Shock : molecular, cellular, and systemic pathobiological aspects and therapeutic approaches : the official journal the Shock Society, the European Shock Society, the Brazilian Shock Society, the International Federation of Shock Societies
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There are only few strategic and therapeutic options to improve the functional outcome of patients after cardiac arrest and resuscitation (CPR). The pathophysiology of reperfusion injury after global ischemia is not completely understood. We present here a murine model of cardiac arrest and resuscitation that allows an analysis of the pathophysiology of reperfusion injury, especially focusing on survival, tissue damage, and functional neurological parameters. ⋯ Histological examinations and blood analyses of CPR animals revealed significant leukocyte tissue infiltration and morphological damage of brain, lung, and kidneys. In summary, mice undergoing CPR after cardiac arrest present distinct neurological deficits, marked organ damage, and a 54% mortality rate. Our highly standardized and reproducible model of mice resuscitation provides a means for a better understanding of the post-CPR pathophysiology and thus opens new perspectives to develop relevant therapeutic approaches to minimize global I/R injury.
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The present study was designed to find out whether SB431542, an inhibitor of transforming growth factor beta1 activin receptor-like kinase, could protect the lung from LPS-induced injury. Inflammatory lung injury model was induced by intratracheal administration of LPS. C57BL/6 mice were randomly divided into the sham control group (S group), the LPS stimulation group (L group), the LPS + early SB431542 treatment group (Ie group), and the LPS + delayed SB431542 treatment group (Id group). ⋯ Those parameters were further aggravated in the Ie group whereas relieved significantly in the Id group. These data suggest that SB431542 therapy for inflammatory lung injury could be harmful if performed during early-phase inflammatory response. However, the therapy would prevent lung from inflammatory injury and fibrosis if it was initiated late.
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The mechanisms of the N-terminal-pro-brain natriuretic peptide (NT-pro-BNP) release in intensive care unit (ICU) patients with preserved ejection fraction (EF) are unclear. We investigated whether left ventricular (LV) dysfunction, as assessed by tissue Doppler imaging (TDI), is related to NT-pro-BNP levels in ICU patients with preserved EF and has a complementary value to NT-pro-BNP in the determination of in-hospital mortality. We examined 58 mechanically ventilated patients with no history of heart failure (age, 60 +/- 18 years; EF, 63% +/- 7%). ⋯ The addition of abnormal TDI in a model including NT-pro-BNP and sepsis increased the model's value for in-hospital mortality (P for change = 0.01). In ICU patients with preserved EF, LV diastolic dysfunction and sepsis determine NT-pro-BNP levels. Tissue Doppler imaging markers and NT-pro-BNP have a complementary value for in-hospital mortality.
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S100B has been described as a marker of brain injury. However, not much is known regarding change in plasma S100B and its relation with mortality after spontaneous intracerebral hemorrhage (ICH). Thus, we sought to investigate change in plasma S100B level after ICH and to evaluate its relation with disease outcome. ⋯ A receiver operating characteristic curve identified plasma S100B cutoff level (192.5 pg/mL) that predicted 1-week mortality with the high sensitivity (93.8%) and specificity (70.4%) values (P < 0.001). The differences between areas under curves of plasma S100B levels and those of Glasgow Coma Scale scores and ICH volumes were not statistically significant (both P > 0.05). Increased S100B level is found after ICH and may contribute to the inflammatory process of ICH, in association with a poor clinical outcome.