2010
Anti-inflammatory property of the cannabinoid receptor-2-selective agonist in spinal cord injury (35.11)
Adhikary S, Hongbo L, Skarica M, Tuma R, Ganea D. Anti-inflammatory property of the cannabinoid receptor-2-selective agonist in spinal cord injury (35.11). The Journal Of Immunology 2010, 184: 35.11-35.11. DOI: 10.4049/jimmunol.184.supp.35.11.Peer-Reviewed Original ResearchAcute spinal cord injurySpinal cord injuryAgonist treatmentImmune cellsCannabinoid receptor-2 selective agonistCord injurySpinal cordAnimal models of CNS disordersContusion model of spinal cord injuryInfiltration of immune cellsModels of CNS disordersT-cell-activating cytokinesTreat neuropathic painExpression of inflammatory moleculesModel of spinal cord injuryModel of acute spinal cord injuryInflammatory immune cellsToll-like receptorsO-1966Neuropathic painCannabinoid receptorsBladder functionRecovery of motorIL-23Anti-inflammatory properties
2003
Utilization of Marrow Stromal Cells for Gene Transfer into the CNS
Azizi S, Schwarz E, Prockop D, Alexander G, Mortati K, Krynska B. Utilization of Marrow Stromal Cells for Gene Transfer into the CNS. Contemporary Neuroscience 2003, 395-409. DOI: 10.1007/978-1-59259-298-2_15.Peer-Reviewed Original ResearchEmbryonic stem cellsStem cellsMarrow stromal cellsStromal cellsControl of dopamine releaseDegree of clinical improvementExperimental models of spinal cord injuryImplantation of embryonic stem cellsMethods of cell therapyModel of spinal cord injuryAlternative source of tissueNormal nervous systemFetal cellsNeural stem cellsDopamine releaseSource of tissueGraft survivalSpinal cord injuryClinical improvementFetal tissuesBone marrowCell therapyTreatment of neurological diseasesHost brainSpinal cord
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