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Full-Text Articles in Medicine and Health Sciences
Pathophysiology Of Ganglioside Gm1 In Ischemic Stroke: Ganglioside Gm1: A Critical Review, Wenchao Zhang, Paul R. Krafft, Tianlong Wang, John H. Zhang, Li Li, Jiping Tang
Pathophysiology Of Ganglioside Gm1 In Ischemic Stroke: Ganglioside Gm1: A Critical Review, Wenchao Zhang, Paul R. Krafft, Tianlong Wang, John H. Zhang, Li Li, Jiping Tang
Neurosurgery and Brain Repair Faculty Publications
Ganglioside GM1 is a member of the ganglioside family which has been used in many countries and is thought of as a promising alternative treatment for preventing several neurological diseases, including cerebral ischemic injury. The therapeutic effects of GM1 have been proved both in neonates and in adults following ischemic brain damage; however, its clinical efficacy in patients with ischemic stroke is still uncertain. This review examines the recent knowledge of the neuroprotective properties of GM1 in ischemic stroke, collected in the past two decades. We conclude that GM1 may have potential for stroke treatment, although we need to be …
Immunomodulation With Human Umbilical Cord Blood Stem Cells Ameliorates Ischemic Brain Injury – A Brain Transcriptome Profiling Analysis, Maple L. Shiao, Ce Yuan, Andrew T. Crane, Joseph P. Voth, Mario Juliano, Laura L. Hocum Stone, Zhenghong Nan, Ying Zhang, Nicole Kuzmin-Nichols, Paul R. Sanberg, Andrew W. Grande, Walter C. Low
Immunomodulation With Human Umbilical Cord Blood Stem Cells Ameliorates Ischemic Brain Injury – A Brain Transcriptome Profiling Analysis, Maple L. Shiao, Ce Yuan, Andrew T. Crane, Joseph P. Voth, Mario Juliano, Laura L. Hocum Stone, Zhenghong Nan, Ying Zhang, Nicole Kuzmin-Nichols, Paul R. Sanberg, Andrew W. Grande, Walter C. Low
Neurosurgery and Brain Repair Faculty Publications
Our group previously demonstrated that administration of a CD34-negative fraction of human non- hematopoietic umbilical cord blood stem cells (UCBSC) 48 h after ischemic injury could reduce infarct volume by 50% as well as significantly ameliorate neurological deficits. In the present study, we explored possible mechanisms of action using next generation RNA sequencing to analyze the brain transcriptome profiles in rats with ischemic brain injury following UCBSC therapy. Two days after ischemic injury, rats were treated with UCBSC. Five days after administration, total brain mRNA was then extracted for RNAseq analysis using Illumina Hiseq 2000. We found 275 genes that …