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Evaluation of Novel Stereotactic Cannula for Stem Cell Transplantation against Central Nervous System Disease

Masahito Kawabori, Aki Tanimori, Shinri Kitta, Hideo Shichinohe, Kiyohiro Houkin.
Stem Cells Int. 2020, 4085617

細胞を投与する針を比較し、新たに最適化されたものを開発してます。
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FTY720 (Fingolimod) Ameliorates Brain Injury Through Multiple Mechanisms and is a Strong Candidate for Stroke Treatment

Zifeng Wang, Masahito Kawabori, Kiyohiro Houkin. Current Medicinal Chemistry, 2019, 26, 1-14

脳卒中に対するFTY720の効果に関するReviewです。
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Human Recombinant Peptide Sponge Enables Novel, Less Invasive Cell Therapy for Ischemic Stroke.

Miyamoto M, Nakamura K, Shichinohe H, Yamauchi T, Ito M, Saito H, Kawabori M, Osanai T, Sasaki T, Houkin K, Kuroda S.
Stem Cells Int. 2018 Apr 8;2018:4829534.

I型コラーゲンからなる細胞シートを脳梗塞ラットの脳に貼って機能改善を得ました。
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Therapeutic effects of human multilineage-differentiating stress enduring (MUSE) cell transplantation into infarct brain of mice.

Yamauchi T, Kuroda Y, Morita T, Shichinohe H, Houkin K, Dezawa M, Kuroda S.
PLoS One. 2015 Mar 6;10(3):e0116009.

Application of cell sheet technology to bone marrow stromal cell transplantation for rat brain infarct.

Ito M, Shichinohe H, Houkin K, Kuroda S.
J Tissue Eng Regen Med. 2017 Feb;11(2):375-381.

Bone marrow stromal cells rescue ischemic brain by trophic effects and phenotypic change toward neural cells.

Shichinohe H, Ishihara T, Takahashi K, Tanaka Y, Miyamoto M, Yamauchi T, Saito H, Takemoto H, Houkin K, Kuroda S.
Neurorehabil Neural Repair. 2015 Jan;29(1):80-9.

Bone marrow stromal cell transplantation enhances recovery of motor function after lacunar stroke in rats.

Shichinohe H, Yamauchi T, Saito H, Houkin K, Kuroda S.
Acta Neurobiol Exp (Wars). 2013;73(3):354-63.

123I-iomazenil single photon emission computed tomography visualizes recovery of neuronal integrity by bone marrow stromal cell therapy in rat infarct brain.

Saito H, Magota K, Zhao S, Kubo N, Kuge Y, Shichinohe H, Houkin K, Tamaki N, Kuroda S.
Stroke. 2013 Oct;44(10):2869-74.

Bone marrow stromal cell transplantation enhances recovery of local glucose metabolism after cerebral infarction in rats: a serial 18F-FDG PET study.

Miyamoto M, Kuroda S, Zhao S, Magota K, Shichinohe H, Houkin K, Kuge Y, Tamaki N.
J Nucl Med. 2013 Jan;54(1):145-50.

Timing and cell dose determine therapeutic effects of bone marrow stromal cell transplantation in rat model of cerebral infarct.

Kawabori M, Kuroda S, Ito M, Shichinohe H, Houkin K, Kuge Y, Tamaki N.
Neuropathology. 2013 Apr;33(2):140-8.

Visualization of the Superparamagnetic Iron Oxide (SPIO)-Labeled Bone Marrow Stromal Cells Using a 3.0-T MRI-a Pilot Study for Clinical Testing of Neurotransplantation.

Shichinohe H, Kuroda S, Kudo K, Ito M, Kawabori M, Miyamoto M, Nakanishi M, Terae S, Houkin K.
Transl Stroke Res. 2012 Mar;3(1):99-106.

Transplanted bone marrow stromal cells protect neurovascular units and ameliorate brain damage in stroke-prone spontaneously hypertensive rats.

Ito M, Kuroda S, Sugiyama T, Maruichi K, Kawabori M, Nakayama N, Houkin K, Iwasaki Y.
Neuropathology. 2012 Oct;32(5):522-33.

