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Brain Research. Brain Research Protocols
|
October 10, 1998
A mobile intracellular microelectrode designed to record from neurons in contracting tissue
W A Kunze
Annual Review of Physiology
|
April 1, 1999
The enteric nervous system and regulation of intestinal motility
W A Kunze, J B Furness
Neuroscience Letters
|
April 10, 1987
Response of lumbar spinocervical tract cells to natural and electrical stimulation of the hindlimb footpads in cats
W A Kunze, P Wilson, P J Snow
The American Journal of Physiology
|
November 24, 1999
Nutrient tasting and signaling mechanisms in the gut. II. The intestine as a sensory organ: neural, endocrine, and immune responses
J B Furness, W A Kunze, N Clerc
Gut
|
November 15, 2000
Memory in the enteric nervous system
J B Furness, N Clerc, W A Kunze
Journal of Neurophysiology
|
May 16, 2001
Afterhyperpolarization current in myenteric neurons of the guinea pig duodenum
F Vogalis, J B Furness, W A Kunze
Journal of the Autonomic Nervous System
|
June 1, 1994
Electrophysiological characterization of myenteric neurons: how do classification schemes relate?
J C Bornstein, J B Furness, W A Kunze
Neuroscience
|
May 1, 1995
Identification of sensory nerve cells in a peripheral organ (the intestine) of a mammal
W A Kunze, J C Bornstein, J B Furness
Brain Research Bulletin
|
November 1, 1979
A new aspect of the collision test principle: cell body distance from recording site
W A Kunze, J S McKenzie, A P Bendrups
Brain Research Bulletin
|
October 1, 1984
Multiunit bursts in rat pallidum during grooming and stereotyped jaw movements
J S McKenzie, P W Everett, W A Kunze
Page
of 4
Search research articles
Search
Showing results (1-10 of 39) with videos related to
Sort By:
Page
of 4
Brain Research. Brain Research Protocols
|
October 10, 1998
A mobile intracellular microelectrode designed to record from neurons in contracting tissue
W A Kunze
Annual Review of Physiology
|
April 1, 1999
The enteric nervous system and regulation of intestinal motility
W A Kunze, J B Furness
Neuroscience Letters
|
April 10, 1987
Response of lumbar spinocervical tract cells to natural and electrical stimulation of the hindlimb footpads in cats
W A Kunze, P Wilson, P J Snow
The American Journal of Physiology
|
November 24, 1999
Nutrient tasting and signaling mechanisms in the gut. II. The intestine as a sensory organ: neural, endocrine, and immune responses
J B Furness, W A Kunze, N Clerc
Gut
|
November 15, 2000
Memory in the enteric nervous system
J B Furness, N Clerc, W A Kunze
Journal of Neurophysiology
|
May 16, 2001
Afterhyperpolarization current in myenteric neurons of the guinea pig duodenum
F Vogalis, J B Furness, W A Kunze
Journal of the Autonomic Nervous System
|
June 1, 1994
Electrophysiological characterization of myenteric neurons: how do classification schemes relate?
J C Bornstein, J B Furness, W A Kunze
Neuroscience
|
May 1, 1995
Identification of sensory nerve cells in a peripheral organ (the intestine) of a mammal
W A Kunze, J C Bornstein, J B Furness
Brain Research Bulletin
|
November 1, 1979
A new aspect of the collision test principle: cell body distance from recording site
W A Kunze, J S McKenzie, A P Bendrups
Brain Research Bulletin
|
October 1, 1984
Multiunit bursts in rat pallidum during grooming and stereotyped jaw movements
J S McKenzie, P W Everett, W A Kunze
Page
of 4