View clinical trials related to Cross Infection.
Filter by:Data extraction from bacteriological laboratory of Martinique University hospital to determine the frequency and the distribution of nosocomial infections due to Achromobacter xylosoxidans (ACHX), an emerging multi-resistant environmental bacteria. The specific tropical environment and climatic conditions in Martinique may favor ACHX development and the investigators suppose that this new opportunistic pathogen can represent a danger for hospitalized patients. The aim of our study is to describe the most affected population and try to identify the main environmental sources of contamination.
Surgical site infections (SSI) are the second most common cause of nosocomial infections accounting for 15% of all nosocomial infections among hospitalized patients and 38% of nosocomial infections in surgical patients. In obstetric patients, infectious morbidity (i.e. SSI, endometritis) occurs in 5-10% of cesarean sections, which is 5-fold higher than vaginal deliveries. Additionally, infectious morbidity is thought to be highest in those patients who have cesarean sections after undergoing labor. Chlorhexidine, a chemical antiseptic effective on gram positive and gram negative bacteria, reduces skin microflora/colonization but it is not clear if it decreases the risk of SSI. Historically, chlorhexidine has been studied and used in orthopedic and cardiac implant surgeries. Research on the use of chlorhexidine for SSI prevention in cesarean sections is limited. This study intends to evaluate the effectiveness of use of both chlorhexidine gluconate (CHG) wipe and vaginal scrub in reducing SSI in patients undergoing cesarean section that have previously been laboring. Patients will be randomized to one of two groups: wash with both a pre-operative CHG cloth prior to surgery and chlorhexidine gluconate vaginal scrub in addition to standard preoperative scrub as compared to standard preoperative scrub alone.
Hospital acquired chest Infections are common complications in hospitalized cirrhotic patients. Infectious complications are the most common cause of mortality in cirrhotic patients with bronchopneumonia early antibiotic treatment at the base of culture and sensitivity is an optimal therapeutic approach in cirrhotics with nosocomial pneumonia Intensive care unit acquired pneumonia is the leading infection in critically ill patients and a major cause of morbidity and mortality despite recent major advances in antimicrobial therapy, supportive care, and the use of a broad range of preventive measures
Hospital-acquired influenza is associated with significant morbidity and mortality in hospitalized patients notably elderly patients. Furthermore, it is also associated with a large economic impact for the hospitals. The transmission of influenza has been mostly reported in pediatric and long-stay units. The chains of transmission of influenza in acute-stay units have to be describe in order to prevent and control potential outbreaks. Furthermore, to know clinical symptoms seems to be important in order to identify potential sources of virus as soon as possible and to set up appropriate hygiene prevention measures. Moreover, the definition of the hospital-acquired influenza has to be harmonized for all over the studies, especially concerning the delay between the admission in the hospital and the symptoms onset. The aim of this study is to describe the hospital-acquired influenza in a french university hospital of around 800 beds
This is a prospective surveillance study to estimate excess deaths due to and risk factors associated with antibiotic-resistant infection among patients with hospital-acquired infection (HAI) in a resource-limited setting. We will focus on six pathogenic bacteria that are of clinically important in the hospital.
Insertion and maintenance of central venous catheter (CVC) lines are common hospital procedures in patients, including those being treated for cancer. CVCs allow clinicians an access point for infusion of fluids, blood sampling, and measurements, decreasing the need for repeated needle sticks to the patient. However, bloodstream infections associated with CVCs (CLABSIs) are a serious complication, leading to significantly longer hospital stays, morbidity, and mortality. Keeping catheter ports disinfected reduces the risk of bloodstream infection; however, consistent and adequate maintenance and disinfection of the line can be difficult. The purpose of this study is to demonstrate that passive disinfecting caps can provide a patient safety practice that is easy for clinicians to follow, as well as providing easily auditable compliance, which may lead to lower CLABSI rates. The compliance rate for needleless connector disinfection will be evaluated after implementation of the passive disinfecting cap, and compared to the pre-intervention rate. The CLABSI rates before and after cap implementation will also be compared.