Intracerebral, but not intravenous, transplantation of bone marrow stromal cells enhances functional recovery in rat cerebral infarct: an optical imaging study.

Kawabori M, Kuroda S, Sugiyama T, Ito M, Shichinohe H, Houkin K, Kuge Y, Tamaki N.
Neuropathology. 2012 Jun;32(3):217-26.

Impact of ageing on biological features of bone marrow stromal cells (BMSC) in cell transplantation therapy for CNS disorders: functional enhancement by granulocyte-colony stimulating factor (G-CSF).

Chiba Y, Kuroda S, Osanai T, Shichinohe H, Houkin K, Iwasaki Y.
Neuropathology. 2012 Apr;32(2):139-48.

Therapeutic effects of intra-arterial delivery of bone marrow stromal cells in traumatic brain injury of rats--in vivo cell tracking study by near-infrared fluorescence imaging.

Osanai T, Kuroda S, Sugiyama T, Kawabori M, Ito M, Shichinohe H, Kuge Y, Houkin K, Tamaki N, Iwasaki Y.
Neurosurgery. 2012 Feb;70(2):435-44; discussion 444.

Near-infrared fluorescence labeling allows noninvasive tracking of bone marrow stromal cells transplanted into rat infarct brain.

Sugiyama T, Kuroda S, Osanai T, Shichinohe H, Kuge Y, Ito M, Kawabori M, Iwasaki Y.
Neurosurgery. 2011 Apr;68(4):1036-47; discussion 1047.

Autologous bone marrow stromal cell transplantation for central nervous system disorders - recent progress and perspective for clinical application.

Kuroda S, Shichinohe H, Houkin K, Iwasaki Y.
J Stem Cells Regen Med. 2011 Apr 1;7(1):2-13. eCollection 2011.

Bone marrow stromal cell transplantation attenuates cognitive dysfunction due to chronic cerebral ischemia in rats.

Shichinohe H, Kuroda S, Sugiyama T, Ito M, Kawabori M.
Dement Geriatr Cogn Disord. 2010;30(4):293-301.

Noninvasive transplantation of bone marrow stromal cells for ischemic stroke: preliminary study with a thermoreversible gelation polymer hydrogel.

Osanai T, Kuroda S, Yasuda H, Chiba Y, Maruichi K, Hokari M, Sugiyama T, Shichinohe H, Iwasaki Y.
Neurosurgery. 2010 Jun;66(6):1140-7; discussion 1147.

Transplantation of autologous bone marrow stromal cells (BMSC) for CNS disorders - Strategy and tactics for clinical application.

Kuroda S.
J Stem Cells Regen Med. 2010 Oct 30;6(3):167. eCollection 2010. No abstract available.

Synergistic effects of bone marrow stromal cells and a Rho kinase (ROCK) inhibitor, fasudil on axon regeneration in rat spinal cord injury.

Chiba Y, Kuroda S, Shichinohe H, Hokari M, Osanai T, Maruichi K, Yano S, Hida K, Iwasaki Y.
Neuropathology. 2010 Jun;30(3):241-50.

Bone marrow stromal cells and bone marrow-derived mononuclear cells: which are suitable as cell source of transplantation for mice infarct brain?

Shichinohe H, Kuroda S, Maruichi K, Osanai T, Sugiyama T, Chiba Y, Yamaguchi A, Iwasaki Y.
Neuropathology. 2010 Apr;30(2):113-22.

Transplanted bone marrow stromal cells promote axonal regeneration and improve motor function in a rat spinal cord injury model.

Chiba Y, Kuroda S, Maruichi K, Osanai T, Hokari M, Yano S, Shichinohe H, Hida K, Iwasaki Y.
Neurosurgery. 2009 May;64(5):991-9; discussion 999-1000.

Synergistic effects of granulocyte-colony stimulating factor on bone marrow stromal cell transplantation for mice cerebral infarct.

Hokari M, Kuroda S, Chiba Y, Maruichi K, Iwasaki Y.
Cytokine. 2009 May;46(2):260-6.

Effect of biodegradable fibrin scaffold on survival, migration, and differentiation of transplanted bone marrow stromal cells after cortical injury in rats.

