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A B Chatt

Showing results (1-10 of 14) with videos related to

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Brain Research|January 9, 1984
Identification of penicillin diffusion at the onset of epileptogenesis in the cat striate cortex following differential laminar microinjectionA B Chatt, J S Ebersole
Brain Research|March 19, 1984
Phenytoin preferentially suppresses epileptiform activity in the superficial cortical layers of the catA B Chatt, J S Ebersole
Experimental Brain Research|July 15, 1977
Cerebral evoked responses to skin warming recorded from human scalpA B Chatt, D R Kenshalo
Brain Research|April 30, 1984
Laminar interactions during neocortical epileptogenesisJ S Ebersole, A B Chatt
Brain Research|June 10, 1982
The laminar sensitivity of cat striate cortex to penicillin induced epileptogenesisA B Chatt, J S Ebersole
Advances in Neurology|January 1, 1986
Spread and arrest of seizures: the importance of layer 4 in laminar interactions during neocortical epileptogenesisJ S Ebersole, A B Chatt
Brain Research|August 12, 1985
Differences between strychnine and penicillin epileptogenesis suggest a laminar organization of neocortical inhibitionJ S Ebersole, A B Chatt
Experimental Neurology|May 1, 1988
Comparisons between strychnine and penicillin epileptogenesis suggest that propagating epileptiform abnormalities require the potentiation of thalamocortical circuitry in neocortical layer 4A B Chatt, J S Ebersole
Experimental Neurology|April 1, 1979
The afferent fiber population mediating the thermal evoked response to skin cooling in manA B Chatt, D R Kenshalo
Epilepsia|June 1, 1981
Toward a unified theory of focal penicillin epileptogenesis: an intracortical evoked potential investigationJ S Ebersole, A B Chatt
Pageof 2

Showing results (1-10 of 14) with videos related to

Sort By:
Pageof 2
Brain Research|January 9, 1984
Identification of penicillin diffusion at the onset of epileptogenesis in the cat striate cortex following differential laminar microinjectionA B Chatt, J S Ebersole
Brain Research|March 19, 1984
Phenytoin preferentially suppresses epileptiform activity in the superficial cortical layers of the catA B Chatt, J S Ebersole
Experimental Brain Research|July 15, 1977
Cerebral evoked responses to skin warming recorded from human scalpA B Chatt, D R Kenshalo
Brain Research|April 30, 1984
Laminar interactions during neocortical epileptogenesisJ S Ebersole, A B Chatt
Brain Research|June 10, 1982
The laminar sensitivity of cat striate cortex to penicillin induced epileptogenesisA B Chatt, J S Ebersole
Advances in Neurology|January 1, 1986
Spread and arrest of seizures: the importance of layer 4 in laminar interactions during neocortical epileptogenesisJ S Ebersole, A B Chatt
Brain Research|August 12, 1985
Differences between strychnine and penicillin epileptogenesis suggest a laminar organization of neocortical inhibitionJ S Ebersole, A B Chatt
Experimental Neurology|May 1, 1988
Comparisons between strychnine and penicillin epileptogenesis suggest that propagating epileptiform abnormalities require the potentiation of thalamocortical circuitry in neocortical layer 4A B Chatt, J S Ebersole
Experimental Neurology|April 1, 1979
The afferent fiber population mediating the thermal evoked response to skin cooling in manA B Chatt, D R Kenshalo
Epilepsia|June 1, 1981
Toward a unified theory of focal penicillin epileptogenesis: an intracortical evoked potential investigationJ S Ebersole, A B Chatt
Pageof 2