Intensive care medicine
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Intensive care medicine · Jul 2011
ReviewWill polymerase chain reaction (PCR)-based diagnostics improve outcome in septic patients? A clinical view.
Polymerase chain reaction (PCR)-based techniques allow more rapid and sensitive detection of pathogens compared with conventional blood culture. Nevertheless, the climate of opinion of relevant studies is that currently PCR can supplement but not replace blood culture. In numerous studies, combined detection rate of both methods was significantly higher compared with PCR or blood culture alone. ⋯ Except for diagnostics of patients in whom unusual, not culturable, or fastidious pathogens are detected more often, such as immunosuppressed patients with suspected parasitic infection, etc., it might even not be necessary to further increase the spectrum of detectable species. If the primary aim of PCR diagnostics is to decrease inappropriate empirical treatment and improve patient outcome, detection should focus on those pathogens or resistance determinants that are not covered by guideline-recommended treatment regimens and that have been identified as the major cause of inappropriate treatment according to current studies. In our opinion, such a narrower assay is more cost effective, may achieve higher accuracy due to reduced intratest interference, and would better address current and emerging clinical needs.
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Intensive care medicine · Jul 2011
Rule of rescue or the good of the many? An analysis of physicians' and nurses' preferences for allocating ICU beds.
To examine intensive care unit (ICU) clinicians' willingness to trade off societal benefits in favor of a small chance of rescuing an identifiable critically ill patient. ⋯ More than one-third of ICU clinicians forewent substantial social benefits so as to devote resources to an individual patient unlikely to benefit from them. Such allegiance to the rule of rescue suggests challenges for efforts to reform ICU triage practices.
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Intensive care medicine · Jul 2011
Daily titration of neurally adjusted ventilatory assist using the diaphragm electrical activity.
To determine the feasibility of daily titration of the neurally adjusted ventilatory assist (NAVA) level in relation to the maximal diaphragmatic electrical activity (EAdi(maxSBT)) measured during a spontaneous breathing trial (SBT) during pressure support ventilation (PSV). ⋯ These results suggest that daily titration of NAVA level with an electrical goal of ~60% EAdi(maxSBT) is feasible and well tolerated. The respiratory mechanics improvement and increase in respiratory drive allowed for a daily reduction of the NAVA level while preserving breathing, oxygenation, and alveolar ventilation until extubation.
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Intensive care medicine · Jul 2011
Hyperbaric oxygen therapy reduces the toll-like receptor signaling pathway in multiple organ failures.
Zymosan-induced generalized inflammation is the only experimental model that reproduces characteristics of human multiple organ dysfunction syndrome (MODS). Toll-like receptors (TLRs) are key components in innate immune responses and their signaling pathway is known to activate target genes such as nuclear factor-κB (NF-κB) and cytokines that are involved in inflammation and immune responses. We previously reported that hyperbaric oxygen (HBO) therapy is effective in the treatment of severe zymosan-induced inflammation in MODS. The aim of this study was to investigate the effect of HBO exposure on TLR2 and TLR4 signal transduction and organ dysfunction during MODS induced by zymosan in the rat. ⋯ Taken together, these results suggest that, by interfering with the TLR pathway, HBO treatment may exert a protective effect against tissue injury caused by zymosan-induced generalized inflammation.