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R A Davidoff

Showing results (61-70 of 73) with videos related to

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Brain Research|June 3, 1984
Spontaneous dorsal root potentials arise from interneuronal activity in the isolated frog spinal cordG P Ryan, J C Hackman, C J Wohlberg, et al.
Journal of Neurophysiology|November 1, 1996
Pharmacologically novel GABA receptor in human dorsal root ganglion neuronsA Y Valeyev, J C Hackman, P M Wood, et al.
Brain Research|December 10, 1993
Activation of alpha-adrenoceptors indirectly facilitates sodium pumping in frog motoneuronsS B Shope, J C Hackman, A M Holohean, et al.
Neuroscience Letters|March 28, 1983
Catecholamine effects on frog dorsal root terminalsG P Ryan, J C Hackman, C J Wohlberg, et al.
Brain Research|May 1, 1992
Activation of 5-HT1C/2 receptors depresses polysynaptic reflexes and excitatory amino acid-induced motoneuron responses in frog spinal cordA M Holohean, J C Hackman, S B Shope, et al.
Brain Research|February 18, 1985
Epinephrine- and norepinephrine-evoked potential changes of frog primary afferent terminals: pharmacological characterization of alpha and beta componentsC J Wohlberg, J C Hackman, G P Ryan, et al.
Journal of Neurology, Neurosurgery, and Psychiatry|September 1, 1976
Dacrystic epilepsyM L Offen, R A Davidoff, B T Troost, et al.
Experimental Neurology|March 1, 1973
N-methyl bicuculline and primary afferent depolarizationR A Davidoff, G E Silvey, S A Kobetz, et al.
Brain Research. Developmental Brain Research|December 13, 2000
Pentobarbital-activated Cl(-) channels in cultured adult and embryonic human DRG neuronsA Y Valeyev, J C Hackman, A M Holohean, et al.
The Journal of Physiology|March 1, 1988
Primary afferent activity, putative excitatory transmitters and extracellular potassium levels in frog spinal cordR A Davidoff, J C Hackman, A M Holohean, et al.
Pageof 8

Showing results (61-70 of 73) with videos related to

Sort By:
Pageof 8
Brain Research|June 3, 1984
Spontaneous dorsal root potentials arise from interneuronal activity in the isolated frog spinal cordG P Ryan, J C Hackman, C J Wohlberg, et al.
Journal of Neurophysiology|November 1, 1996
Pharmacologically novel GABA receptor in human dorsal root ganglion neuronsA Y Valeyev, J C Hackman, P M Wood, et al.
Brain Research|December 10, 1993
Activation of alpha-adrenoceptors indirectly facilitates sodium pumping in frog motoneuronsS B Shope, J C Hackman, A M Holohean, et al.
Neuroscience Letters|March 28, 1983
Catecholamine effects on frog dorsal root terminalsG P Ryan, J C Hackman, C J Wohlberg, et al.
Brain Research|May 1, 1992
Activation of 5-HT1C/2 receptors depresses polysynaptic reflexes and excitatory amino acid-induced motoneuron responses in frog spinal cordA M Holohean, J C Hackman, S B Shope, et al.
Brain Research|February 18, 1985
Epinephrine- and norepinephrine-evoked potential changes of frog primary afferent terminals: pharmacological characterization of alpha and beta componentsC J Wohlberg, J C Hackman, G P Ryan, et al.
Journal of Neurology, Neurosurgery, and Psychiatry|September 1, 1976
Dacrystic epilepsyM L Offen, R A Davidoff, B T Troost, et al.
Experimental Neurology|March 1, 1973
N-methyl bicuculline and primary afferent depolarizationR A Davidoff, G E Silvey, S A Kobetz, et al.
Brain Research. Developmental Brain Research|December 13, 2000
Pentobarbital-activated Cl(-) channels in cultured adult and embryonic human DRG neuronsA Y Valeyev, J C Hackman, A M Holohean, et al.
The Journal of Physiology|March 1, 1988
Primary afferent activity, putative excitatory transmitters and extracellular potassium levels in frog spinal cordR A Davidoff, J C Hackman, A M Holohean, et al.
Pageof 8