partial correlation analysis reveals abnormal retinotopically organized functional connectivity of visual areas in amblyopia. Neuroimage Clin 18:192-201
Dawson, Debra Ann; Lam, Jack; Lewis, Lindsay B et al. (2016) Partial Correlation-Based Retinotopically Organized Resting-State Functional Connectivity Within and Between Areas of the Visual Cortex Reflects More Than Cortical Distance. Brain Connect 6:57-75
Dawson, Debra Ann; Cha, Kuwook; Lewis, Lindsay B et al. (2013) Evaluation and calibration of functional network modeling methods based on known anatomical connections. Neuroimage 67:331-43
Mendola, Janine D; Buckthought, Athena (2013) fMRI investigation of monocular pattern rivalry. J Cogn Neurosci 25:62-73
Buckthought, Athena; Mendola, Janine D (2012) How simultaneous is the perception of binocular depth and rivalry in plaid stimuli? Iperception 3:305-15
Buckthought, Athena; Mendola, Janine D (2011) A matched comparison of binocular rivalry and depth perception with fMRI. J Vis 11:
Buckthought, Athena; Jessula, Samuel; Mendola, Janine D (2011) Bistable percepts in the brain: FMRI contrasts monocular pattern rivalry and binocular rivalry. PLoS One 6:e20367
Conner, Ian P; Odom, J Vernon; Schwartz, Terry L et al. (2007) Retinotopic maps and foveal suppression in the visual cortex of amblyopic adults. J Physiol 583:159-73
Mendola, Janine D; Conner, Ian P (2007) Eye dominance predicts fMRI signals in human retinotopic cortex. Neurosci Lett 414:30-4
Conner, Ian P; Odom, J Vernon; Schwartz, Terry L et al. (2007) Monocular activation of V1 and V2 in amblyopic adults measured with functional magnetic resonance imaging. J AAPOS 11:341-50

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