Search Results - "GRILL, R. J"

Robust Growth of Chronically Injured Spinal Cord Axons Induced by Grafts of Genetically Modified NGF-Secreting Cells by Grill, R.J., Blesch, A., Tuszynski, M.H.

“…Little spontaneous regeneration of axons occurs after acute and chronic injury to the CNS. Previously we have shown that the continuous local delivery of…”
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Leukemia Inhibitory Factor Augments Neurotrophin Expression and Corticospinal Axon Growth after Adult CNS Injury by Blesch, A, Uy, H. S, Grill, R. J, Cheng, J.-G, Patterson, P. H, Tuszynski, M. H

“…The cytokine leukemia inhibitory factor (LIF) modulates glial and neuronal function in development and after peripheral nerve injury, but little is known…”
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User-defined variables that affect outcome in spinal cord contusion/compression models by Grill, R.J.

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Elimination of Basal Lamina and the Collagen “Scar” after Spinal Cord Injury Fails to Augment Corticospinal Tract Regeneration by Weidner, N., Grill, R.J., Tuszynski, M.H.

“…The production of specific extracellular matrix molecules is upregulated following injury to the adult CNS, and some of these molecules have been postulated to…”
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Aquaporins in spinal cord injury: the janus face of aquaporin 4 by Nesic, O, Guest, J.D, Zivadinovic, D, Narayana, P.A, Herrera, J.J, Grill, R.J, Mokkapati, V.U.L, Gelman, B.B, Lee, J

“…Abstract Although malfunction of spinal cord water channels (aquaporins, AQP) likely contributes to severe disturbances in ion/water homeostasis after spinal…”
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Neurotrophin gene therapy in CNS models of trauma and degeneration by Blesch, A, Grill, R J, Tuszynski, M H

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2-Mercaptoethanol is a survival factor for olfactory, cortical and hippocampal neurons in short-term dissociated cell culture by Grill, Jr, R J, Pixley, S K

“…A medium originally designed for lymphocyte growth promoted robust survival of olfactory receptor neurons (ORNs) in short-term (4-day), dissociated cell…”
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High-density microarray analysis of hippocampal gene expression following experimental brain injury by Matzilevich, David A., Rall, Jason M., Moore, Anthony N., Grill, Raymond J., Dash, Pramod K.

“…Behavioral, biophysical, and pharmacological studies have implicated the hippocampus in the formation and storage of spatial memory. Traumatic brain injury…”
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Nerve growth factor-hypersecreting Schwann cell grafts augment and guide spinal cord axonal growth and remyelinate central nervous system axons in a phenotypically appropriate manner that correlates with expression of L1 by Weidner, N., Blesch, A., Grill, R.J., Tuszynski, M.H.

“…Schwann cells contribute to efficient axonal regeneration after peripheral nerve injury and, when grafted to the central nervous system (CNS), also support a…”
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High molecular weight hyaluronic acid limits astrocyte activation and scar formation after spinal cord injury by Khaing, Zin Z, Milman, Brian D, Vanscoy, Jennifer E, Seidlits, Stephanie K, Grill, Raymond J, Schmidt, Christine E

“…A major hurdle for regeneration after spinal cord injury (SCI) is the ability of axons to penetrate and grow through the scar tissue. After SCI, inflammatory…”
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In Vitro Generation of Adult Rat Olfactory Sensory Neurons and Regulation of Maturation by Coculture with CNS Tissues by Grill, Raymond J, Pixley, Sarah K

“…Olfactory sensory neurons (OSNs) are continually generated throughout life. Although previous studies have examined neurogenesis in olfactory cell cultures…”
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Chronic spontaneous activity generated in the somata of primary nociceptors is associated with pain-related behavior after spinal cord injury by Bedi, Supinder S, Yang, Qing, Crook, Robyn J, Du, Junhui, Wu, Zizhen, Fishman, Harvey M, Grill, Raymond J, Carlton, Susan M, Walters, Edgar T

“…Mechanisms underlying chronic pain that develops after spinal cord injury (SCI) are incompletely understood. Most research on SCI pain mechanisms has focused…”
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AQUAPORINS IN SPINAL CORD INJURY: THE JANUS FACE OF AQUAPORIN 4: Aquaporins in Brain and Spinal Cord by NESIC, O, GUEST, J. D, ZIVADINOVIC, D, NARAYANA, P. A, HERRERA, J. J, GRILL, R. J, MOKKAPATI, V. U. L, GELMAN, B. B, LEE, J

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Tissue displacement and impact force are important contributors to outcome after spinal cord contusion injury. Commentary by GRILL, R. J, GHASEMLOU, Nader, KERR, Bradley J, DAVID, Samuel

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In vivo serial diffusion tensor imaging of experimental spinal cord injury by Deo, Aparna A., Grill, Raymond J., Hasan, Khader M., Narayana, Ponnada A.

“…In vivo longitudinal diffusion tensor imaging (DTI) of rodent spinal cord injury (SCI) was carried out over a period of eight weeks post‐injury. A balanced,…”
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Endogenous recovery of injured spinal cord: Longitudinal in vivo magnetic resonance imaging by Narayana, Ponnada A., Grill, Raymond J., Chacko, Tessy, Vang, Russell

“…Pathological changes were followed longitudinally with in vivo magnetic resonance imaging (MRI) and behavioral studies in experimental spinal cord injury…”
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