View clinical trials related to Cross Infection.
Filter by:Patients becoming infected during hospitalization occurs frequently and causes harm. It is important for healthcare facilities to take action to prevent these infections and their spread between patients. Despite the presumption of a "sterile" environment, one place where spread of infection is known to happen is in the operating room. This occurs as a result of frequent interaction among healthcare providers, the patient and the environment of the room. Hand washing is an important component of preventing the spread of infections. Scientific evidence has shown that making it easier for people to wash their hands can have two important impacts: (1) reduction of environmental bacterial contamination and (2) reduction in spread of bacterial pathogens. OR PathTrac is new technology that allows tracking of bacterial spread. While data exists about bacterial contamination and transmission in the adult operating room, there is very minimal data about this in the pediatric operating room. Primary aim: To use OR PathTrac to evaluate the effect of a personal hand washing device in reducing operating room exposure to bacterial pathogens in pediatric patients. We hypothesize that this hand washing system will decrease exposure to pathologic bacteria in the pediatric operating room. Secondary aim: To gain knowledge about baseline bacterial contamination and transmission in pediatric operating rooms. We will answer this question by comparing bacterial cultures taken from operating rooms whose personnel are trained to use the hand washing device to operating rooms who are not trained to use the device.
Annually, more than 250,000 patients in the U.S. with end-stage heart failure stand to benefit from ventricular assist device (VAD) therapy. 60% of patients develop a healthcare-associated infection (HAI) within 90-days of implantation. The investigators long term goal is to develop and subsequently promote wide-scale adoption of evidence-based HAI prevention practices following durable VAD implantation. This will be done by addressing the following aims: Aim 1. Identify determinants of center-level variability in HAI rates. Aim 2. Develop a comprehensive understanding of barriers and facilitators for achieving low center HAI rates. Aim 3. Develop, iteratively enhance, and disseminate a best practices toolkit for preventing HAIs that accommodates various center contexts. The investigators will use a focused survey of U.S. VAD centers to identify determinants of center variation in 90-day HAI rates: - Process Factors (e.g., intranasal mupirocin), - Provider Factors (e.g., surgeon technique), - Device Factors (e.g., centrifugal vs. axial), - Center Factors (e.g., provider communication). Understanding the barriers and facilitators within individual centers for maximizing adoption of prevention measures would serve as the foundation for targeted improvement strategies. Without this knowledge, evidence-based, action-oriented recommendations will have limited local adoption and ultimately effectiveness in preventing HAIs after VAD implantation.
This project aimed to study the use of the multi-level antimicrobial coating in a working hospital environment. Patient privacy curtains from a public sector hospital were coated and installed in rehabilitation ward in comparison of normally washed curtains in the same setting and compared the mean reduction on both control and treatment end to assess the effectiveness of coating against hospital acquired infections including multidrug resistant organisms (MDROs).
Retrospective laboratory-based data collection study of surgical site infections: Surveillance of Healthcare-Associated Infections in Orthopaedic and Trauma Surgery Unit in Sosnowiec, Poland;
The study will assess the utility of 4% chlorhexidine gluconate (CHG) daily bathing to reduce hospital acquired infections in patients admitted to intensive care units. One group will be daily bathed with 4% CHG and the other group with standard soap.
Among critically ill patients requiring mechanical ventilation and catecholamines for shock, nearly 40% to 50% die, and functional recovery is often delayed in survivors. International guidelines include early nutritional support (≤48 h after admission), 20-25 kcal/kg/d at the acute phase, and 1.2-2 g/kg/d protein. These targets are rarely achieved in patients with severe critically illnesses. Recent data challenge the wisdom of providing standard amounts of calories and protein during the acute phase of critical illness. Studies designed to improve enteral nutrition delivery showed no outcome benefits with higher intakes. Instead, adding parenteral nutrition to increase intakes was associated with longer ICU stays and more infectious complications. Studies suggest that higher protein intakes during the acute phase may be associated with greater muscle wasting and ICU-acquired weakness. The optimal calorie and protein supply at the acute phase of severe critical illness remains unknown. NUTRIREA-3 will be the first trial to compare standard calorie and protein feeding complying with guidelines to low-calorie low-protein feeding potentially associated with improved muscle preservation, translating into shorter mechanical ventilation and ICU-stay durations, lower ICU-acquired infection rates, lower mortality, and better long-term clinical outcomes. This multicentre, randomized, controlled, open trial will compare, in patients receiving mechanical ventilation and treated with vasoactive agent for shock two strategies for initiating nutritional support at the acute phase of ICU management (D0-D7): early calorie/protein restriction (6 kcal/kg/d/0.2-0.4 g/kg/d, Low group) or standard calorie/protein targets (25 kcal/kg/d/1.0-1.3 g/kg/d, Standard group). Patients in both groups will receive enteral or parenteral nutrition appropriate for their critical illness. Two alternative primary end-points will be evaluated: all-cause mortality by day 90 and time to discharge alive from the ICU. Second end-points will be calories and proteins delivered, nosocomial infections, gastro-intestinal complications, glucose control, liver dysfunctions, muscle function at the time of readiness for ICU discharge and quality of life at 3 months and 1 year after study inclusion.
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.
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.