Monocular visual deprivation (MD) produces profound changes in the ocular dominance (OD) of neurons in the visual cortex. MD shifts visually evoked responses away from the deprived eye and toward domination by the open-eye. Over 30 years ago, two different theories were proposed to account for these changes: either through effects on excitatory visual drive, thereby shifting the balance of excitation in favor of the open-eye, or through effects on intracortical inhibition, thereby suppressing responses from the deprived eye. In the intervening years, a scientific consensus emerged that the major functional effects of MD result from plasticity at excitatory connections in the visual cortex. A recent study by Yazaki-Sugiyama et al. (2009) in ...
<p>Understanding plasticity and learning has been a fundamental question of neuroscience for decades...
AbstractWe used a chronic recording method to document the kinetics of ocular dominance (OD) plastic...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...
SummaryBackgroundTo ensure that neuronal networks function in a stable fashion, neurons receive bala...
Background To ensure that neuronal networks function in a stable fashion, neurons receive balanced i...
Ocular dominance (OD) plasticity is a classic example of bidirectional experience-dependent plastici...
Early sensory experience instructs the maturation of neural circuitry in the cortex. This has been s...
SummaryBrief monocular deprivation (MD) shifts ocular dominance (OD) in primary visual cortex by cau...
Brief monocular deprivation (MD) shifts ocular dominance (OD) in primary visual cortex by causing de...
SummaryVisual deprivation is a classical tool to study the plasticity of visual cortical connections...
Monocular deprivation (MD) is a well-known paradigm of experience-dependent plasticity in which cort...
Ocular dominance plasticity is a well-documented phenomenon allowing us to study properties of corti...
Monocular deprivation (MD) during development leads to a dramatic loss of responsiveness through the...
Ocular dominance plasticity is a well-documented phenomenon allowing us to study properties of corti...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...
<p>Understanding plasticity and learning has been a fundamental question of neuroscience for decades...
AbstractWe used a chronic recording method to document the kinetics of ocular dominance (OD) plastic...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...
SummaryBackgroundTo ensure that neuronal networks function in a stable fashion, neurons receive bala...
Background To ensure that neuronal networks function in a stable fashion, neurons receive balanced i...
Ocular dominance (OD) plasticity is a classic example of bidirectional experience-dependent plastici...
Early sensory experience instructs the maturation of neural circuitry in the cortex. This has been s...
SummaryBrief monocular deprivation (MD) shifts ocular dominance (OD) in primary visual cortex by cau...
Brief monocular deprivation (MD) shifts ocular dominance (OD) in primary visual cortex by causing de...
SummaryVisual deprivation is a classical tool to study the plasticity of visual cortical connections...
Monocular deprivation (MD) is a well-known paradigm of experience-dependent plasticity in which cort...
Ocular dominance plasticity is a well-documented phenomenon allowing us to study properties of corti...
Monocular deprivation (MD) during development leads to a dramatic loss of responsiveness through the...
Ocular dominance plasticity is a well-documented phenomenon allowing us to study properties of corti...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...
<p>Understanding plasticity and learning has been a fundamental question of neuroscience for decades...
AbstractWe used a chronic recording method to document the kinetics of ocular dominance (OD) plastic...
Activity of cortical inhibitory interneurons is rapidly reduced in response to monocular deprivation...