MONOGRAFIA_18_Discapacidad
MONOGRAFIA_18_Discapacidad
MONOGRAFIA_18_Discapacidad
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• Mahmood A, Lu D, Yi L, Chen JL,<br />
Chopp M. Intracranial bone marrow transplantation<br />
after traumatic brain injury improving<br />
functional outcome in adult rats. J<br />
Neurosurg. 94: 589-595, 2001.<br />
• Ohta M, Suzuki Y, Noda T, Ejiri Y,<br />
Dezawa M, Kataoka K, Chou H, Ishikawa<br />
N, Matsumoto N, Iwashita Y, Mizuta E,<br />
Kuno S, Ide C. Bone marrow stromal cells<br />
infused into the cerebrospinal fluid promote<br />
functional recovery of the injured rat<br />
spinal cord with reduced cavity formation.<br />
Exp. Neurol. <strong>18</strong>7: 266-278, 2004.<br />
• Otero L, Bonilla L, Aguayo C, Zurita<br />
M, Vaquero J. Intralesional administration<br />
of allogeneic bone marrow stromal<br />
cells reduces functional deficits after intracerebral<br />
hemorrhage. Histol. Histopathol.<br />
25: 453-461, 2010.<br />
• Otero L., Zurita M, Bonilla M,<br />
Aguayo C, Rico MA, Rodríguez A, Vaquero<br />
J. Allogeneic bone marrow stromal cell<br />
transplantation after cerebral hemorrhage<br />
achieves cell transdifferentiation and modulates<br />
endogenous neurogenesis. Cytotherapy<br />
14: 34-44, 2012<br />
• Otero L, Zurita M, Bonilla C, Aguayo<br />
C, Vela A, Rico MA, Vaquero J. Late<br />
transplantation of allogeneic bone marrow<br />
stromal cells improves neurologic déficits<br />
subsequent to intracerebral hemorrhage.<br />
Cytotherapy 13: 562-571, 2011.<br />
• Pal R, Venkataramana NK, Bansal<br />
A, Balaraju S, Jan M, Chandra R, Dixit A,<br />
Rauthan A, Murgod U, Totey S. Ex vivo-<br />
discapacidad neurológica y medicina regenerativa<br />
expanded autologous bone marrow-derived<br />
mesenchymal stromal cells in human<br />
spinal cord injury/paraplegia: a pilot clinical<br />
study. Cytotherapy 11: 897-911, 2009.<br />
• Pallini R, Fernández E, Gangitano<br />
C, Del Fà A, Olivieri-Sangiacomo C,<br />
Sbriccoli A. Studies on embryonic transplants<br />
to the transected spinal cord of adult<br />
rats. J. Neurosurg. 70: 454-462, 1989.<br />
• Park HC, Shims YS, Ha Y, Yoon<br />
SH, Park SR, Choi BH, Park HS. Treatment<br />
of complete spinal cord injury patients by<br />
autologous bone marrow cell transplantation<br />
and administration of granulocyte-macrophage<br />
colony stimulating factor. Tissue<br />
Eng. 11: 913-922, 2005.<br />
• Pickett GE, Campos-Benitez M,<br />
Keller JL, Duggal N. Epidemiology of<br />
traumatic spinal cord injury in Canada.<br />
Spine 31: 799-805, 2006.<br />
• Ramón Cueto A, Plant GW, Avila J,<br />
Bunge MB. Long-distance axonal regeneration<br />
in the transected adult rat spinal cord<br />
is promoted by olfactory ensheathing glia<br />
transplants. J Neurosci <strong>18</strong>: 3803-3815, 1998.<br />
• Ramón y Cajal S. Estudios sobre la<br />
degeneración y regeneración del Sistema<br />
Nervioso. Tomo II. Degeneración y regeneración<br />
de los centros nerviosos. Madrid, 1914.<br />
• Reier PJ. Neural tissue grafts and<br />
repair of the injured spinal cord. Neuropath<br />
Appl Neurobiol 11: 81-104, 1985.<br />
• Saito F, Nakatani T, Iwase M,<br />
Maeda Y, Hirakawa A, Murao Y, Suzuki<br />
Y, Onodera R, Fukushima M, Chizuka I.<br />
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