Citations Report

Journal of Experimental Stroke & Translational Medicine : Citations & Metrics Report

Articles published in Journal of Experimental Stroke & Translational Medicine have been cited by esteemed scholars and scientists all around the world.

Journal of Experimental Stroke & Translational Medicine has got h-index 14, which means every article in Journal of Experimental Stroke & Translational Medicine has got 14 average citations.

Following are the list of articles that have cited the articles published in Journal of Experimental Stroke & Translational Medicine.

• Ren S, Xu Y, Lv D, Zhang L(2016 ) Rosiglitazone ameliorates astrocyte over-activation and inflammatory cytokine release induced by global cerebral ischemia/reperfusion. Experimental and therapeutic medicine. 11(3):1071-6. View at Publisher | View at Google Scholar
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• LI Pei-cheng, TENG Gao-jun(2012)Progress in fibrin deposition in ischemic stroke. International Journal of Medical Radiology. 35 (1): 29-34. View at Publisher | View at Google Scholar
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• Analysis of magnetic resonance imaging data of ischemic penumbra in cerebral ischemia-reperfusion rats by mathematical model. Chinese Journal of Tissue Engineering.2010 14 (35) ): 6555-8. View at Publisher | View at Google Scholar
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• Uemura M, Kasahara Y, Nagatsuka K, Taguchi A(2012 ) Cell-based therapy to promote angiogenesis in the brain following ischemic damage. Current vascular pharmacology. May 1;10(3):285-8. View at Publisher | View at Google Scholar
• Uemura M, Kasahara Y, Nagatsuka K, Taguchi A(2012 ). Cell-based therapy to promote angiogenesis in the brain following ischemic damage. Current vascular pharmacology. 10(3):285-8. View at Publisher | View at Google Scholar
• Tsuji M, Ohshima M, Taguchi A, Kasahara Y, Ikeda T,et al(2013 ) A novel reproducible model of neonatal stroke in mice: comparison with a hypoxia–ischemia model. Experimental neurology. 247:218-25. View at Publisher | View at Google Scholar
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• Kasahara Y, Yamahara K, Soma T, Stern DM, Nakagomi T,et al(2016 ) Transplantation of hematopoietic stem cells: intra-arterial versus intravenous administration impacts stroke outcomes in a murine model. Translational Research. 176:69-80. View at Publisher | View at Google Scholar
• Wakatsuki S, Furuno A, Ohshima M, Araki T(2015 )Oxidative stress–dependent phosphorylation activates ZNRF1 to induce neuronal/axonal degeneration. J Cell Biol. 11:jcb-201506102. View at Publisher | View at Google Scholar
• Kasahara Y, Ihara M, Taguchi (2013 )Experimental evidence and early translational steps using bone marrow derived stem cells after human stroke. InClinical Recovery from CNS Damage View at Publisher | View at Google Scholar
• Hedna VS, Ansari S, Shahjouei S, Cai PY, Ahmad AS,et al (2015 ) Validity of laser Doppler flowmetry in predicting outcome in murine intraluminal middle cerebral artery occlusion stroke. Journal of vascular and interventional neurology. 8(3):74. View at Publisher | View at Google Scholar
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• Letourneur A, Petit E, Roussel S, Touzani O, Bernaudin M (2013)Brain ischemic injury in rodents: the protective effect of EPO. Tissue-Protective Cytokines: Methods and Protocols. 79-101. View at Publisher | View at Google Scholar
• Kasahara Y, Ihara M, Nakagomi T, Momota Y, Stern DM, et al(2013 ) A highly reproducible model of cerebral ischemia/reperfusion with extended survival in CB-17 mice. Neuroscience research. 76(3):163-8. View at Publisher | View at Google Scholar
• Morris GP, Wright AL, Tan RP, Gladbach A, Ittner LM, et al (2016 ) A comparative study of variables influencing ischemic injury in the longa and koizumi methods of intraluminal filament middle cerebral artery occlusion in mice. PloS one 11(2):e0148503. View at Publisher | View at Google Scholar
• Sawano T, Watanabe F, Ishiguchi M, Doe N, Furuyama T,et al(2015 ) Effect of Sema4D on microglial function in middle cerebral artery occlusion mice. Glia. 63(12):2249-59. View at Publisher | View at Google Scholar
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• Wen Z, Wang P(2012 ) Recombinant human erythropoietin increases cerebral cortical width index and neurogenesis following ischemic stroke. Neural regeneration research. 7(8):578. View at Publisher | View at Google Scholar
