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.

• Taguchi A, Kasahara Y, Nakagomi T, Stern DM, Fukunaga M,(2010 ) A reproducible and simple model of permanent cerebral ischemia in CB-17 and SCID mice. Journal of experimental stroke & translational medicine. 3(1):28. View at Publisher | View at Google Scholar
• Fluri F, Schuhmann MK, Kleinschnitz C (2015)Animal models of ischemic stroke and their application in clinical research. Drug design, development and therapy. 9:3445. View at Publisher | View at Google Scholar
• Kahle MP, Bix GJ(2012 ) Successfully climbing the “STAIRs”: surmounting failed translation of experimental ischemic stroke treatments. Stroke research and treatment. View at Publisher | View at Google Scholar
• Riva M, Pappadà GB, Papadakis M, Cuccione E, Carone D, Menendez VR et al(2012 ) Hemodynamic monitoring of intracranial collateral flow predicts tissue and functional outcome in experimental ischemic stroke. Experimental neurology. 233(2):815-20. View at Publisher | View at Google Scholar
• Raida Z, Hundahl CA, Kelsen J, Nyengaard JR, Hay-Schmidt A(2012 ) Reduced infarct size in neuroglobin-null mice after experimental stroke in vivo. Experimental & translational stroke medicine. 4(1):15. View at Publisher | View at Google Scholar
• Culman J, Nguyen-Ngoc M, Glatz T, Gohlke P, Herdegen T et al(2012 ) Treatment of rats with pioglitazone in the reperfusion phase of focal cerebral ischemia: a preclinical stroke trial. Experimental neurology. 238(2):243-53. View at Publisher | View at Google Scholar
• Rousselet E, Kriz J, Seidah NG( 2012) Mouse model of intraluminal MCAO: cerebral infarct evaluation by cresyl violet staining. JoVE (Journal of Visualized Experiments) 69:e4038-. View at Publisher | View at Google Scholar
• Cho TH, Aguettaz P, Campuzano O, Charriaut‐Marlangue C, Riou A,(2013 ) Pre‐and post‐treatment with cyclosporine A in a rat model of transient focal cerebral ischaemia with multimodal MRI screening. International Journal of Stroke. 8(8):669-74. View at Publisher | View at Google Scholar
• Hansel G, Ramos DB, Delgado CA, Souza DG, Almeida RF,(2014 ) The potential therapeutic effect of guanosine after cortical focal ischemia in rats. PloS one. 9(2):e90693. View at Publisher | View at Google Scholar
• Merali Z, Leung J, Mikulis D, Silver F, Kassner A(2015) Longitudinal assessment of Imatinib’s effect on the blood–brain barrier after ischemia/reperfusion injury with permeability MRI. Translational stroke research. 6(1):39-49. View at Publisher | View at Google Scholar
• Merali Z, Leung J, Mikulis D, Silver F, Kassner A(2015) Longitudinal assessment of Imatinib’s effect on the blood–brain barrier after ischemia/reperfusion injury with permeability MRI. Translational stroke research. 6(1):39-49. View at Publisher | View at Google Scholar
• Kong LL, Wang ZY, Han N, Zhuang XM, Wang ZZ,et al (2014 ) Neutralization of chemokine-like factor 1, a novel CC chemokine, protects against focal cerebral ischemia by inhibiting neutrophil infiltration via MAPK pathways in rats. Journal of neuroinflammation. 11(1):112. View at Publisher | View at Google Scholar
• Chauveau F, Moucharrafie S, Wiart M, Brisset JC, Berthezène Y,(2010 ) In vivo MRI assessment of permanent middle cerebral artery occlusion by electrocoagulation: pitfalls of procedure. Experimental & translational stroke medicine. 2(1):4. View at Publisher | View at Google Scholar
• Chauveau F, Cho TH, Riou A, Langlois JB, Berthezène Y, et al(2012 ) Does acute behavioral testing reflect successful ischemia in rats with transient middle cerebral artery occlusion?. International Journal of Stroke. 7(6):465-72. View at Publisher | View at Google Scholar
• Fluri F, Grünstein D, Cam E, Ungethuem U, Hatz F, et al(2015 ) Fullerenols and glucosamine fullerenes reduce infarct volume and cerebral inflammation after ischemic stroke in normotensive and hypertensive rats. Experimental neurology. 265:142-51. View at Publisher | View at Google Scholar
• Hansel G, Tonon AC, Guella FL, Pettenuzzo LF, Duarte T, (2015 )Guanosine protects against cortical focal ischemia. Involvement of inflammatory response. Molecular neurobiology. 52(3):1791-803. View at Publisher | View at Google Scholar
