2009
DOI: 10.1073/pnas.0900068106
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Strengthening of lateral activation in adult rat visual cortex after retinal lesions captured with voltage-sensitive dye imaging in vivo

Abstract: Sensory deprivation caused by peripheral injury can trigger functional cortical reorganization across the initially silenced cortical area. It is proposed that intracortical connectivity enables recovery of function within such a lesion projection zone (LPZ), thus substituting lost subcortical input. Here, we investigated retinal lesioninduced changes in the function of lateral connections in the primary visual cortex of the adult rat. Using voltage-sensitive dye recordings, we visualized in millisecond-time r… Show more

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Cited by 43 publications
(37 citation statements)
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“…In the future, these capacities might provide a powerful approach to study cortical reorganization processes (70,71) of the functional neuronal architecture induced by TMSbased plasticity and learning protocols. Heart rate, intratracheal pressure, exhaled CO 2 , and body temperature were monitored.…”
Section: Discussionmentioning
confidence: 99%
“…In the future, these capacities might provide a powerful approach to study cortical reorganization processes (70,71) of the functional neuronal architecture induced by TMSbased plasticity and learning protocols. Heart rate, intratracheal pressure, exhaled CO 2 , and body temperature were monitored.…”
Section: Discussionmentioning
confidence: 99%
“…Secondly, there is an extensive remapping and reorganization of the visual field representation after pre-and post-chiasmatic damage as shown in animal model studies [34][35][36][37], as well as behavioral [38] and fMRI studies in patients [31][32][33]39]. Such receptive field reorganization is believed to be mediated by mechanisms involving plasticity of intrinsic cortical horizontal connections [40]. Importantly, receptive fields modifications are found not only within the damaged tissue or lesion projection zone, but they also occur in the area adjacent to the scotoma but not directly affected by the lesion [35,37].…”
Section: Perceptual Deficits In the ''Intact'' Visual Field Of Patientsmentioning
confidence: 99%
“…Optical imaging of VSD was so far mostly applied to explore the in vivo functional architecture of the mammalian neocortex at high spatial (up to 50 m) and temporal (millisecond) resolution (Grinvald et al, 1994;Seidemann et al, 2002;Jancke et al, 2004;Sharon et al, 2007;Palagina et al, 2009) (but see Prechtl et al, 1997;Senseman and Robbins, 1999, for VSD imaging in the turtle visual brain in vivo). The VSD binds to the external surfaces of all excitable membranes.…”
Section: Vsd Imagingmentioning
confidence: 99%