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• Kasahara Y, Matsuyama T, Taguchi A(2015 ) Treatment of Autologous Bone Marrow Mononuclear Cells for Acute and Subacute Stroke. InCell Therapy for Brain Injury Springer International Publishing. View at Publisher | View at Google Scholar
• Ma X, Li H, Xiao Z, Li M, XuE P, (2016) Evaluation of Computed Tomography Perfusion Imaging in a Rat Acute Cerebral Ischemia-Reperfusion Model. Turk Neurosurg. 26(2):246-52. View at Publisher | View at Google Scholar
• Sawano T, Tsuchihashi R, Morii E, Watanabe F, Nakane K,et al (2017 ) Homology analysis detects topological changes of Iba1 localization accompanied by microglial activation. Neuroscience. View at Publisher | View at Google Scholar
• LU S, NAKAGOMI T, NAKANO A, TAKATA M, OKAMOTO N,(2014)Effect of Cilostazol Nanoparticles on Endothelial Proliferation after Ischemic Stroke. Acta Med. Hyogo. Vol. (2):75-80. View at Publisher | View at Google Scholar
• Nakagomi T, Matsuyama T. Ischemia-Induced Neural Stem/Progenitor Cells Within the Post-Stroke Cortex in Adult Brains. View at Publisher | View at Google Scholar
• Tang Z, Li S, Han P, Yin J, Gan Y, et al (2015 ) Pertussis toxin reduces calcium influx to protect ischemic stroke in a middle cerebral artery occlusion model. Journal of neurochemistry. 135(5):998-1006. View at Publisher | View at Google Scholar
• FUJIA L. MICRORNA EXPRESSION IN STROKE PATHOGENESIS (Doctoral dissertation). View at Publisher | View at Google Scholar
• Taguchi Akihiko Regenerative medicine development for patients with cerebral infarction Cerebral circulation metabolism (Journal of Japanese Cerebral Circulation Metabolism Society Journal) (2014) 25 (2): 105-7. View at Publisher | View at Google Scholar
• Inaba Shunto, Suda Satoshi, Ueda Masayuki, Nishi Yoshihiro, Nishiyama Yasuhiro, (2015). A study on the effect of ibudilast on cerebrovascular protection in the middle cerebral artery permanent occlusion model of rats Cerebral circulation metabolism (Journal of Japanese Cerebral Circulation and Metabolism Society) . 26 (2): 19-24. View at Publisher | View at Google Scholar
• TAGUCHI A (2015 )Cell therapy development for stroke patients Neurological Surgery Neurosurgery 43 (12): 1071-9. View at Publisher | View at Google Scholar
• Henderson VC, Kimmelman J, Fergusson D, Grimshaw JM, Hackam DG(2013 ). Threats to validity in the design and conduct of preclinical efficacy studies: a systematic review of guidelines for in vivo animal experiments. PLoS Med. 10(7):e1001489. View at Publisher | View at Google Scholar
• Engel O, Kolodziej S, Dirnagl U, Prinz V(2011 ) Modeling stroke in mice-middle cerebral artery occlusion with the filament model. JoVE (Journal of Visualized Experiments). (47):e2423-. View at Publisher | View at Google Scholar
• Sumbria RK, Boado RJ, Pardridge WM(2012 ) Brain protection from stroke with intravenous TNF α decoy receptor-Trojan horse fusion protein. Journal of Cerebral Blood Flow & Metabolism. 32(10):1933-8. View at Publisher | View at Google Scholar
• Turner RC, Dodson SC, Rosen CL, Huber JD(2013 )The science of cerebral ischemia and the quest for neuroprotection: navigating past failure to future success: A review. Journal of neurosurgery. 118(5):1072-85. View at Publisher | View at Google Scholar
• Willmann R, De Luca A, Benatar M, Grounds M, Dubach J, et al (2012 ) Enhancing translation: guidelines for standard pre-clinical experiments in mdx mice. Neuromuscular Disorders. Jan 31;22(1):43-9. View at Publisher | View at Google Scholar
• Lipsanen A, Jolkkonen J (2011 )Experimental approaches to study functional recovery following cerebral ischemia. Cellular and Molecular Life Sciences. 68(18):3007-17. View at Publisher | View at Google Scholar
• Turner RJ, Jickling GC, Sharp FR(2011 ) Are underlying assumptions of current animal models of human stroke correct: from STAIRs to high hurdles?. Translational stroke research. 2(2):138-43. View at Publisher | View at Google Scholar
• Hoda MN, Li W, Ahmad A, Ogbi S, Zemskova MA,(2011)Sex-independent neuroprotection with minocycline after experimental thromboembolic stroke. Experimental & translational stroke medicine. 3(1):16. View at Publisher | View at Google Scholar

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