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T J Ebner

Showing results (11-20 of 85) with videos related to

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Journal of Neurophysiology|May 1, 1981
Role of climbing fiber afferent input in determining responsiveness of Purkinje cells to mossy fiber inputsT J Ebner, J R Bloedel
Journal of Neurophysiology|December 1, 1992
Purkinje cell complex and simple spike changes during a voluntary arm movement learning task in the monkeyC L Ojakangas, T J Ebner
The Journal of Physiology|July 1, 1984
Rhythmic discharge of climbing fibre afferents in response to natural peripheral stimuli in the catJ R Bloedel, T J Ebner
Journal of Neurophysiology|December 1, 1994
Purkinje cell complex spike activity during voluntary motor learning: relationship to kinematicsC L Ojakangas, T J Ebner
Experimental Brain Research|January 26, 2005
Effects of speeds and force fields on submovements during circular manual tracking in humansS Pasalar, A V Roitman, T J Ebner
Journal of Neurophysiology|December 1, 1996
Functional parasagittal compartments in the rat cerebellar cortex: an in vivo optical imaging study using neutral redG Chen, C L Hanson, T J Ebner
Neuroscience|February 1, 1993
Optical imaging of parallel fiber activation in the rat cerebellar cortex: spatial effects of excitatory amino acidsS A Elias, H Yae, T J Ebner
Journal of Neuroscience Methods|May 1, 1992
Deblurring of 3-dimensional patterns of evoked rat cerebellar cortical activity: a study using voltage-sensitive dyes and optical sectioningH Yae, S A Elias, T J Ebner
Neuroscience|February 23, 2000
Role of climbing fibers in determining the spatial patterns of activation in the cerebellar cortex to peripheral stimulation: an optical imaging studyC L Hanson, G Chen, T J Ebner
Neuroscience|May 14, 1998
Optical responses evoked by cerebellar surface stimulation in vivo using neutral redG Chen, C L Hanson, T J Ebner
Pageof 9

Showing results (11-20 of 85) with videos related to

Sort By:
Pageof 9
Journal of Neurophysiology|May 1, 1981
Role of climbing fiber afferent input in determining responsiveness of Purkinje cells to mossy fiber inputsT J Ebner, J R Bloedel
Journal of Neurophysiology|December 1, 1992
Purkinje cell complex and simple spike changes during a voluntary arm movement learning task in the monkeyC L Ojakangas, T J Ebner
The Journal of Physiology|July 1, 1984
Rhythmic discharge of climbing fibre afferents in response to natural peripheral stimuli in the catJ R Bloedel, T J Ebner
Journal of Neurophysiology|December 1, 1994
Purkinje cell complex spike activity during voluntary motor learning: relationship to kinematicsC L Ojakangas, T J Ebner
Experimental Brain Research|January 26, 2005
Effects of speeds and force fields on submovements during circular manual tracking in humansS Pasalar, A V Roitman, T J Ebner
Journal of Neurophysiology|December 1, 1996
Functional parasagittal compartments in the rat cerebellar cortex: an in vivo optical imaging study using neutral redG Chen, C L Hanson, T J Ebner
Neuroscience|February 1, 1993
Optical imaging of parallel fiber activation in the rat cerebellar cortex: spatial effects of excitatory amino acidsS A Elias, H Yae, T J Ebner
Journal of Neuroscience Methods|May 1, 1992
Deblurring of 3-dimensional patterns of evoked rat cerebellar cortical activity: a study using voltage-sensitive dyes and optical sectioningH Yae, S A Elias, T J Ebner
Neuroscience|February 23, 2000
Role of climbing fibers in determining the spatial patterns of activation in the cerebellar cortex to peripheral stimulation: an optical imaging studyC L Hanson, G Chen, T J Ebner
Neuroscience|May 14, 1998
Optical responses evoked by cerebellar surface stimulation in vivo using neutral redG Chen, C L Hanson, T J Ebner
Pageof 9