Literature DB >> 18927205

Endogenous neural progenitor cells as therapeutic target after spinal cord injury.

Franz-Josef Obermair1, Aileen Schröter, Michaela Thallmair.   

Abstract

Growing knowledge about the role of neural progenitor cells supports the hope that stem cell-based therapeutic approaches aimed at restoring function in the lesioned central nervous system can be established. Possible therapies for promoting recovery after spinal cord injury include stimulating the formation of neurons and glial cells by endogenous progenitor cells. This article reviews the current knowledge about the nature of adult progenitor cells in the intact and injured spinal cord and summarizes possibilities and limitations of cellular replacement strategies based on manipulations of endogenous spinal cord progenitor cells and their environment.

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Year:  2008        PMID: 18927205     DOI: 10.1152/physiol.00017.2008

Source DB:  PubMed          Journal:  Physiology (Bethesda)        ISSN: 1548-9221


  21 in total

1.  Long-term MR cell tracking of neural stem cells grafted in immunocompetent versus immunodeficient mice reveals distinct differences in contrast between live and dead cells.

Authors:  Stacey Cromer Berman; Chulani Galpoththawela; Assaf A Gilad; Jeff W M Bulte; Piotr Walczak
Journal:  Magn Reson Med       Date:  2010-10-06       Impact factor: 4.668

Review 2.  Inflammatory Stress Effects on Health and Function After Spinal Cord Injury.

Authors:  Crystal M Noller; Suzanne L Groah; Mark S Nash
Journal:  Top Spinal Cord Inj Rehabil       Date:  2017

3.  Temporal and Regional Expression of Glucose-Dependent Insulinotropic Peptide and Its Receptor in Spinal Cord Injured Rats.

Authors:  Ana Beatriz W Marcos; Stefania Forner; Alessandra C Martini; Eliziane S Patrício; Julia R Clarke; Robson Costa; João Felix-Alves; Vilberto José Vieira; Edinéia Lemos de Andrade; Tânia Longo Mazzuco; João Batista Calixto; Claudia Pinto Figueiredo
Journal:  J Neurotrauma       Date:  2015-12-23       Impact factor: 5.269

4.  Unconventional Neurogenic Niches and Neurogenesis Modulation by Vitamins.

Authors:  Karina Oyarce; Ernesto R Bongarzone; Francisco Nualart
Journal:  J Stem Cell Res Ther       Date:  2014-03

5.  Neural progenitor cells grown on hydrogel surfaces respond to the product of the transgene of encapsulated genetically engineered fibroblasts.

Authors:  Mihir S Shanbhag; Justin D Lathia; Mohamed R Mughal; Nicola L Francis; Nicholas Pashos; Mark P Mattson; Margaret A Wheatley
Journal:  Biomacromolecules       Date:  2010-10-13       Impact factor: 6.988

Review 6.  Translocator protein (18 kDa) TSPO: an emerging therapeutic target in neurotrauma.

Authors:  Vassilios Papadopoulos; Laurent Lecanu
Journal:  Exp Neurol       Date:  2009-05-04       Impact factor: 5.330

Review 7.  Neural stem cell niches in health and diseases.

Authors:  Ilaria Decimo; Francesco Bifari; Mauro Krampera; Guido Fumagalli
Journal:  Curr Pharm Des       Date:  2012       Impact factor: 3.116

8.  Electroacupuncture promotes the recovery of rats with spinal cord injury by suppressing the Notch signaling pathway via the H19/EZH2 axis.

Authors:  Xin Geng; Yanghong Zou; Shipeng Li; Renli Qi; Cong Jing; Xiangqian Ding; Jinghui Li; Hualin Yu
Journal:  Ann Transl Med       Date:  2021-05

9.  The multifaceted effects of agmatine on functional recovery after spinal cord injury through Modulations of BMP-2/4/7 expressions in neurons and glial cells.

Authors:  Yu Mi Park; Won Taek Lee; Kiran Kumar Bokara; Su Kyoung Seo; Seung Hwa Park; Jae Hwan Kim; Midori A Yenari; Kyung Ah Park; Jong Eun Lee
Journal:  PLoS One       Date:  2013-01-21       Impact factor: 3.240

10.  Endogenous proliferation after spinal cord injury in animal models.

Authors:  Ashley McDonough; Verónica Martínez-Cerdeño
Journal:  Stem Cells Int       Date:  2012-12-20       Impact factor: 5.443
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