Yasuda H, Kuroda S, Shichinohe H, Kamei S, Kawamura R, Iwasaki Y.
J Neurosurg. 2010 Feb;112(2):336-44.

Transplanted bone marrow stromal cells improves cognitive dysfunction due to diffuse axonal injury in rats.

Maruichi K, Kuroda S, Chiba Y, Hokari M, Shichinohe H, Hida K, Iwasaki Y.
Neuropathology. 2009 Aug;29(4):422-32.

Fibrin matrix provides a suitable scaffold for bone marrow stromal cells transplanted into injured spinal cord: a novel material for CNS tissue engineering.

Itosaka H, Kuroda S, Shichinohe H, Yasuda H, Yano S, Kamei S, Kawamura R, Hida K, Iwasaki Y.
Neuropathology. 2009 Jun;29(3):248-57.

Bone marrow stromal cells protect and repair damaged neurons through multiple mechanisms.

Hokari M, Kuroda S, Shichinohe H, Yano S, Hida K, Iwasaki Y.
J Neurosci Res. 2008 Apr;86(5):1024-35.

Role of SDF-1/CXCR4 system in survival and migration of bone marrow stromal cells after transplantation into mice cerebral infarct.

Shichinohe H, Kuroda S, Yano S, Hida K, Iwasaki Y.
Brain Res. 2007 Dec 5;1183:138-47. Epub 2007 Sep 22.

Bone marrow stromal cell transplantation preserves gammaaminobutyric acid receptor function in the injured spinal cord.

Yano S, Kuroda S, Shichinohe H, Seki T, Ohnishi T, Tamagami H, Hida K, Iwasaki Y.
J Neurotrauma. 2006 Nov;23(11):1682-92.

The effects of neuronal induction on gene expression profile in bone marrow stromal cells (BMSC)--a preliminary study using microarray analysis.

Yamaguchi S, Kuroda S, Kobayashi H, Shichinohe H, Yano S, Hida K, Shinpo K, Kikuchi S, Iwasaki Y.
Brain Res. 2006 May 4;1087(1):15-27. Epub 2006 Apr 13.

Improved expression of gamma-aminobutyric acid receptor in mice with cerebral infarct and transplanted bone marrow stromal cells: an autoradiographic and histologic analysis.

Shichinohe H, Kuroda S, Yano S, Ohnishi T, Tamagami H, Hida K, Iwasaki Y.
J Nucl Med. 2006 Mar;47(3):486-91.

Do bone marrow stromal cells proliferate after transplantation into mice cerebral infarct?--a double labeling study.

Yano S, Kuroda S, Shichinohe H, Hida K, Iwasaki Y.
Brain Res. 2005 Dec 14;1065(1-2):60-7.

In vivo fluorescence tracking of bone marrow stromal cells transplanted into a pneumatic injury model of rat spinal cord.

Yano S, Kuroda S, Lee JB, Shichinohe H, Seki T, Ikeda J, Nishimura G, Hida K, Tamura M, Iwasaki Y.
J Neurotrauma. 2005 Aug;22(8):907-18.

A pre-clinical assessment model of rat autogeneic bone marrow stromal cell transplantation into the central nervous system.

Lee JB, Kuroda S, Shichinohe H, Yano S, Kobayashi H, Hida K, Iwasaki Y.
Brain Res Brain Res Protoc. 2004 Nov;14(1):37-44.

In vivo tracking of bone marrow stromal cells transplanted into mice cerebral infarct by fluorescence optical imaging.

Shichinohe H, Kuroda S, Lee JB, Nishimura G, Yano S, Seki T, Ikeda J, Tamura M, Iwasaki Y.
Brain Res Brain Res Protoc. 2004 Aug;13(3):166-75.

Migration and differentiation of nuclear fluorescence-labeled bone marrow stromal cells after transplantation into cerebral infarct and spinal cord injury in mice.

Lee J, Kuroda S, Shichinohe H, Ikeda J, Seki T, Hida K, Tada M, Sawada K, Iwasaki Y.
Neuropathology. 2003 Sep;23(3):169-80.