Neuronal activity is important for both the initial formation and the subsequent refinement of anatomical and physiological features of the mammalian visual system. Here we examine recent evidence concerning the role that spontaneous activity plays in axonal segregation, both of retinogeniculate afferents into eye-specific layers and of geniculocortical afferents into ocular dominance bands. We also assess the role of activity in the generation and plasticity of orientation selectivity in the primary visual cortex. Finally, we review recent challenges to textbook views on how inputs representing the two eyes interact during the critical period of visual cortical plasticity
Neuronal activity, both intrinsically generated and sensory-evoked, is known to play an important ro...
In studies of the developing mammalian visual system, it has been axiomatic that visual experience b...
During the development of the visual system of higher mammals, axons from the lateral geniculate nuc...
Neuronal activity is important for both the initial formation and the subsequent refinement of anato...
It is commonly thought that neural activity in the visual cortex reflects retinal input. Recent stud...
Spontaneous activity drives the establishment of appropriate connectivity in different circuits duri...
ABSTRACT The Role o...
Recent experiments have studied the development of orientation selectivity in normal animals, visual...
AbstractPatterned spontaneous activity seems important in the development of the retina and its proj...
Complex neural circuits in the mammalian brain develop through a combination of genetic instruction ...
SummarySpontaneous network activity constitutes a central theme during the development of neuronal c...
AbstractA central hypothesis of neural development is that patterned activity drives the refinement ...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
Precise point-to-point connectivity is the basis of ordered maps of the visual field in the brain. O...
Neuronal activity, both intrinsically generated and sensory-evoked, is known to play an important ro...
In studies of the developing mammalian visual system, it has been axiomatic that visual experience b...
During the development of the visual system of higher mammals, axons from the lateral geniculate nuc...
Neuronal activity is important for both the initial formation and the subsequent refinement of anato...
It is commonly thought that neural activity in the visual cortex reflects retinal input. Recent stud...
Spontaneous activity drives the establishment of appropriate connectivity in different circuits duri...
ABSTRACT The Role o...
Recent experiments have studied the development of orientation selectivity in normal animals, visual...
AbstractPatterned spontaneous activity seems important in the development of the retina and its proj...
Complex neural circuits in the mammalian brain develop through a combination of genetic instruction ...
SummarySpontaneous network activity constitutes a central theme during the development of neuronal c...
AbstractA central hypothesis of neural development is that patterned activity drives the refinement ...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
Precise point-to-point connectivity is the basis of ordered maps of the visual field in the brain. O...
Neuronal activity, both intrinsically generated and sensory-evoked, is known to play an important ro...
In studies of the developing mammalian visual system, it has been axiomatic that visual experience b...
During the development of the visual system of higher mammals, axons from the lateral geniculate nuc...