EXPERIMENTAL HEMORRHAGIC STROKE: SEARCH FOR A BETTER MODEL
Keywords:
hemorrhagic stroke, experimental study, biological model, laboratory animal
Abstract
Hemorrhagic stroke is one of the least studied problems in the modern neurology. Development of the treatment leads to examination of the pathophysiology of the process, which mainly can be performed in animal models. Recent years few animal model of the hemorrhagic stroke have been proposed. In this review we discuss the differences and benefits of the existing models in the compliance with the process that take place in human patients with hemorrhagic stroke.
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References
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15. Nguyen A.P., Arvanitidis A.P., Colbourne F., Failure of estradiol to improve spontaneous or rehabilita-tion-facilitated recovery after hemorrhagic stroke in rats, Brain Research 1193 (2008) 109-119.
16. Ayala C.N., Croft J.B., Greenlund K.J., Keenan N.L., Donehoo R.S., Malarcher A.M., Mensah G.A., Sex differences in US mortality rates for stroke and stroke subtypes by race/ethnicity and age, 1995-1998, Stroke 33 (2002) 1197-1201.
17. Aikawa V.N., Bambirra A.P., Seoane L.A., Bensenor I.M., Lotufo P.A., Higher burden of hemorrhagic stroke among women - An autopsy-based study in Sao Paulo, Brazil, Neuroepidemiology 24 (2005) 209-213.
18. Wassertheil-Smoller S., Hendrix S.L., Limacher M., Heiss G., Kooperberg C., Baird A., Kotchen T., Curb J.D., Black H., Rossouw J.E., Aragaki A., Safford M., Stein E., Laowattana S., Mysiw W.J., Effect of estrogen plus progestin on stroke in postmenopausal women - The Women's Health Initiative: A ran-domized trial, Jama-Journal of the American Medical Association 289 (2003) 2673-2684.
19. Canales J.J., Graybiel A.M., A measure of striatal function predicts motor stereotypy, Nature Neurosci-ence 3 (2000) 377-383.
20. West M.O., Carelli R.M., Pomerantz M., Cohen S.M., Gardner J.P., Chapin J.K., Woodward D.J., A Region in the Dorsolateral Striatum of the Rat Exhibiting Single-Unit Correlations with Specific Locomotor Limb Movements, Journal of Neurophysiology 64 (1990) 1233-1246.
21. Phillips J.G., Bradshaw J.L., Iansek R., Chiu E., Motor Functions of the Basal Ganglia, Psychological Research-Psychologische Forschung 55 (1993) 175-181.
22. Hua Y., Schallert T., Keep R.F., Wu J.M., Hoff J.T., Xi G.H., Behavioral tests after intracerebral hemor-rhage in the rat, Stroke 33 (2002) 2478-2484.
23. Strbian D., Durukan A., Tatlisumak T., Rodent models of hemorrhagic stroke, Curr.Pharm.Des 14 (2008) 352-358.
24. Allred R.P., Adkins D.L., Woodlee M.T., Husbands L.C., Maldonado M.A., Kane J.R., Schallert T., Jones T.A., The Vermicelli Handling Test: A simple quantitative measure of dexterous forepaw function in rats, J.Neurosci.Methods (2008).
25. Ferland C., Veilleux-Lemieux D., Vachon P., Effects of buprenorphine on intracerebral collagenase-induced hematoma in Sprague-Dawley rats, Journal of the American Association for Laboratory Animal Science 46 (2007) 13-16.
26. Andres R.H., Guzman R., Ducray A.D., Mordasini P., Gera A., Barth A., Widmer H.R., Steinberg G.K., Cell replacement therapy for intracerebral hemorrhage, Neurosurg.Focus 24 (2008) E16.
27. Chesney J.A., Kondoh T., Conrad J.A., Low W.C., Collagenase-induced intrastriatal hemorrhage in rats results in long-term locomotor deficits, Stroke 26 (1995) 312-316.
28. Nakamura T., Keep R.F., Hua Y., Schallert T., Hoff J.T., Xi G.H., Deferoxamine-induced attenuation of brain edema and neurological deficits in a rat model of intracerebral hemorrhage, Journal of Neurosur-gery 100 (2004) 672-678.
29. Copin J.C., Merlani P., Sugawara T., Chan P.H., Gasche Y., Delayed matrix metalloproteinase inhibition reduces intracerebral hemorrhage after embolic stroke in rats, Exp.Neurol. 213 (2008) 196-201.
30. Badjatia N., Rosand J., Intracerebral hemorrhage, Neurologist 11 (2005) 311-324.
31. Smith E.E., Rosand J., Greenberg S.M., Hemorrhagic stroke, Neuroimaging Clin.N.Am. 15 (2005) 259-72, ix.
32. Rincon F., Mayer S.A., Clinical review: Critical care management of spontaneous intracerebral hemor-rhage, Crit Care 12 (2008) 237.
33. Xi G.H., Keep R.F., Hoff J.T., Mechanisms of brain injury after intracerebral haemorrhage, Lancet Neu-rology 5 (2006) 53-63.
34. Liebeskind D.S., American Stroke Association--28th International Conference. 13-15 February 2003, Phoenix, AZ, USA, IDrugs. 6 (2003) 288-289.
35. Xue M., Del Bigio M.R., Comparison of brain cell death and inflammatory reaction in three models of intracerebral hemorrhage in adult rats, J.Stroke Cerebrovasc.Dis. 12 (2003) 152-159.
36. Rosenberg G.A., Munbryce S., Wesley M., Kornfeld M., Collagenase-Induced Intracerebral Hemorrhage in Rats, Stroke 21 (1990) 801-807.
37. Barth A., Guzman R., Andres R.H., Mordasini P., Barth L., Widmer H.R., Experimental intracerebral hematoma in the rat, Restorative Neurology and Neuroscience 25 (2007) 1-7.
38. Sinar E.J., Mendelow A.D., Graham D.I., Teasdale G.M., Experimental Intracerebral Hemorrhage - Ef-fects of A Temporary Mass Lesion, Journal of Neurosurgery 66 (1987) 568-576.
39. Strbian D., Durukan A., Tatlisumak T., Rodent models of hemorrhagic stroke, Current Pharmaceutical Design 14 (2008) 352-358.
40. Nakashima K., Yamashita K., Uesugi S., Ito H., Temporal and spatial profile of apoptotic cell death in transient intracerebral mass lesion of the rat, Journal of Neurotrauma 16 (1999) 143-151.
41. MacLellan C.L., Gyawali S., Colbourne F., Skilled reaching impairments follow intrastriatal hemorrhagic stroke in rats, Behavioural Brain Research 175 (2006) 82-89.
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How to Cite
Yabluchanskiy, A., Sawle, P., Homer-Vanniasinkam, S., Green, C. J., & Motterlini, R. (1). EXPERIMENTAL HEMORRHAGIC STROKE: SEARCH FOR A BETTER MODEL. The Journal of V. N. Karazin Kharkiv National University, Series "Medicine", (19), 21-30. Retrieved from https://periodicals.karazin.ua/medicine/article/view/6933
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