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“In recent years, biosurveillance has become the buzzword under which a diverse set of ideas and activities regarding detecting and mitigating biological threats are incorporated depending on context and perspective. Increasingly, biosurveillance practice has become global and interdisciplinary, requiring information and resources across public health, One Health, and biothreat domains. Even within the scope of infectious disease surveillance, I-BET-762 supplier multiple systems, data sources, and tools are used with varying and often unknown effectiveness. Evaluating the impact and utility of state-of-the-art biosurveillance is, in part,
confounded by the complexity of the systems and the information derived from them. We present a novel approach conceptualizing biosurveillance from the perspective of the fundamental data streams that have been or could be used for biosurveillance and to systematically structure a framework that can LDC000067 ic50 be universally applicable
for use in evaluating and understanding a wide range of biosurveillance activities. Moreover, the Biosurveillance Data Stream Framework and associated definitions are proposed as a starting point to facilitate the development of a standardized lexicon for biosurveillance and characterization of currently used and newly emerging data streams. Criteria for building the data stream framework were developed from an examination of the literature, analysis of information on operational infectious disease biosurveillance systems, and consultation with experts in the area of biosurveillance. To demonstrate utility, the framework and definitions were used as the basis for a schema of a relational database for biosurveillance resources and in the development and use of a decision support tool for data stream evaluation.”
“Objective: The objective of the study was to quantitatively characterize peripheral tissue microvascular oxygenation during emergency department (ED) Ro 61-8048 supplier treatment of acute heart failure (HF).\n\nMethods: This prospective, observational study enrolled acutely decompensated HF patients presenting
to an urban ED and stable, asymptomatic HF patients evaluated in an outpatient cardiology clinic. Stable, pre-ED treatment, and post-ED treatment microvascular oxygen extraction ratios (OER(M)s) were calculated, defined as SaO(2) – StO(2)/0.8*SaO(2), where SaO(2) is pulse oximetry-derived arterial hemoglobin saturation and StO(2) is the tissue hemoglobin oxygen saturation measured with differential absorption spectroscopy. The OER(M) measurements were analyzed using repeated-measures analysis of variance. Pulse oximetry, patient demographics, HF etiology, serum B-type natriuretic peptide, and hemoglobin were measured along with a visual analogue scale to assess patient baseline characteristics and response to ED treatment (P < .05 was considered significant for all testing).\n\nResults: The OER(M) for the stable HF group (n = 45) was 0.65 (SE = 0.07).