about
Direct, live imaging of cortical spreading depression and anoxic depolarisation using a fluorescent, voltage-sensitive dye.Cortical plasticity: learning while you sleep?Vision: in the brain of the beholder.Limited protection of the primary visual cortex from the effects of monocular deprivation by strabismus.Visual cortical recovery from reverse occlusion depends on concordant binocular experience.Visual cortex: overcoming a no-go for plasticity.Strabismic suppression is mediated by inhibitory interactions in the primary visual cortex.Apomorphine-induced differences in cortical and striatal EEG and their glutamatergic mediation in 6-hydroxydopamine-treated rats.Interocular transfer of adaptation in the primary visual cortex.Binocular vision: only half a brain needed.Plasticity of the visual cortex and treatment of amblyopia.Amblyopia: out of the dark, into the light.Neuroprotective effects of hydrated fullerene C60: cortical and hippocampal EEG interplay in an amyloid-infused rat model of Alzheimer's disease.Optical imaging of intrinsic signals: recent developments in the methodology and its applications.Enhancement of visual cortex plasticity by dark exposureNeural mechanisms of recovery following early visual deprivationNatural scene statistics and the structure of orientation maps in the visual cortex.Experimental models of amblyopia: insights for prevention and treatment.Integrating Hebbian and homeostatic plasticity: the current state of the field and future research directions.Orientation specificity of contrast adaptation in visual cortical pinwheel centres and iso-orientation domains.The role of GluA1 in ocular dominance plasticity in the mouse visual cortex.Functional reorganization of visual cortex maps after ischemic lesions is accompanied by changes in expression of cytoskeletal proteins and NMDA and GABA(A) receptor subunits.Intracortical origins of interocular suppression in the visual cortex.Optophysiological Characterisation of Inner Retina Responses with High-Resolution Optical Coherence Tomography.Brief daily periods of binocular vision prevent deprivation-induced acuity loss.Effects of digesting chondroitin sulfate proteoglycans on plasticity in cat primary visual cortex.Brief daily binocular vision prevents monocular deprivation effects in visual cortex.Intrinsic and environmental factors in the development of functional maps in cat visual cortex.The 'Ideal Homunculus': decoding neural population signals.Characteristics of surround inhibition in cat area 17.Stripe-rearing changes multiple aspects of the structure of primary visual cortex.Monocular deprivation reduces reliability of visual cortical responses to binocular disparity stimuli.A novel system for the classification of diseased retinal ganglion cells.Responses of neurons in primary and inferior temporal visual cortices to natural scenes.Spatial summation across the visual field in strabismic and anisometropic amblyopia.Spatial Memory Engram in the Mouse Retrosplenial Cortex.Plasticity in Adult Mouse Visual Cortex Following Optic Nerve InjuryVisual response properties and afferents of nucleus of the optic tract in the ferretEffects of early monocular deprivation on response properties and afferents of nucleus of the optic tract in the ferretInterocular suppression in the primary visual cortex: a possible neural basis of binocular rivalry
P50
Q30486418-BB42CB72-0DDA-4BB5-B5C9-7D0209E54F93Q30705071-FFDAD00A-F403-4B2A-A12A-E4EDFBE8F9B2Q31135226-2ADC2E34-E3EF-4080-A168-7445E967FDD1Q33212014-8D74C4CA-76D5-4DF0-B302-2CA5F87C66BCQ33229473-E89A55DC-AAE5-44BD-9440-FE66EC4C3D0EQ33229760-CCDA49E0-61E7-49BD-9C7E-058553C1B0E4Q33231123-9F2CA106-B13A-40E2-B921-F947FEE10144Q33358164-3D490E98-7E7A-464B-9D98-EF57B2B3AE21Q33385066-3D3FD6BB-BF13-4E4A-B6AB-79257BE5F9A6Q33387474-2ADB0BFD-C553-4023-9885-896D972E9A67Q34440007-1C0FFB35-DCF9-4841-B829-6C843A130DC8Q34615294-03D9B3B7-DF1A-47C0-ABE5-2DC78F341E81Q35542982-7295E0EB-A70A-4220-A330-06F9D054DCEBQ35764085-E68BB436-9CEB-42B0-AD3E-12EEB256ECB1Q36250798-687057C5-7D76-41AA-9CBE-D3EB88899F97Q37172581-9FDA3198-FD76-4879-8663-63A5851D2B4AQ37266839-6448DE4E-09FA-4CB8-9D3E-8EFC957ED936Q37922779-3C4AF35B-551E-4043-B9DE-6AB91AD54F68Q38769764-C1DE5332-0CA9-48BF-B47C-8A376EE6EC68Q43925278-FFD3CB43-4B9E-4DCF-972D-763189B4ADCAQ44502136-49550E90-A9F3-4803-AEC8-7F40F4FF0281Q44777508-4869D60E-EC71-4E1B-BC73-B6A985FBF3F8Q46586684-2098276A-CF60-478A-8DE7-321EBB7006B4Q47644861-735F6B32-6852-4B48-876D-C88796EA398DQ48183009-98AAE3B2-DA5C-44E4-AEEB-D11769948390Q48228548-FFB795C1-DF5D-41CC-A2F5-5164DE50256AQ48301752-31DE64C8-B462-435A-83FB-4B7B1093A207Q48411368-63E24C3A-B40C-4DDA-9517-652DF6EEA333Q48439740-D239A31E-9770-429C-B6B1-7418353678A2Q48605383-58BF7ED4-7F8C-4B74-8468-13A31AAE12D5Q51100455-F5891339-F7CF-416C-9B88-955A363AE75BQ52583757-D85B1B58-8860-4692-9988-5C2DFD7FFCF9Q53158282-1B47EF9D-C1CC-4BBE-88D4-55B3A9FEDD1AQ55120654-38777681-A533-4AB4-8418-8E3D3020D8F4Q55431912-1EE32B85-E86A-4643-B338-10D179F3C8A4Q55458607-7BA579C3-2C09-45B2-AA19-48D926ACFC90Q64265515-6710219A-5B55-40D3-8D74-07C2B2E241D4Q70237505-FCF57428-A65A-4CDB-A62B-8BF745CEE297Q70237509-B08A092F-EE66-4495-86FA-BCD345112A7FQ72487993-F49BD454-7EAB-4798-9713-266948FCF6F6
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Frank Sengpiel
@ast
Frank Sengpiel
@en
Frank Sengpiel
@es
Frank Sengpiel
@nl
Frank Sengpiel
@sl
type
label
Frank Sengpiel
@ast
Frank Sengpiel
@en
Frank Sengpiel
@es
Frank Sengpiel
@nl
Frank Sengpiel
@sl
prefLabel
Frank Sengpiel
@ast
Frank Sengpiel
@en
Frank Sengpiel
@es
Frank Sengpiel
@nl
Frank Sengpiel
@sl
P1053
A-4682-2010
P106
P1153
7003343795
P21
P31
P496
0000-0002-7060-1851