This is a study to define strategies for Nephrologists to directly supervise and apply direct acting antivirals to cure hepatitis C in hemodialysis patients. Strategies will include identification of candidate patients, application for insurance approval, specifics of direct acting antiviral therapy (Zepatier with or without ribavirin) and laboratory monitoring during and after therapy.
Background: Hospital acquired pneumonia (HAP) is divided in two distinct groups, ventilator-associated pneumonia (VAP) and non-ventilator-associated HAP (nvHAP). Although nvHAP occurs more frequently than VAP and results in similar mortality and costs, prevention guidelines and prevention focus almost exclusively on VAP. Scientific evidence about nvHAP prevention is scarce. Therefore, we designed a mixed-methods study to investigate the effectiveness of a newly developed nvHAP prevention bundle and factors that influence its implementation. Methods: This single-centre project at the 950-bed University Hospital Zurich (UHZ) will engage the wards of nine departments with substantial nvHAP rates. The nvHAP bundle consists of five primary prevention measures: 1) oral care, 2) identification and treatment of patients with dysphagia, 3) mobilization, 4) stopping unnecessary proton pump inhibitors, and, 5) respiratory therapy. Implementation includes the engagement of department-level implementation teams, who sustain the 'core' intervention components of education, training, and environmental restructuring and adapt the implementation strategy to local needs. The effects of the implementation will be analysed by a mixed-method approach. As primary outcome, nvHAP incidence rates will be analysed by Poisson regression models to compare incidence rates before, during, and after the implementation phases (on the hospital and department level). In addition, the association between process indicators and nvHAP incidence rates will be analysed using longitudinal Poisson regression models. A longitudinal, qualitative study and formative evaluation based on interviews and focus groups identifies supporting or hindering factors for implementation success in participating departments dynamically over time. This accumulating implementation experience will be constantly fed back to the implementation teams and thus, represents an active implementation element. Discussion: This comprehensive mixed-methods study is designed to accomplish both, measure the effectiveness of a new prevention bundle against nvHAP and provide insights into how and why it worked or failed. The results of this study may contribute substantially to patient safety in the area of a rediscovered healthcare-associated infection - nvHAP.
While the standardization of treatment protocols for Severe Acute Malnutrition (SAM) has helped to reduce historically high mortality, mortality in inpatient settings remains substantial, likely due to the severity of complications associated with late presentation and health-care associated infection (HCAI). The purpose of this study is to serve as an important stand-alone description to inform the understanding of the magnitude of the problem and help guide implementation of measures to reduce the risk of nosocomial infection and multi-drug resistance.
The objective is to conduct a prospective, sham controlled, double-blinded, interventional crossover trial to compare standard terminal cleaning plus PX-UV (intervention) with standard terminal cleaning plus sham PX-UV (control) with crossover at 12 months, following a 6-month washout period. Outcome measures include the rates of HAIs, as well as the recurrence of genetically identical clinical strains of HAIs among patients on study units. The study will be conducted in 2 hospitals covering 16 total hospital units at Detroit Medical Center. Our central hypothesis is that the addition of PX-UV to standard terminal cleaning will be associated with a significant reduction in the rate of HAIs, as well as a reduction in the recovery of genetically identical strains of MDROs. The impact of PX-UV disinfection on rates of HAIs on study units will be determined by comparing rates of HAIs on a) study units where PX-UV is added to standard terminal cleaning practices to b) units where a sham UV disinfection system is added to standard terminal cleaning; and by comparing rates of HAIs on the same medical ward during each of two 12-month phases of a crossover study (one phase when a PX-UV device is added and one when a sham device is added to standard terminal cleaning). The long-term goal of this project is to establish the efficacy of terminal cleaning plus PX-UV in reducing rates of HAIs due to the following multi-drug resistant organisms (MDROs): C. difficile, vancomycin-resistant enterococci (VRE), Klebsiella pneumoniae and Escherichia coli producing extended-spectrum beta-lactamases (ESBLs), methicillin-resistant Staphylococcus aureus (MRSA) and Acinetobacter baumannii. At the conclusion of the proposed project, novel data will be generated from this rigorously controlled study regarding the effectiveness of PX-UV in reducing HAIs in a representative, real-world healthcare setting.