The Journal of hospital infection
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Multicenter Study
Procalcitonin as an early indicator of outcome in sepsis: a prospective observational study.
This study explores the role of procalcitonin (PCT) in predicting the outcome of sepsis. In a prospective multicentre observational investigation, blood was sampled within 24 h of onset of sepsis in 1156 hospitalised patients; 234 were in the intensive care unit (ICU) at the point of presentation of sepsis while 922 were not. ⋯ Among patients whose sepsis presented in ICU, mortality was 25.6% in those with PCT ≤0.85 ng/mL but 45.3% in those with PCT >0.85 ng/mL (P=0.002; OR for death: 2.404; 95% CI: 1.385-4.171). It is concluded that PCT cut-off concentrations can contribute to predicting the outcome of sepsis and might be of particular value in identifying patients who would benefit from ICU admission.
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The impact of high level cephalosporin resistance due to Enterobacteriaceae harbouring a type I-inducible chromosomal β-lactamase on the outcome of ventilator-associated pneumonia (VAP) remains unknown. A retrospective cohort study was conducted in two intensive care units (ICUs) over a four-year period to identify factors prognostic of VAP caused by high level AmpC (HL-AmpC)-producing Enterobacteriaceae. The study included 75 patients, who developed VAP due to Enterobacteriaceae harbouring a type I-inducible chromosomal β-lactamase. ⋯ Enterobacter spp. were the major HL-AmpC-producing micro-organisms responsible for VAP. VAP due to HL-AmpC-producing Enterobacteriaceae is rare. High level cephalosporin resistance was not associated with higher day 28 mortality, despite its association with more severe disease at VAP onset.
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Indoor ventilation with good air quality control minimises the spread of airborne respiratory and other infections in hospitals. This article considers the role of ventilation in preventing and controlling infection in hospital general wards and identifies a simple and cost-effective ventilation design capable of reducing the chances of cross-infection. Computational fluid dynamic (CFD) analysis is used to simulate and compare the removal of microbes using a number of different ventilation systems. ⋯ These improvements are capable of matching the standards maintained in a properly constructed isolation room, though at much lower cost. It is recommended that the newly identified ventilation parameters be widely adopted in the design of new hospital general wards to minimise cross-infection. The proposed ventilation system can also be retrofitted in existing hospital general wards with far less disruption and cost than a full-scale refurbishment.