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The Detrimental Effect of Noisy Visual Input on the Visual Development of Human Infants
2020, iScienceCitation Excerpt :Physiological data showed that, after prolonged dark rearing, most cells in cat visual cortex were still binocularly activated and had non-specific receptive field properties, leaving the cortex in a state that can be modified by subsequent visual experience. On the other hand, prolonged binocular suture resulted in a high proportion of unresponsive cells, as well as cells with unmappable receptive fields, and a low proportion of binocularly responsive cells (Mower et al., 1981). In addition, the cats (Cynader and Mitchell, 1980; Cynader, 1983;) and rats (Fagiolini et al., 1994; Guire et al., 1999) that received monocular deprivation with dark rearing were found to present prolonged sensitivity.
Binocular eyelid closure promotes anatomical but not behavioral recovery from monocular deprivation
2015, Vision ResearchCitation Excerpt :Interestingly, neurophysiological characteristics of the visual cortex examined in dark-reared cats have been reported to be reminiscent of an earlier developmental state (Mower et al., 1981). Indeed, cats reared for extended periods in darkness retain a high, juvenile-like capacity for monocular deprivation-induced ocular dominance plasticity in comparison to cats subjected to prolonged BLS that showed little capacity for such neural modification (Cyndader & Mitchell, 1980; Mower et al., 1981; Wiesel & Hubel, 1965b). Revealing the molecular signature of dark-rearing in relation to other recovery conditions such as BLS that do not promote behavioral recovery will play an important role in building an understanding the mechanisms of recovery.
Experience-Dependent Synaptic Plasticity in the Developing Cerebral Cortex
2013, The Synapse: Structure and Function