• Hansel G, Tonon AC, Guella FL, Pettenuzzo LF, Duarte Tet al (2015 ) Guanosine protects against cortical focal ischemia. Involvement of inflammatory response. Molecular neurobiology. 52(3):1791-803. View at Publisher | View at Google Scholar
• Choi DH, Kim JH, Lee KH, Kim HY, Kim YS, et al (2015 ) Role of neuronal NADPH oxidase 1 in the peri-infarct regions after stroke. PloS one. 10(1):e0116814. View at Publisher | View at Google Scholar
• Reuter B, Grudzenski S, Chatzikonstantinou E, Meairs S, Ebert A, (2014 ) Thrombolysis in experimental cerebral amyloid angiopathy and the risk of secondary intracerebral hemorrhage. 45(8):2411-6. View at Publisher | View at Google Scholar
• Summers L, Kangwantas K, Rodriguez-Grande B, Denes A, Penny J, (2013 ) Activation of brain endothelial cells by interleukin-1 is regulated by the extracellular matrix after acute brain injury. Molecular and Cellular Neuroscience. 57:93-103. View at Publisher | View at Google Scholar
• Sugunan S, Binoy Joseph D, K Rajanikant G(2013 ) Evolving therapeutic targets in ischemic stroke: a concise review. Current drug targets. 14(4):497-506. View at Publisher | View at Google Scholar
• Reuter B, Grudzenski S, Chatzikonstantinou E, Meairs S, Ebert A, (2014 ) Thrombolysis in experimental cerebral amyloid angiopathy and the risk of secondary intracerebral hemorrhage. Stroke. 45(8):2411-6. View at Publisher | View at Google Scholar
• Beretta S, Riva M, Carone D, Cuccione E, Padovano G, et al (2013 )Optimized system for cerebral perfusion monitoring in the rat stroke model of intraluminal middle cerebral artery occlusion. JoVE (Journal of Visualized Experiments). 17(72):e50214-. View at Publisher | View at Google Scholar
• Chen Y, Zhu W, Zhang W, Libal N, Murphy SJ, Offner H, Alkayed NJ(2015 ). A novel mouse model of thromboembolic stroke. Journal of neuroscience methods. ;256:203-11. View at Publisher | View at Google Scholar
• Belayev L. Overcoming barriers to translation from experimental stroke models. InTranslational Stroke Research 2012 View at Publisher | View at Google Scholar
• Yang D, Nakajo Y, Iihara K, Kataoka H, Nakagawara J, (2013 ) An integrated stroke model with a consistent penumbra for the assessment of neuroprotective interventions. European neurology. 71(1-2):4-18. View at Publisher | View at Google Scholar
• Tuzun E, Berrih-Aknin S, Brenner T, Kusner LL, Le Panse R,(2015 ) Guidelines for standard preclinical experiments in the mouse model of myasthenia gravis induced by acetylcholine receptor immunization. Experimental neurology. 270:11-7. View at Publisher | View at Google Scholar
• Walberer M, Rueger MA(2015 ) The macrosphere model—an embolic stroke model for studying the pathophysiology of focal cerebral ischemia in a translational approach. Annals of translational medicine. View at Publisher | View at Google Scholar
• Milani D, Clark VW, Cross JL, Anderton RS, Knuckey NW, et al (2016 ) Poly-arginine peptides reduce infarct volume in a permanent middle cerebral artery rat stroke model. BMC neuroscience. 17(1):19. View at Publisher | View at Google Scholar
• García-Bonilla L, Rosell A, Torregrosa G, Salom JB, Alborch E, (2011 ) Recommendations guide for experimental animal models in stroke research. Neurología (English Edition). 26(2):105-10. View at Publisher | View at Google Scholar
• Durand A, Chauveau F, Cho TH, Kallus C, Wagner M, (2014 ) Effects of a tafi-inhibitor combined with a suboptimal dose of rtpa in a murine thromboembolic model of stroke. Cerebrovascular diseases. 38(4):268-75. View at Publisher | View at Google Scholar
• Banno F, Kita T, Fernández JA, Yanamoto H, Tashima Y, (2015 ) Exacerbated venous thromboembolism in mice carrying a protein S K196E mutation. Blood. 126(19):2247-53. View at Publisher | View at Google Scholar
• El Amki M, Clavier T, Perzo N, Bernard R, Guichet PO,(2015 )Hypothalamic, thalamic and hippocampal lesions in the mouse MCAO model: Potential involvement of deep cerebral arteries?. Journal of neuroscience methods. Oct 30;254:80-5. View at Publisher | View at Google Scholar
