Kerstin Erika Schmidt

MPI for Brain Research, Frankfurt am Main, Hessen, Germany 
Visual Neuroscience
"Kerstin Schmidt"
Mean distance: 13.15 (cluster 17)
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Lima B, Florentino MM, Fiorani M, et al. (2023) Cortical maps as a fundamental neural substrate for visual representation. Progress in Neurobiology. 224: 102424
Schmidt KE, Wolf F. (2021) Punctuated evolution of visual cortical circuits? Evidence from the large rodent Dasyprocta leporina, and the tiny primate Microcebus murinus. Current Opinion in Neurobiology. 71: 110-118
Ferreiro DN, Conde-Ocazionez SA, Patriota JHN, et al. (2021) Spatial clustering of orientation preference in primary visual cortex of the large rodent agouti. Iscience. 24: 101882
Conde-Ocazionez SA, Jungen C, Wunderle T, et al. (2018) Callosal Influence on Visual Receptive Fields Has an Ocular, an Orientation-and Direction Bias. Frontiers in Systems Neuroscience. 12: 11
Conde-Ocazionez S, Altavini TS, Wunderle T, et al. (2017) Motion contrast in primary visual cortex: a direct comparison of single neuron and population encoding. The European Journal of Neuroscience
Altavini TS, Ocazionez SA, Eriksson D, et al. (2016) Selective interhemispheric circuits account for a cardinal bias in spontaneous activity within early visual areas. Neuroimage
Wunderle T, Eriksson D, Peiker C, et al. (2015) Input and output gain modulation by the lateral interhemispheric network in early visual cortex. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 35: 7682-94
Peiker C, Wunderle T, Eriksson D, et al. (2013) An updated midline rule: visual callosal connections anticipate shape and motion in ongoing activity across the hemispheres. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 33: 18036-46
Schmidt KE. (2013) The visual callosal connection: a connection like any other? Neural Plasticity. 2013: 397176
Wunderle T, Eriksson D, Schmidt KE. (2013) Multiplicative mechanism of lateral interactions revealed by controlling interhemispheric input. Cerebral Cortex (New York, N.Y. : 1991). 23: 900-12
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