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B M Rigor

Showing results (51-60 of 83) with videos related to

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Brain Research|January 22, 1993
The neurotoxicity of sulfur-containing amino acids in energy-deprived rat hippocampal slicesA Schurr, C A West, M F Heine, et al.
Brain Research|January 2, 1997
Brain lactate, not glucose, fuels the recovery of synaptic function from hypoxia upon reoxygenation: an in vitro studyA Schurr, R S Payne, J J Miller, et al.
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|December 31, 1998
An increase in lactate output by brain tissue serves to meet the energy needs of glutamate-activated neuronsA Schurr, J J Miller, R S Payne, et al.
Life Sciences|May 25, 1987
Taurine improves the recovery of neuronal function following cerebral hypoxia: an in vitro studyA Schurr, M T Tseng, C A West, et al.
Substance and Alcohol Actions/Misuse|January 1, 1980
Does chronic halothane exposure alter brain electrical activity? Sensory evoked potentials recorded from cortex, diencephalon, and mesencephalon in freely behaving ratsG N Fuller, B M Rigor, R C Wiggins, et al.
Experimental Neurology|April 1, 1982
Chronic subanesthetic halothane exposure causes selective alterations in neurotransmitter systems in discrete brain regionsZ Gottesfeld, P N Patsalos, B M Rigor, et al.
Journal of Neuroscience Methods|May 1, 1989
Protection against cerebral hypoxia by local anesthetics: a study using brain slicesL F Lucas, C A West, B M Rigor, et al.
Regional Anesthesia|March 1, 1992
Simplified technique for subarachnoid anesthesiaA M Gomez, W E Ackerman, M Juneja, et al.
Journal of Neurochemistry|July 1, 1997
Brain lactate is an obligatory aerobic energy substrate for functional recovery after hypoxia: further in vitro validationA Schurr, R S Payne, J J Miller, et al.
Methods (San Diego, Calif.)|June 5, 1999
Study of cerebral energy metabolism using the rat hippocampal slice preparationA Schurr, R S Payne, J J Miller, et al.
Pageof 9

Showing results (51-60 of 83) with videos related to

Sort By:
Pageof 9
Brain Research|January 22, 1993
The neurotoxicity of sulfur-containing amino acids in energy-deprived rat hippocampal slicesA Schurr, C A West, M F Heine, et al.
Brain Research|January 2, 1997
Brain lactate, not glucose, fuels the recovery of synaptic function from hypoxia upon reoxygenation: an in vitro studyA Schurr, R S Payne, J J Miller, et al.
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|December 31, 1998
An increase in lactate output by brain tissue serves to meet the energy needs of glutamate-activated neuronsA Schurr, J J Miller, R S Payne, et al.
Life Sciences|May 25, 1987
Taurine improves the recovery of neuronal function following cerebral hypoxia: an in vitro studyA Schurr, M T Tseng, C A West, et al.
Substance and Alcohol Actions/Misuse|January 1, 1980
Does chronic halothane exposure alter brain electrical activity? Sensory evoked potentials recorded from cortex, diencephalon, and mesencephalon in freely behaving ratsG N Fuller, B M Rigor, R C Wiggins, et al.
Experimental Neurology|April 1, 1982
Chronic subanesthetic halothane exposure causes selective alterations in neurotransmitter systems in discrete brain regionsZ Gottesfeld, P N Patsalos, B M Rigor, et al.
Journal of Neuroscience Methods|May 1, 1989
Protection against cerebral hypoxia by local anesthetics: a study using brain slicesL F Lucas, C A West, B M Rigor, et al.
Regional Anesthesia|March 1, 1992
Simplified technique for subarachnoid anesthesiaA M Gomez, W E Ackerman, M Juneja, et al.
Journal of Neurochemistry|July 1, 1997
Brain lactate is an obligatory aerobic energy substrate for functional recovery after hypoxia: further in vitro validationA Schurr, R S Payne, J J Miller, et al.
Methods (San Diego, Calif.)|June 5, 1999
Study of cerebral energy metabolism using the rat hippocampal slice preparationA Schurr, R S Payne, J J Miller, et al.
Pageof 9