• Speetzen LJ, Endres M, Kunz A.(2013 ) Bilateral common carotid artery occlusion as an adequate preconditioning stimulus to induce early ischemic tolerance to focal cerebral ischemia. JoVE (Journal of Visualized Experiments). 9(75):e4387-. View at Publisher | View at Google Scholar
• Sun X, Zheng Y, Li Z, Yu M, Yuan Q, Li X, (2012) Design and fabrication of flexible parylene-based inductors with electroplated NiFe magnetic core for wireless power transmission system. InNano/Micro Engineered and Molecular Systems (NEMS), 2012 7th IEEE International Conference on View at Publisher | View at Google Scholar
• Pinheiro PM, Campelo AP, Guimarães SB, Patrocínio RM, Valença Junior JT, (2011;26) Preconditioning with oil mixes of high ratio Omega-9: Omega-6 and a low ratio Omega-6: Omega-3 in rats subjected to brain ischemia/reperfusion. Acta cirurgica brasileira. View at Publisher | View at Google Scholar
• Morris GP, Wright AL, Tan RP, Gladbach A, Ittner LM, (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
• Morris GP, Wright AL, Tan RP, Gladbach A, Ittner LM, Vissel B(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
• Melani A, Dettori I, Corti F, Cellai L, Pedata F. Time-course of protection by the selective A2A receptor antagonist SCH58261 after transient focal cerebral ischemia. Neurological Sciences. 2015 Aug 1;36(8):1441-8. View at Publisher | View at Google Scholar
• Melani A, Dettori I, Corti F, Cellai L, Pedata F(2015 ) Time-course of protection by the selective A2A receptor antagonist SCH58261 after transient focal cerebral ischemia. Neurological Sciences. Aug 1;36(8):1441-8. View at Publisher | View at Google Scholar
• Koistinaho J, Koistinaho M (2014 )Minocycline a tetracycline derivative, as a potential protective agent for acute stroke. InImmunological mechanisms and therapies in brain injuries and stroke View at Publisher | View at Google Scholar
• Melani A, Dettori I, Corti F, Cellai L, Pedata F(2015 ) Time-course of protection by the selective A2A receptor antagonist SCH58261 after transient focal cerebral ischemia. Neurological Sciences. 36(8):1441-8. View at Publisher | View at Google Scholar
• Observation on the effect of modified suture method in the preparation of middle cerebral artery occlusion animal model. Shandong Medical Science. 2014; 54 (28): 24-6. View at Publisher | View at Google Scholar
• Amantea D, Certo M, Petrelli F, Bagetta G(2016 ) Neuroprotective Properties of a Macrolide Antibiotic in a Mouse Model of Middle Cerebral Artery Occlusion: Characterization of the Immunomodulatory Effects and Validation of the Efficacy of Intravenous Administration. Assay and drug development technologies. 14(5):298-307. View at Publisher | View at Google Scholar
• Harris NM, Ritzel R, Mancini N, Jiang Y, Yi X, Manickam DS, Banks WA, Kabanov AV, McCullough LD, Verma R. Nano-particle delivery of brain derived neurotrophic factor after focal cerebral ischemia reduces tissue injury and enhances behavioral recovery. Pharmacology Biochemistry and Behavior. 2016 Dec 31;150:48-56. View at Publisher | View at Google Scholar
• Linden J, Van de Beeck L, Plumier JC, Ferrara A. Procedural learning as a measure of functional impairment in a mouse model of ischemic stroke. Behavioural brain research. 1;307:35-45. View at Publisher | View at Google Scholar
• Cuccione E, Padovano G, Versace A, Ferrarese C, Beretta S. Cerebral collateral circulation in experimental ischemic stroke. Experimental & translational stroke medicine. 8(1):2. View at Publisher | View at Google Scholar
• Thomas A, Detilleux J, Flecknell P, Sandersen C(2017 ) Impact of Stroke Therapy Academic Industry Roundtable (STAIR) Guidelines on Peri-Anesthesia Care for Rat Models of Stroke: A Meta-Analysis Comparing the Years 2005 and 2015. PloS one. 12(1):e0170243. View at Publisher | View at Google Scholar
• Yan Z, Zhang C, Yang Q, Li Y, Xi D, Wang Z(2012 ) Design and analysis of cuboid film resonator for wireless power transmission System based on resonant coupling. InElectrical Machines and Systems (ICEMS), 2012 15th International Conference on . View at Publisher | View at Google Scholar
• Zarif M(2016 ) Design and construct a system of auto tuning for wireless power transmission systems. Majlesi Journal of Energy Management. 5(3). View at Publisher | View at Google Scholar