Sara‐Jane Salstrom scite author profile

BackgroundHost factors and complications have been associated with higher mortality in infective endocarditis (IE). We sought to develop and validate a model of clinical characteristics to predict 6‐month mortality in IE.Methods and ResultsUsing a large multinational prospective registry of definite IE (International Collaboration on Endocarditis [ICE]–Prospective Cohort Study [PCS], 2000–2006, n=4049), a model to predict 6‐month survival was developed by Cox proportional hazards modeling with inverse probability weighting for surgery treatment and was internally validated by the bootstrapping method. This model was externally validated in an independent prospective registry (ICE‐PLUS, 2008–2012, n=1197). The 6‐month mortality was 971 of 4049 (24.0%) in the ICE‐PCS cohort and 342 of 1197 (28.6%) in the ICE‐PLUS cohort. Surgery during the index hospitalization was performed in 48.1% and 54.0% of the cohorts, respectively. In the derivation model, variables related to host factors (age, dialysis), IE characteristics (prosthetic or nosocomial IE, causative organism, left‐sided valve vegetation), and IE complications (severe heart failure, stroke, paravalvular complication, and persistent bacteremia) were independently associated with 6‐month mortality, and surgery was associated with a lower risk of mortality (Harrell's C statistic 0.715). In the validation model, these variables had similar hazard ratios (Harrell's C statistic 0.682), with a similar, independent benefit of surgery (hazard ratio 0.74, 95% CI 0.62–0.89). A simplified risk model was developed by weight adjustment of these variables.ConclusionsSix‐month mortality after IE is ≈25% and is predicted by host factors, IE characteristics, and IE complications. Surgery during the index hospitalization is associated with lower mortality but is performed less frequently in the highest risk patients. A simplified risk model may be used to identify specific risk subgroups in IE.

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Reevaluation of the Definition of Legionnaires' Disease: Use of the Urinary Antigen Assay

Plouffe

File²,

Breiman³

et al. 1995

Clinical Infectious Diseases

181

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Cases of Legionnaires' disease have been categorized as definitive and presumptive. The sensitivity and specificity of antibody titers of > or = 256 and of urinary antigen ratios of > or = 3 were evaluated in 68 patients with "definitive" Legionnaires' disease and in 636 patients with pneumonia who had negative cultures and did not have fourfold rises in titers of antibody to Legionella pneumophila. An acute-phase antibody titer of > or = 256 did not discriminate between cases and noncases (10% vs. 6%; P = .29). The urinary antigen assay gave a positive result in fewer than 1% of noncases but was positive in 55.9% of all cases. This assay was most sensitive (80%) in cases in which L. pneumophila serogroup 1 was isolated. We propose that the case definition for definitive Legionnaires' disease be expanded to include positive urinary antigen assays and that the category of presumptive Legionnaires' disease--based on acute-phase or standing antibody titers of > or = 256 in the nonoutbreak setting--be discarded. The urinary antigen assay will be a valuable tool in the prompt diagnosis of Legionnaires' disease.

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Impact of Early Valve Surgery on Outcome of Staphylococcus aureus Prosthetic Valve Infective Endocarditis: Analysis in the International Collaboration of Endocarditis–Prospective Cohort Study

et al. 2014

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Effect of vacuum mixing on the mechanical properties of antibiotic‐impregnated polymethylmethacrylate bone cement²

Askew

Kufel

Fleissner

et al. 1990

J. Biomed. Mater. Res.

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Polymethylmethacrylate bone cement, containing either no added antibiotic, 0.5 g of Vancomycin, 1.0 g of Vancomycin, or 1.0 g of Tobramycin, was mixed either in air or a vacuum chamber. Following storage in a water bath at 37 degrees C for 48 h, the specimens were tested in four-point bending. The porosity of the specimens was assessed radiographically, and their antibacterial activity was monitored for 21 days. The bending strength of the vacuum mixed specimens containing no antibiotic was 40% greater than that of similar air-mixed specimens. However, there were no significant differences in the bending strength of either the air- or vacuum-mixed specimens when any of the antibiotic dosages were added. The bending modulus of the vacuum-mixed specimens, containing no antibiotic, was significantly greater than the moduli of all the other specimen groups which did not differ from each other. Vacuum mixing reduced the apparent porosity of the specimens fivefold, and while the addition of antibiotic did not effect porosity of the air-mixed specimens, that of the vacuum-mixed specimens was doubled. Although initial rapid decreases were seen, leaching of antibiotic from the cement and antibacterial activity continued through the 21-day monitoring period.

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