Katz, Donald B; Rogers, Ronald F; Steinmetz, Joseph E (2002) Novel factors contributing to the expression of latent inhibition. Behav Neurosci 116:824-36
|
Katz, D B; Tracy, J A; Steinmetz, J E (2001) Rabbit classical eyeblink conditioning is altered by brief cerebellar cortical stimulation. Physiol Behav 72:499-510
|
Steinmetz, J E; Tracy, J A; Green, J T (2001) Classical eyeblink conditioning: clinical models and applications. Integr Physiol Behav Sci 36:220-38
|
Rogers, R F; Britton, G B; Steinmetz, J E (2001) Learning-related interpositus activity is conserved across species as studied during eyeblink conditioning in the rat. Brain Res 905:171-7
|
Churchill, J D; Green, J T; Voss, S E et al. (2001) Discrimination reversal conditioning of an eyeblink response is impaired by NMDA receptor blockade. Integr Physiol Behav Sci 36:62-74
|
Chen, G; Steinmetz, J E (2000) Intra-cerebellar infusion of NMDA receptor antagonist AP5 disrupts classical eyeblink conditioning in rabbits. Brain Res 887:144-56
|
Chen, G; Steinmetz, J E (2000) Microinfusion of protein kinase inhibitor H7 into the cerebellum impairs the acquisition but not the retention of classical eyeblink conditioning in rabbits. Brain Res 856:193-201
|
Banks, M K; Mohr, N L; Besheer, J et al. (1999) The effects of phenytoin on instrumental appetitive-to-aversive transfer in rats. Pharmacol Biochem Behav 63:465-72
|
Rogers, R F; Fender, A F; Steinmetz, J E (1999) The cerebellum is necessary for rabbit classical eyeblink conditioning with a non-somatosensory (photic) unconditioned stimulus. Behav Brain Res 104:105-12
|
Churchill, J D; Voss, S E; Miller, D P et al. (1998) Phenytoin blocks the reversal of a classically conditioned discriminative eyeblink response in rabbits. Epilepsia 39:584-9
|
Showing the most recent 10 out of 12 publications