Literature DB >> 24709371

Axonal growth and connectivity from neural stem cell grafts in models of spinal cord injury.

Paul Lu1, Ken Kadoya2, Mark H Tuszynski3.   

Abstract

Spinal cord injury (SCI) damages both gray matter and white matter, but white matter damage is responsible for the vast majority of the subsequent functional loss. Neural stem cells (NSCs) have been investigated as a means of improving outcomes after SCI, either through neuroprotective properties that limit secondary damage or by direct cell replacement. This review will focus on cell replacement strategies, and the ability of multipotent NSCs to form new functional synaptic relays across sites of even severe SCI. The ability of these early stage neurons to extend axons from the lesion site in large numbers and over long distances constitutes an important mechanism underlying their potential to promote neural repair. Published by Elsevier Ltd.

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Year:  2014        PMID: 24709371     DOI: 10.1016/j.conb.2014.03.010

Source DB:  PubMed          Journal:  Curr Opin Neurobiol        ISSN: 0959-4388            Impact factor:   6.627


  27 in total

Review 1.  CNS repair and axon regeneration: Using genetic variation to determine mechanisms.

Authors:  Andrea Tedeschi; Takao Omura; Michael Costigan
Journal:  Exp Neurol       Date:  2016-05-06       Impact factor: 5.330

Review 2.  Improving the therapeutic efficacy of neural progenitor cell transplantation following spinal cord injury.

Authors:  Michael A Lane; Angelo C Lepore; Itzhak Fischer
Journal:  Expert Rev Neurother       Date:  2016-12-21       Impact factor: 4.618

3.  Therapeutic potential of induced neural stem cells for spinal cord injury.

Authors:  Jin Young Hong; Sung Ho Lee; Seung Chan Lee; Jong-Wan Kim; Kee-Pyo Kim; Sung Min Kim; Natalia Tapia; Kyung Tae Lim; Jonghun Kim; Hong-Sun Ahn; Kinarm Ko; Chan Young Shin; Hoon Taek Lee; Hans R Schöler; Jung Keun Hyun; Dong Wook Han
Journal:  J Biol Chem       Date:  2014-10-06       Impact factor: 5.157

4.  Combined Method of Neuronal Cell-Inducible Vector and Valproic Acid for Enhanced Gene Expression under Hypoxic Conditions.

Authors:  Yeomin Yun; Daye Baek; Dongsu Lee; Eunji Cheong; Janghwan Kim; Jinsoo Oh; Yoon Ha
Journal:  Tissue Eng Regen Med       Date:  2019-12-09       Impact factor: 4.169

Review 5.  Moving stem cells to the clinic: potential and limitations for brain repair.

Authors:  Julius A Steinbeck; Lorenz Studer
Journal:  Neuron       Date:  2015-04-08       Impact factor: 17.173

Review 6.  In Vivo Reprogramming for CNS Repair: Regenerating Neurons from Endogenous Glial Cells.

Authors:  Hedong Li; Gong Chen
Journal:  Neuron       Date:  2016-08-17       Impact factor: 17.173

7.  Transplantation of Neural Progenitors and V2a Interneurons after Spinal Cord Injury.

Authors:  Lyandysha V Zholudeva; Nisha Iyer; Liang Qiang; Victoria M Spruance; Margo L Randelman; Nicholas W White; Tatiana Bezdudnaya; Itzhak Fischer; Shelly E Sakiyama-Elbert; Michael A Lane
Journal:  J Neurotrauma       Date:  2018-08-10       Impact factor: 5.269

8.  Tumor Necrosis Factor Alpha Induces Neural Stem Cell Apoptosis Through Activating p38 MAPK Pathway.

Authors:  Ning-Ning Chen; Fuxin Wei; Le Wang; Shangbin Cui; Yong Wan; Shaoyu Liu
Journal:  Neurochem Res       Date:  2016-08-16       Impact factor: 3.996

9.  Optogenetic Interrogation of Functional Synapse Formation by Corticospinal Tract Axons in the Injured Spinal Cord.

Authors:  Naveen Jayaprakash; Zimei Wang; Brian Hoeynck; Nicholas Krueger; Audra Kramer; Eric Balle; Daniel S Wheeler; Robert A Wheeler; Murray G Blackmore
Journal:  J Neurosci       Date:  2016-05-25       Impact factor: 6.167

Review 10.  Corticospinal Motor Circuit Plasticity After Spinal Cord Injury: Harnessing Neuroplasticity to Improve Functional Outcomes.

Authors:  Syed Faraz Kazim; Christian A Bowers; Chad D Cole; Samantha Varela; Zafar Karimov; Erick Martinez; Jonathan V Ogulnick; Meic H Schmidt
Journal:  Mol Neurobiol       Date:  2021-08-03       Impact factor: 5.590
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