Enhanced Excitability of the Human Visual Cortex Induced by Short-term Light Deprivation

doi:10.1093/cercor/10.5.529

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Cerebral Cortex, Vol. 10, No. 5, 529-534, May 2000
© 2000 Oxford University Press

Enhanced Excitability of the Human Visual Cortex Induced by Short-term Light Deprivation

Babak Boroojerdi, Khalaf O. Bushara¹, Brian Corwell, Ilka Immisch¹, Fortunato Battaglia, Wolf Muellbacher¹ and Leonardo G. Cohen

Human Cortical Physiology Section, and , ¹ Human Motor Control Section, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD, USA

Long-term deprivation of visual input for several days or weeksleads to marked changes in the excitability and function ofthe occipital cortex. The time course of these changes is poorlyunderstood. In this study, we addressed the question whethera short period of light deprivation (minutes to a few hours)can elicit such changes in humans. Noninvasive transcranialmagnetic stimulation (TMS) of the human occipital cortex canevoke the perception of flashes or spots of light (phosphenes).To assess changes in visual cortex excitability following lightdeprivation, we measured the minimum intensity of stimulationrequired to elicit phosphenes (phosphene threshold) and thenumber of phosphenes elicited by different TMS stimulus intensities(stimulus–response curves). A reduced phosphene thresholdwas detected 45 min after the onset of light deprivation andpersisted for the entire deprivation period (180 min). Followingre-exposure to light, phosphene thresholds returned to pre-deprivation values over 120 min. Stimulus–response curveswere significantly enhanced in association with this intervention.In a second experiment, we studied the effects of light deprivationon functional magnetic resonance imaging (fMRI) signals elicitedby photic stimulation. fMRI results showed increased visualcortex activation after 60 min of light deprivation that persistedfollowing 30 min of re-exposure to light. Our results demonstrateda substantial increase in visual cortex excitability. Thesechanges may underlie behavioral gains reported in humans andanimals associated with light deprivation.

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