Current neurovascular research
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Controlled Clinical Trial
Acute cerebral blood flow variations after human cardiac arrest assessed by stable xenon enhanced computed tomography.
In this study, changes in cerebral blood flow (CBF) during acute phase after cardiopulmonary arrest (CPA) were examined in patients using stable Xenon enhanced computed tomography (Xe-CT). All patients (8) were stabilized hemodynamically within 4 hours after admission, and Xe-CT was performed immediately after restoration of spontaneous circulation (ROSC) at 8, 24, 48, 96 and 168 hours after ROSC. The progress of patients was monitored in other hospitals and clinics after discharge. ⋯ However, at 48, 96, and 168 hours after ROSC, the opposite was observed: The CBF ratio was significantly higher in Group A than Group B (p<0.05). Based on these results, we concluded that CBF in the patients who survived after CPA changed remarkable especially within the first week. Furthermore, patients with abnormally low CBF that returns to supernormal within the first 48 hours following CPA can be expected to recover well neurologically.
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Sepsis is often complicated by encephalopathy, neuroendocrine dysfunction and cardiovascular autonomic failure. The cause of septic brain dysfunction is not fully understood. The aim of the present study is to explore whether septic brain dysfunction in a common septic model in the rat correlates with abnormalities either of local cerebral blood flow (LCBF) of defined brain areas or of whole brain blood flow (CBF). 45 male Wistar rats (320+/-13 g) were randomly assigned to a sepsis group (31 rats, cecal ligature and puncture, CLP) or a control group (14 rats, sham operation). ⋯ LCBF of all 42 areas, as well as, CBF (116+/-59 vs. 115+/-52 m x 100 g(-1)min(-1), n.s.) did not differ. The results showed that severe sepsis (mortality rate of 43 %) did not induce alterations in mean CBF and LCBF. It is concluded that brain dysfunction is not reflected in changes of CBF during severe sepsis.