Neural stem cells for spinal cord repair

被引:0
作者
Beatrice Sandner
Peter Prang
Francisco J. Rivera
Ludwig Aigner
Armin Blesch
Norbert Weidner
机构
[1] Heidelberg University Hospital,Spinal Cord Injury Center
[2] Paracelsus Medical University,Institute of Molecular Regenerative Medicine
[3] University of California,Department of Neurosciences
[4] San Diego,undefined
来源
Cell and Tissue Research | 2012年 / 349卷
关键词
Stem cell; Remyelination; Transplantation; Axon; Regeneration;
D O I
暂无
中图分类号
学科分类号
摘要
Spinal cord injury (SCI) causes the irreversible loss of spinal cord parenchyma including astroglia, oligodendroglia and neurons. In particular, severe injuries can lead to an almost complete neural cell loss at the lesion site and structural and functional recovery might only be accomplished by appropriate cell and tissue replacement. Stem cells have the capacity to differentiate into all relevant neural cell types necessary to replace degenerated spinal cord tissue and can now be obtained from virtually any stage of development. Within the last two decades, many in vivo studies in small animal models of SCI have demonstrated that stem cell transplantation can promote morphological and, in some cases, functional recovery via various mechanisms including remyelination, axon growth and regeneration, or neuronal replacement. However, only two well-documented neural-stem-cell-based transplantation strategies have moved to phase I clinical trials to date. This review aims to provide an overview about the current status of preclinical and clinical neural stem cell transplantation and discusses future perspectives in the field.
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页码:349 / 362
页数:13
相关论文
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  • [1] Abematsu M(2010)Neurons derived from transplanted neural stem cells restore disrupted neuronal circuitry in a mouse model of spinal cord injury J Clin Invest 120 3255-3266
  • [2] Tsujimura K(2001)Transplantation of clonal neural precursor cells derived from adult human brain establishes functional peripheral myelin in the rat spinal cord Exp Neurol 167 27-39
  • [3] Yamano M(2004)Remyelination of spinal cord axons by olfactory ensheathing cells and Schwann cells derived from a transgenic rat expressing alkaline phosphatase marker gene Neuron Glia Biol 1 47-55
  • [4] Saito M(2004)Bone marrow transplants provide tissue protection and directional guidance for axons after contusive spinal cord injury in rats Exp Neurol 190 17-31
  • [5] Kohno K(1997)Myelination of the canine central nervous system by glial cell transplantation: a model for repair of human myelin disease Nat Med 3 54-59
  • [6] Kohyama J(2001)Isolation of multipotent neural precursors residing in the cortex of the adult human brain Exp Neurol 170 48-62
  • [7] Namihira M(2008)Stem cells for spinal cord repair Cell Stem Cell 3 16-24
  • [8] Komiya S(1996)Graded histological and locomotor outcomes after spinal cord contusion using the NYU weight-drop device versus transection Exp Neurol 139 244-256
  • [9] Nakashima K(1993)Spinal cord transplants support the regeneration of axotomized neurons after spinal cord lesions at birth: a quantitative double-labeling study Exp Neurol 123 118-132
  • [10] Akiyama Y(1997)Axotomized rubrospinal neurons rescued by fetal spinal cord transplants maintain axon collaterals to rostral CNS targets Exp Neurol 148 13-25
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