Richard W. Keller, Jr.
Professor and Associate Dean for Graduate Studies
Neuroscience and Experimental Therapeutics
Albany Medical College
United States of America
Biography
Dr. Richard W. Keller, Jr. is currently working as a Professor and Associate Dean for Graduate Studies in the Department of Neuroscience and Experimental Therapeutics, Albany Medical College , USA. His research interests includes neonatal stroke, inflammation, neurological, cognitive impairment . He is serving as an editorial member and reviewer of several international reputed journals. Dr. Richard W. Keller, Jr. is the member of many international affiliations. He has successfully completed his Administrative responsibilities. He has authored of many research articles/books related to neonatal stroke, inflammation, neurological, cognitive impairment .
Research Interest
neonatal stroke, inflammation, neurological, cognitive impairment
Publications
-
. Mongin, A.A., Hyzinski-GarcÃa, M.C., Vincent, M.Y., and Keller, R.W., Jr., A simple method for measuring intracellular glutamine synthetase and glutaminase activities in glial cells. Am. J. Physiol. Cell Physiol. 301, C814-C822. (2011).
-
Hyzinski-GarcÃa, M.C., Vincent, M.Y., Haskew-Layton, R.E., Dohare, P., Keller, R.W. Jr., Mongin, A.A., Hypoosmotic swelling modifies glutamate-glutamine cycle in the rat brain in vivo and in cultured astrocytes. J. Neurochem., 118, 140-152 (2011).
-
Pabello,N.G., Tracy,S.J., Snyder-Keller,A., and Keller,R.W. Jr., Regional expression of constitutive and inducible transcription factors following transient focal ischemia in the neonatal rat: Influence of hypothermia., Brain Res., 1038: 11-21 (2005).
-
Pabello,N.G., Tracy,S.J., and Keller,R.W.Jr., Protective effects of brief intra- and delayed postischemic hypothermia in a transient focal ischemia model in the neonatal rat., Brain Res.,995: 29-38 (2004).
-
Seki, U., Feustel, P.J., Kimelberg, H.K., Keller, R.W.,Jr., Charniga, C., Chandra, A. & Tranmer, B.I., Mechanisms of ischemia-induced glutamate release in rat striatum: An in vivo brain microdialysis study. Stroke 30, 433-440 (1999).
