View clinical trials related to Infection.
Filter by:The purpose of this study is to determine the incidence and risk factors related to Infection in patients with Inflammatory Bowel Disease (IBD)
A randomized controlled trial measuring surgical site infection rate as a function of timing of wound dressing removal.
Septi-PICC study aims at assessing incidence of Peripherally Inserted Central Catheter (PICC)-related infections among patients managed in the University Hospital of La Reunion for PICC setting.
Levels of PCT (a marker of bacterial infection) are highest during sepsis: in fact, PCT is normally produced by the C cells in the thyroid gland. PCT was initially studied by Assicot1 for distinguishing between bacterial meningitis and viral meningitis. The CALC-I gene codes for PCT. In the absence of infection, the extrathyroid mRNA expression of the CALC-I gene is repressed, and expression is restricted to neuroendocrine thyroid and pulmonary cells. Infection induces the ubiquitous expression of the CALC-I gene. PCT is not transformed into calcitonin in parenchymatous tissues. In a context of sepsis, the whole body acts as a neuroendocrine gland. Sepsis upregulates PCT mRNA expression much more than that of other cytokines. PCT is used in critical care departments as a diagnostic marker, a guide to treatment (antibiotics are withdrawn if the level falls) and a prognostic marker. There are few data on the diagnostic use of PCT in an internal medicine department. The available studies yielded contradictory results and only one prospective study has been performed . The objective was to study PCT in non-infectious, inflammatory pathologies and to establish whether PCT could distinguish infections from other inflammatory pathologies in patients in an internal medicine department. In a ROC curve analysis, a PCT threshold of 0.35 µmol/l gave the greatest specificity (88%) and sensitivity (72%). Other studies have been performed but featured small sample sizes and a retrospective design. Of the various studies performed in internal medicine departments, none included patients presenting with a suspected bacterial infection (according to the clinician's interpretation) and lacking information on their bacterial status. In fact, these diagnoses are a core component of hospitalisation in internal medicine departments for fever or inflammatory syndrome. The investigators intend to include all patients, including those lacking information on their microbiological status).
3rd generation cephalosporins (C3G) are the antibiotics recommended in probabilistic in most enteric infections in France including pyelonephritis and bacteraemia. However, the prevalence of resistance of Enterobacteriaceae including E. coli to C3G is continuously increasing for several years. In 2012, in France, the proportion of E. resistant or intermediate coli categorized to C3G is 10 to 25% (EARSS data). Antibiotics not adapted early in severe sepsis is responsible for worse prognosis for patients in terms of morbidity and mortality and unnecessary prolongation of the DMS. At St. Joseph's Hospital on enterobacteria levels of resistance to C3G is 15.4%. To avoid overuse of carbapenems for probabilistic antibiotic and to quickly prescribe antibiotics adapted to the resistance of the bacteria, it is interesting to use a rapid test for detection of resistance to C3G. The Lacta ™ test could be used in this indication. This is a rapid test diagnostic orientation detecting hydrolysis of a substrate (chromogenic cephalosporin) by the enzymatic action of ESBL, cAMP-type cephalosporinases and carbapenemases. This test was initially marketed for rapid detection of resistance to C3G enterobacteria from isolated bacterial colonies in culture.
During or after antibiotic treatment, antibiotic residues impair the intestinal microbiota (gut flora) and lead to adverse effects such as the emergence of bacterial resistance or the occurrence antibiotic-associated diarrhoea (AAD) including antibiotic-induced C. difficile infection (CDI). The spread of resistant Gram-negative bacteria and the increasing number and severity of CDI are considered as worldwide public health threats. Da Volterra is a biotechnology company developing a novel product, DAV132 (a medical device in Europe), intended to prevent these antibiotic adverse effects. Da Volterra is planning to carry out a phase 2-3 randomized controlled trial (RCT) of DAV132 in the prevention of antibiotic-induced CDI. The RCT will involve hospitalized patients aged ≥50 years old and treated with predefined antibiotic classes known to increase the risk of CDI. The incidence of CDI in this population is unknown, yet, incidence is an important determinant for the required sample size. Therefore, the main objective of the current study is to assess CDI incidence in patients ≥50 years of age treated with predefined antibiotic classes. In addition, to optimise the target population of the DAV132 RCT, the effect of the predefined antibiotic agents on the intestinal microbiota will be assessed. Furthermore, biomarkers predictive of CDI occurrence might help identify patients at high risk for the disease, which could further optimise the RCT. No validated biomarkers have been described in the literature yet. Assessment of potential biomarkers is another aim of the present study.
This study evaluates the role of AZLI in the treatment of acute pulmonary exacerbations of CF. For consecutive exacerbations patients will receive AZLI + IV Colistin, or two IV anti-pseudomonals.
The purpose of this study is to evaluate in a multicentric cluster randomized study the effect of the presence of dedicated nurses for training of ICU staff in preventing nosocomial infections. The rate of bloodstream infections per 100 admitted patients is used as the main endpoint. A sample of 4000 included patients in the 6 participating ICU is included with the objective to show a reduction of one third of the rate of ICU-acquired bloodstream infections. The study is currently at the end of the recrutimeent phase.
Post-operative wound infections can prolong hospital stays, increase rates of readmission to the intensive care unit, and increase the costs of treatment significantly. This study will conduct a prospective chart review of all patients undergoing elective spinal surgery on both the neurosurgery and orthopedic spine services at two facilities on an academic campus. The investigators will collect the data of those patients who develop post-surgical infections. This data will then be analyzed and compared to published data from other studies. The aim of this investigation is to passively collect this infection data, which may ultimately provide needed baseline incidence rates using current and standard protocols.
The determinants associated with severe outcome and death from Escherichia coli bloodstream infections (BSI) remain poorly understood. The epidemiology of E. coli BSI has recently changed dramatically with the global emergence of multiresistant strains producing extended-spectrum ß-lactamases (ESBL). Outcome is worse in case of ESBL-E. coli, which may be due to the intrinsic virulence of ESBL-E. coli or to a delayed adequate empirical antibiotic therapy because of multiresistance. Predicting the severity of an infection as soon as the initial clinical assessment is of major importance to provide the best care, while limiting unnecessary hospitalizations and costs. Yet, no simple clinical score exists to predict the severity of E. coli infections. In a translational approach, the investigators will include during a maximum of one year 500 adults with E. coli BSI hospitalized in 7 hospitals in the Paris area, France. Precise clinical data will be collected at inclusion and 28 days after inclusion or upon patient's discharge (if before day 28). The primary endpoint of the study is death from E. coli BSI at day 28. The first aim is to determine risk-factors for death at day 28, including clinical and bacteriological factors (determined by WGS) in the era of the global emergence of ESBL producing E. coli. The second aim is to determine virulence characteristics of ESBL strains both at the genome and phenotypic level thanks to a mouse model of septicaemia, and compare them to the clinical data. The third aim, will establish and evaluate a simple clinical severity score (named COLISCORE), in order to help clinician evaluate patients' severity upon initial clinical evaluation and particularly to detect patients at risk of severe outcome. The ultimate goal of this work is to have a clinical impact on patients' management, by understanding the determinants of patient severity due to E. coli BSI in the context of current major epidemiological changes.