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W2059270183 abstract "Microcirculatory dysfunction may contribute to delayed cerebral ischemia after subarachnoid hemorrhage (SAH). Using a prechiasmatic injection model, this study investigated ultrastructural changes in microvessels in brain parenchyma to determine the nature of the microthromboemboli, the involvement of nitric oxide (NO) and P-selectin in their formation, and relationship to brain injury after SAH. Brains were examined by electron microscopy (EM) and immunohistochemistry. EM demonstrated that mice with SAH had significantly more arterioles filled with lesions consistent with microthrombi (in cortex, 20 ± 5 for SAH, 8 ± 4 saline-injected and 2.4 ± 0.2 for sham). SAH animals also had more constriction of arterioles. The concentration of NO was lower in mice with SAH (44 ± 9 for sham, 46 ± 20 for saline-injected and 24 ± 11 for SAH). The number of microthrombi correlated with the number of apoptotic neuronal cells (R(2)=0.80 in cortex). Cell membrane P-selectin increased in the endothelium of arterioles in mice with SAH (11.4 ± 0.7 for SAH, 6.8 ± 0.9 for sham and 6.1 ± 0.9 for saline-injected controls). This correlated with decreased NO in the brain. In conclusion, SAH causes microthrombosis and constriction of arterioles, which correlates with neuronal cell death. Increased P-selectin and decreased NO suggest a mechanism for microthrombosis and arteriolar constriction." @default.
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W2059270183 date "2012-11-01" @default.
W2059270183 modified "2023-09-30" @default.
W2059270183 title "Mechanisms of microthrombi formation after experimental subarachnoid hemorrhage" @default.
W2059270183 cites W124814523 @default.
W2059270183 cites W130104401 @default.
W2059270183 cites W1570412320 @default.
W2059270183 cites W1923894350 @default.
W2059270183 cites W1970754132 @default.
W2059270183 cites W1973443459 @default.
W2059270183 cites W1983644893 @default.
W2059270183 cites W1983907205 @default.
W2059270183 cites W1984542627 @default.
W2059270183 cites W1984853710 @default.
W2059270183 cites W1990584420 @default.
W2059270183 cites W1997082537 @default.
W2059270183 cites W2003999337 @default.
W2059270183 cites W2007227258 @default.
W2059270183 cites W2013368376 @default.
W2059270183 cites W2018347215 @default.
W2059270183 cites W2018950346 @default.
W2059270183 cites W2026796826 @default.
W2059270183 cites W2032591701 @default.
W2059270183 cites W2034758230 @default.
W2059270183 cites W2034916550 @default.
W2059270183 cites W2035242351 @default.
W2059270183 cites W2042252962 @default.
W2059270183 cites W2043175847 @default.
W2059270183 cites W2050561722 @default.
W2059270183 cites W2053213933 @default.
W2059270183 cites W2056956334 @default.
W2059270183 cites W2056988908 @default.
W2059270183 cites W2057016253 @default.
W2059270183 cites W2062524821 @default.
W2059270183 cites W2066558585 @default.
W2059270183 cites W2069200235 @default.
W2059270183 cites W2071434431 @default.
W2059270183 cites W2072475698 @default.
W2059270183 cites W2075445803 @default.
W2059270183 cites W2079193230 @default.
W2059270183 cites W2080184521 @default.
W2059270183 cites W2085604139 @default.
W2059270183 cites W2090069431 @default.
W2059270183 cites W2093036167 @default.
W2059270183 cites W2093742160 @default.
W2059270183 cites W2093984243 @default.
W2059270183 cites W2097514615 @default.
W2059270183 cites W2101988458 @default.
W2059270183 cites W2102182787 @default.
W2059270183 cites W2105909502 @default.
W2059270183 cites W2109474175 @default.
W2059270183 cites W2116291080 @default.
W2059270183 cites W2118005681 @default.
W2059270183 cites W2124217107 @default.
W2059270183 cites W2125042586 @default.
W2059270183 cites W2130365640 @default.
W2059270183 cites W2135035401 @default.
W2059270183 cites W2146131556 @default.
W2059270183 cites W2150982420 @default.
W2059270183 cites W2161525412 @default.
W2059270183 cites W2167754729 @default.
W2059270183 cites W2169271252 @default.
W2059270183 cites W4213435391 @default.
W2059270183 cites W4246991801 @default.
W2059270183 doi "https://doi.org/10.1016/j.neuroscience.2012.08.002" @default.
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