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Items: 1 to 20 of 258

1.

Reduction of lesion in injured rat spinal cord and partial functional recovery of motility after bone marrow derived mesenchymal stem cell transplantation.

Karaoz E, Kabatas S, Duruksu G, Okcu A, Subasi C, Ay B, Musluman M, Civelek E.

Turk Neurosurg. 2012;22(2):207-17. doi: 10.5137/1019-5149.JTN.5412-11.1.

2.

Electroacupuncture promotes the differentiation of transplanted bone marrow mesenchymal stem cells overexpressing TrkC into neuron-like cells in transected spinal cord of rats.

Ding Y, Yan Q, Ruan JW, Zhang YQ, Li WJ, Zeng X, Huang SF, Zhang YJ, Wu JL, Fisher D, Dong H, Zeng YS.

Cell Transplant. 2013;22(1):65-86. doi: 10.3727/096368912X655037. Epub 2012 Sep 21.

PMID:
23006476
3.

Bone marrow stem cells and polymer hydrogels--two strategies for spinal cord injury repair.

Syková E, Jendelová P, Urdzíková L, Lesný P, Hejcl A.

Cell Mol Neurobiol. 2006 Oct-Nov;26(7-8):1113-29. Epub 2006 Apr 22. Review.

PMID:
16633897
4.

Repetitive intrathecal catheter delivery of bone marrow mesenchymal stromal cells improves functional recovery in a rat model of contusive spinal cord injury.

Cizkova D, Novotna I, Slovinska L, Vanicky I, Jergova S, Rosocha J, Radonak J.

J Neurotrauma. 2011 Sep;28(9):1951-61. doi: 10.1089/neu.2010.1413. Epub 2011 Sep 6.

PMID:
20822464
5.

Migration of mesenchymal stem cells through cerebrospinal fluid into injured spinal cord tissue.

Satake K, Lou J, Lenke LG.

Spine (Phila Pa 1976). 2004 Sep 15;29(18):1971-9.

PMID:
15371697
6.

Intravenous administration of mesenchymal stem cells derived from bone marrow after contusive spinal cord injury improves functional outcome.

Osaka M, Honmou O, Murakami T, Nonaka T, Houkin K, Hamada H, Kocsis JD.

Brain Res. 2010 Jul 9;1343:226-35. doi: 10.1016/j.brainres.2010.05.011. Epub 2010 May 12.

PMID:
20470759
7.

Electro-acupuncture promotes survival, differentiation of the bone marrow mesenchymal stem cells as well as functional recovery in the spinal cord-transected rats.

Ding Y, Yan Q, Ruan JW, Zhang YQ, Li WJ, Zhang YJ, Li Y, Dong H, Zeng YS.

BMC Neurosci. 2009 Apr 20;10:35. doi: 10.1186/1471-2202-10-35.

8.

[Effects of bone marrow mesenchymal stem cells with acellular muscle bioscaffolds on repair of acute hemi-transection spinal cord injury in rats].

Wei X, Wen Y, Zhang T, Li H.

Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi. 2012 Nov;26(11):1362-8. Chinese.

PMID:
23230674
9.

Survival of neurally induced mesenchymal cells may determine degree of motor recovery in injured spinal cord rats.

Alexanian AR, Kwok WM, Pravdic D, Maiman DJ, Fehlings MG.

Restor Neurol Neurosci. 2010;28(6):761-7. doi: 10.3233/RNN-2010-0547.

PMID:
21209491
10.

Bone marrow-derived mesenchymal stem cell transplantation for chronic spinal cord injury in rats: comparative study between intralesional and intravenous transplantation.

Kim JW, Ha KY, Molon JN, Kim YH.

Spine (Phila Pa 1976). 2013 Aug 1;38(17):E1065-74. doi: 10.1097/BRS.0b013e31829839fa.

PMID:
23629485
11.

Combination of activated Schwann cells with bone mesenchymal stem cells: the best cell strategy for repair after spinal cord injury in rats.

