Flavia Frattini describes for SIIC the most significant aspects of his article describe para SIIC los aspectos relevantes de su artículo The influence of mesenchymal stem cells on peripheral nerve repair NERVE INJURY: SENSORY NEURONS ARE CAPABLE OF SURVIVAL AND REGENERATION Peripheral nerve injury was restored after implant of mesenchymal stem cells into a biodegradable tube. The nerve regenerated and the sensory neurons were preserved from dying, leading to an improvement on the motor function of affected mice. Use of these stem cells might be a promising strategy for nervous system lesions. The article was published by El artículo fue publicado por
Principal institution where the research took place Institución principal de la investigación Programa de Pesquisa em Neurociência Básica e Clínica, Instituto de Ciências Biomédicas, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil, Rio de Janeiro, Rio de Janeiro, Brazil Authors' Report Crónica del Autor Bibliographic references Referencias bibliográficas Ao Q, Fung CK, Tsui AY, Cai S, Zuo HC, Chan YS, Shum DK. The regeneration of transected sciatic nerves of adult rats using chitosan nerve conduits seeded with bone marrow stromal cell-derived Schwann cells. Biomaterials 32:787, 2011. CampbellWW. Evaluation and management of peripheral nerve injury. Clinical Neurophysiology 119:1951, 2008. Chen C, Ou YC, Liao SL, Chen WY, Chen SY, Wu CW, et al. Transplantation of bone marrow stromal cells for peripheral nerve repair. Exp Neurol 204:443, 2007. Dahlin LB, Lundborg G. Nerve repair: experimental and clinical update. In: Tubiana R and Gilbert A, eds. Surgery of Disorders of the Hand and Upper Extremity. New York: McGraw-Hill; 1996. Pp. 95-100. Degn J, Tandrup T, Jakobsen J. Effect of nerve crush on perikaryal number and volume of neurons in adult rat dorsal root ganglion. J Comp Neurol 412:186, 1999. Evans GR. Peripheral nerve injury: a review and approach to tissue engineered constructs. Anat Rec 263:396, 2001. Fink E, Fortin D, Serrurier B, Ventura-Clapier R, Bigard AX. Recovery of contractile and metabolic phenotypes in regenerating slow muscle after notexin-induced or crush injury. J Muscle Res Cell Motil 24:421, 2003. Inserra MM, Bloch DA, Terris DJ. Functional indices for sciatic, peroneal, and posterior tibial nerve lesions in the mouse. Microsurgery 18:119, 1998. Jivan S, Novikova LN, Wiberg M, Novikov LN. The effects of delayed nerve repair on neuronal survival and axonal regeneration after seventh cervical spinal nerve axotomy in adult rats. Exp Brain Res 170:245, 2006. Ladak A, Olson J, Tredget EE, Gordon T. Differentiation of mesenchymal stem cells to support peripheral nerve regeneration in a rat model. Exp Neurol 228:242, 2011. Lohmeyer JA. and Machens, H. Basics and current approaches to tissue engineering in peripheral nerve reconstruction. Neurosurgery Q 19:101, 2009. marrow stromal cells differentiate into neural cells in vitro. Exp Neurol 164:247, 2000. Nuss JE, Amaning JK, Bailey CE, Deford JH, Dimayuga VL, Rabek JP, Papaconstantinou J. Oxidative modification and aggregation of creatine kinase from aged mouse skeletal muscle. Aging 1:557, 2009. Pan HC, Cheng FC, Chen CJ, Lai SZ, Lee CW, Yang DY, et al. Post-injury regeneration in rat sciatic nerve facilitated by neurotrophic factors secreted by amniotic fluid mesenchymal stem cells. J Clin Neurosci 14:1089, 2007. Pereira Lopes FR, Frattini F, Marques SA, Almeida FM, Moura Campos LC, Langone F, et al. Transplantation of bone-marrow derived cells into a nerve guide resulted in transdifferentiation into Schwann cells and effective regeneration of transected mouse sciatic nerve. Micron 41:783, 2010. Pereira Lopes FR, Moura Campos LC, Correa JD Jr, Balduno A, Lora S, Langone F, et al. Bone marrow stromal cells and resorbable collagen guidance tubes enhance sciatic nerve regeneration in mice. Exp Neurol 198:457, 2006. Sanchez-Ramos J, Song S, Cardozo-Pelaez F, Hazzi C, Stedeford T, Willing A, et al. Adult bone Wang J, Ding F, Gu Y, Liu J, Gu X. Bone marrow mesenchymal stem cells promote cell proliferation and neurotrophic function of Schwann cells in vitro and in vivo. Brain Res 1262:7, 2009. Wang X, Luo E, Li Y, Hu J. Schwann-like mesenchymal stem cells within vein graft facilitate facial nerve regeneration and remyelination. Brain Res 1383:71, 2011. Other articles written by the author Flavia Frattini Otros artículos de Flavia Frattini Pereira Lopes, F.R., Frattini, F., Marques, S.A., Almeida, F.M., Moura Campos, L.C., Langone, F., Lora, S., Borojevic, R., and Martinez, A.M. Transplantation of bone-marrow derived cells into a nerve guide resulted in transdifferentiation into Schwann cells and effective regeneration of transected mouse sciatic nerve. Micron 41, 783, 2010. Pereira Lopes FR, Lisboa BC, Frattini F, Almeida FM, Tomaz MA, Matsumoto PK, Langone F, Lora S, Melo PA, Borojevic R, Han SW, Martinez AM. Enhancement of sciatic nerve regeneration after vascular endothelial growth factor (VEGF) gene therapy. Neuropathol Appl Neurobiol,37(6),600, 2011. Pereira Lopes FR, Martin PK, Frattini F, Biancalana A, Almeida FM, Tomaz MA, Melo PA, Borojevic R, Han SW, Martinez AM.Double gene therapy with granulocyte colony-stimulating factor and vascular endothelial growth factor acts synergistically to improve nerve regeneration and functional outcome after sciatic nerve injury in mice. Neuroscience, 29(230), 184, 2013. SIIC System of Assisted Editing (SSEA) / Sistema SIIC de Edición Asistida (SSEA)
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Information about the full text Acerca del trabajo completo Mesenchymal Stem Cells in a Polycaprolactone Conduit Promote Sciatic Nerve Regeneration and Sensory Neuron Survival After Nerve Injury Author / Autor Flavia Frattini1, Fatima Rosalina Pereira Lopes2, Fernanda Martins Almeida3, Rafaela Fintelman4, Leonardo Cunha Boldrini5, Marcelo A. Tomaz6, Abrahao Fontes Baptista7, Paulo A. Melo8, Ana Maria Blanco Martinez9 9 Md, Phd, Universidade Federal do Estado do Rio de Janeiro, Rio de Janeiro, Brasil Access to the original source Tissue Engineering: Part A Article URL: / URL del artículo: http://www.liebertpub.com/publication.aspx?pub_id=263 URL of Abstract page in Medline: / URL del abstract en Medline: http://www.ncbi.nlm.nih.gov/pubmed/22646222 siic DB: / siic DB: http://www.siicsalud.com/main/distriprinrel.php |
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