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J H Lucas

Showing results (21-30 of 31) with videos related to

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Journal of Neuropathology and Experimental Neurology|October 24, 1998
The endogenous antioxidant glutathione as a factor in the survival of physically injured mammalian spinal cord neuronsJ H Lucas, D G Wheeler, D G Emery, et al.
Journal of Neuropathology and Experimental Neurology|May 1, 1985
In vitro simulation of neural trauma by laserJ B Kirkpatrick, M L Higgins, J H Lucas, et al.
Central Nervous System Trauma : Journal of the American Paralysis Association|January 1, 1985
Neuronal survival or death after dendrite transection close to the perikaryon: correlation with electrophysiologic, morphologic, and ultrastructural changesJ H Lucas, G W Gross, D G Emery, et al.
Brain Research|March 5, 1999
Inosine and guanosine preserve neuronal and glial cell viability in mouse spinal cord cultures during chemical hypoxiaM L Litsky, C M Hohl, J H Lucas, et al.
Journal of Neurotrauma|January 1, 1990
Neuronal survival and dynamics of ultrastructural damage after dendrotomy in low calciumJ H Lucas, D G Emery, M L Higgins, et al.
Journal of Neurotrauma|July 23, 1998
Increased jun immunoreactivity in an in vitro model of mammalian spinal neuron physical injuryR Raghupathi, I Grants, L J Rosenberg, et al.
Brain Research|July 1, 1996
Responsiveness to ATP with an increase in intracellular free Ca2+ is not a distinctive feature of calbindin-D28 immunoreactive neurons in myenteric gangliaF L Christofi, Z Guan, J H Lucas, et al.
Bioelectromagnetics|January 1, 1995
Chronically indwelling venous cannula and automatic blood sampling system for use with nonhuman primates exposed to 60 Hz electric and magnetic fieldsW R Rogers, J H Lucas, B C Mikiten, et al.
Journal of Neurotrauma|August 1, 1996
Effects of methylprednisolone on lesioned and uninjured mammalian spinal neurons: viability, ultrastructure, and network electrophysiologyL J Rosenberg, R S Jordan, G W Gross, et al.
Bioelectromagnetics|January 1, 1995
A 60 Hz electric and magnetic field exposure facility for nonhuman primates: design and operational data during experimentsW R Rogers, J H Lucas, W E Cory, et al.
Pageof 4

Showing results (21-30 of 31) with videos related to

Sort By:
Pageof 4
Journal of Neuropathology and Experimental Neurology|October 24, 1998
The endogenous antioxidant glutathione as a factor in the survival of physically injured mammalian spinal cord neuronsJ H Lucas, D G Wheeler, D G Emery, et al.
Journal of Neuropathology and Experimental Neurology|May 1, 1985
In vitro simulation of neural trauma by laserJ B Kirkpatrick, M L Higgins, J H Lucas, et al.
Central Nervous System Trauma : Journal of the American Paralysis Association|January 1, 1985
Neuronal survival or death after dendrite transection close to the perikaryon: correlation with electrophysiologic, morphologic, and ultrastructural changesJ H Lucas, G W Gross, D G Emery, et al.
Brain Research|March 5, 1999
Inosine and guanosine preserve neuronal and glial cell viability in mouse spinal cord cultures during chemical hypoxiaM L Litsky, C M Hohl, J H Lucas, et al.
Journal of Neurotrauma|January 1, 1990
Neuronal survival and dynamics of ultrastructural damage after dendrotomy in low calciumJ H Lucas, D G Emery, M L Higgins, et al.
Journal of Neurotrauma|July 23, 1998
Increased jun immunoreactivity in an in vitro model of mammalian spinal neuron physical injuryR Raghupathi, I Grants, L J Rosenberg, et al.
Brain Research|July 1, 1996
Responsiveness to ATP with an increase in intracellular free Ca2+ is not a distinctive feature of calbindin-D28 immunoreactive neurons in myenteric gangliaF L Christofi, Z Guan, J H Lucas, et al.
Bioelectromagnetics|January 1, 1995
Chronically indwelling venous cannula and automatic blood sampling system for use with nonhuman primates exposed to 60 Hz electric and magnetic fieldsW R Rogers, J H Lucas, B C Mikiten, et al.
Journal of Neurotrauma|August 1, 1996
Effects of methylprednisolone on lesioned and uninjured mammalian spinal neurons: viability, ultrastructure, and network electrophysiologyL J Rosenberg, R S Jordan, G W Gross, et al.
Bioelectromagnetics|January 1, 1995
A 60 Hz electric and magnetic field exposure facility for nonhuman primates: design and operational data during experimentsW R Rogers, J H Lucas, W E Cory, et al.
Pageof 4