Ban DX, Ning GZ, Feng SQ, Wang Y, Zhou XH, Liu Y, Chen JT.

Regen Med. 2011 Nov;6(6):707-20. doi: 10.2217/rme.11.32.

PMID:
22050523
12.

A comparison between neurally induced bone marrow derived mesenchymal stem cells and olfactory ensheathing glial cells to repair spinal cord injuries in rat.

Yazdani SO, Pedram M, Hafizi M, Kabiri M, Soleimani M, Dehghan MM, Jahanzad I, Gheisari Y, Hashemi SM.

Tissue Cell. 2012 Aug;44(4):205-13. doi: 10.1016/j.tice.2012.03.003. Epub 2012 Apr 30.

PMID:
22551686
13.

Acellular spinal cord scaffold seeded with mesenchymal stem cells promotes long-distance axon regeneration and functional recovery in spinal cord injured rats.

Liu J, Chen J, Liu B, Yang C, Xie D, Zheng X, Xu S, Chen T, Wang L, Zhang Z, Bai X, Jin D.

J Neurol Sci. 2013 Feb 15;325(1-2):127-36. doi: 10.1016/j.jns.2012.11.022. Epub 2013 Jan 11.

PMID:
23317924
14.

Bone marrow mesenchymal stromal cells and olfactory ensheathing cells transplantation after spinal cord injury--a morphological and functional comparison in rats.

Torres-Espín A, Redondo-Castro E, Hernández J, Navarro X.

Eur J Neurosci. 2014 May;39(10):1704-17. doi: 10.1111/ejn.12542. Epub 2014 Mar 18.

PMID:
24635194
15.

Transplanted adult spinal cord-derived neural stem/progenitor cells promote early functional recovery after rat spinal cord injury.

Parr AM, Kulbatski I, Zahir T, Wang X, Yue C, Keating A, Tator CH.

Neuroscience. 2008 Aug 26;155(3):760-70. doi: 10.1016/j.neuroscience.2008.05.042. Epub 2008 Jun 5.

PMID:
18588947
16.

Acellular spinal cord scaffold seeded with bone marrow stromal cells protects tissue and promotes functional recovery in spinal cord-injured rats.

Chen J, Zhang Z, Liu J, Zhou R, Zheng X, Chen T, Wang L, Huang M, Yang C, Li Z, Yang C, Bai X, Jin D.

J Neurosci Res. 2014 Mar;92(3):307-17. doi: 10.1002/jnr.23311. Epub 2013 Dec 21.

PMID:
24375695
17.
18.

Multipotent mesenchymal stromal cells attenuate chronic inflammation and injury-induced sensitivity to mechanical stimuli in experimental spinal cord injury.

Abrams MB, Dominguez C, Pernold K, Reger R, Wiesenfeld-Hallin Z, Olson L, Prockop D.

Restor Neurol Neurosci. 2009;27(4):307-21. doi: 10.3233/RNN-2009-0480.

PMID:
19738324
19.

Fate of transplanted adult neural stem/progenitor cells and bone marrow-derived mesenchymal stromal cells in the injured adult rat spinal cord and impact on functional recovery.

Parr AM, Kulbatski I, Wang XH, Keating A, Tator CH.

Surg Neurol. 2008 Dec;70(6):600-7; discussion 607. doi: 10.1016/j.surneu.2007.09.043. Epub 2008 Mar 4.

PMID:
18291482
20.

Comparison of functional and histological outcomes after intralesional, intracisternal, and intravenous transplantation of human bone marrow-derived mesenchymal stromal cells in a rat model of spinal cord injury.

Shin DA, Kim JM, Kim HI, Yi S, Ha Y, Yoon DH, Kim KN.

Acta Neurochir (Wien). 2013 Oct;155(10):1943-50. doi: 10.1007/s00701-013-1799-5. Epub 2013 Jul 3.

PMID:
23821338

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