SBRI investigates the development, function and repair of neuronal circuits involved in cognition, motor control and biological rhythms and researches the structural foundations of computation in the cortex. We seek to develop embryonic stem cell based therapies so as to reverse the effects of brain lesions leading to the motor and cognitive deficits found in neurological disease including Parkinson's.
|2015||85(2):390-401||Visual areas exert feedforward and feedback influences through distinct frequency channels||Bastos AM, Vezoli J, Bosman CA, Schoffelen JM, Oostenveld R, Dowdall JR, De Weerd P, Kennedy H, Fries P||Neuron||-|
|1992||320(4):415-34||Visuotopic organization of corticocortical connections in the visual system of the cat||Salin PA, Girard P, Kennedy H, Bullier J||J Comp Neurol|
|2011||21(6):1254-72||Weight consistency specifies regularities of macaque cortical networks||Markov NT, Misery P, Falchier A, Lamy C, Vezoli J, Quilodran R, Gariel MA, Giroud P, Ercsey-Ravasz M, Pilaz LJ, Huissoud C, Barone P, Dehay C, Toroczkai Z, Van Essen DC, Kennedy H, Knoblauch K||Cereb Cortex|
|2013||80:37-45||Why data coherence and quality is critical for understanding interareal cortical networks||Kennedy H, Knoblauch K, Toroczkai Z||Neuroimage|
|2013||80:37-45||Why data coherence and quality is critical for understanding interareal cortical networks||Kennedy H, Knoblauch K, Toroczkai Z||Neuroimage||-|