View clinical trials related to Cross Infection.
Filter by:Effective cleaning of surfaces in the hospital environment is an absolute necessity to reduce pathogen transmission. Multi Drug Resistant Organisms (MDRO) in ICU are among the leading causes of hospital-acquired infections. Today, the growing prevalence of MDRO has made it more important than ever to clean contaminated surfaces with appropriate aseptic cleaning procedures, to protect patients and personnel. Despite the disinfection and sterilization methods, microorganisms that reach a sufficient concentration in the hospital environment survive for long periods and can cause serious transmission via contaminated hands of healthcare workers. In this context, surface cleaning and disinfection procedures in the hospital environment reduce cross-contamination of the health care units and disease-causing pathogens. Recently, environmental cleaning and disinfection have become important as well as the evaluation of cleanliness. The aim of this study is to evaluate the effectiveness and usability of BCA method, which is a new approach in evaluating the effectiveness of environmental cleanliness in intensive care units. fluoroscan gel marking, microbiological sampling and BCA assay methods will be compared to evaluate the effectiveness and usability of the BCA method. (PRO1 Micro Hygiene Monitoring System that System consisting of protein pen and device that analyzes with BCA method).
This international, multicentre, pragmatic, double-blind, placebo-controlled, randomised trial of TxA versus placebo will enrol 3,300 patients throughout Australia and internationally. This is an effectiveness trial - some elements of the trial are deliberately left to the perioperative clinicians' discretion in order to reflect usual practice and maximise generalisability.
The central hypothesis is that daily dental xylitol wipes, in addition to current oral care practice, are effective at reducing BSI from oral organisms, and decreasing the incidence of gingivitis, oral plaque, and oral ulcerations after SCT.
Hepatitis B virus (HBV) has infected over one third of the world's population; of these about 350 million go on to be chronic carriers. Infection with HBV can be self-limiting depending on age and immunity status of the infected person. Acute infection with HBV is cleared within six months of initial infection while chronic infection can last longer than six months. HBV can be transmitted perinatally, sexually, horizontally, through direct contact with infectious body fluids or blood, being pricked with an infected needle and injury from instruments contaminated with infectious body fluid or blood. Certain population groups are at higher risk of infection with HBV. Among these populations is that of health care workers (HCWs). In this population, HBV infection can occur through occupational exposure. In fact, the hepatitis B virus is more contagious than human immunodeficiency virus (HIV) during a needle stick injury (30% versus 0.5%). It is therefore imperative that HCWs are highly knowledgeable about HBV and how they can prevent transmission. Protection from HBV infection can be achieved by means of vaccination after which the HBV vaccine has been shown to be 90-100% effective.
The purpose of this study is to determine if use of the video camera surveillance system for HH observation and performance feedback about HH compliance rates can improve the HH compliance of HCWs and reduce healthcare-associated infections in the NICU.
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.
Total prostatic cystectomy with enterocystoplasty is the most extensive urological surgical procedure and one with the highest complication rate, especially infectious complication. The mortality rate remains substantial (2 to 5%). Examination of hundreds of TPCs made every year in the Urology Department of Foch Hospital, shows that nosocomial urinary infection is constant, especially when the TPC is followed by the constitution of an ileal bladder replacement. This is due to the intervention itself and duration of postoperative urinary cathéters (ureteral and bladder). This leads to increase surveillance and antibiotic treatment, given the risks of declared infection in this context. Detailed analysis of the last 20 TPCs with enterocystoplasty showed the presence of germs in significant numbers, in all cases. Urell® (also sold under the Trademark Ellura®) contains a cranberry juice extract with a high content of bioactive, soluble Proanthocyanidins (PACs) . The daily dose is 36 mg total PACs measured by the DMAC/A2 method. The PACs prevent uropathogenic E.col bacteria from adhering to uroepithelial cells . Their long term use does not create any resistance of the bacteria. The excellent prophylactic effet of Urell® had been previously observed in the same Center under different conditions. Therefore a further demonstration was justified, of the prophylactic efficacy of Urell® in the perioperative setting of total prostato-cystectomy with substitute enterocytoplasty, where the slightest urinary infection, symptomatic or not, prolongs hospitalization and requires antibiotic treatment because of its harmful and sometimes major consequences.
This is a prospective multi-center study. Bacterial isolates from hospitalized patients with CA-HRE will be compared to those from hospitalized patients with healthcare-associated HRE (HA-HRE). In addition, community spread of CRE will be determined.
Cystic fibrosis is the most common hereditary autosomal recessive disease in the Caucasian population. The diseases is caused by a mutation of the gene coding for the CFTR protein (Cystic fibrosis transmembrane conductance regulator), an ion channel present at the apical pole of the epithelial cells. The channel dysfunction induces a deficit in hydration and a hyperviscosity of different exocrine secretions. Clinically, Cystic fibrosis is a multi-systemic disease. Pulmonary and pancreatic involvement are classically in the foreground. Degradation of respiratory function, associated with acute and chronic infections, represents the major cause of morbidity and mortality. Pseudomonas aeruginosa is a ubiquitous gram-negative bacillus found primarily in stagnant water. Pseudomonas aeruginosa is capable of colonizing the digestive, pulmonary and urinary mucosa and the skin. This bacterium is incriminated in many opportunistic infections including respiratory infections in patients with cystic fibrosis. Pseudomonas aeruginosa infection is the most common parenchymal lung infection in the Cystic fibrosis community. Pseudomonas aeruginosa chronic carriage represents a factor of poor prognosis associated with an increase in morbidity and mortality. Complications related to chronic carriage of Pseudomonas aeruginosa justify the implementation of strategies of eviction, screening and eradication of acute Pseudomonas aeruginosa infection. In addition to Pseudomonas aeruginosa contamination of patients via the environment, hand and airborne infections between patients with Cystic fibrosis have been reported. Measures to eliminate cross-transmissions have therefore been implemented in a majority of hospitals. The aim of the study is firstly to identify the number of Pseudomonas aeruginosa cross-transmissions between patients with Cystic fibrosis followed-up in Cystic fibrosis center of HUDERF. Investigator will use the Pulsed-Field Gel Electrophoresis to assess the possibility of cross-infection. Depending on the results, Investigator will implement new strategies to avoid future cross-contamination in our different places of care (consultation, hospitalization, physiotherapy…).
Normal gut bacteria prevent colonization and subsequent infection with MDR organisms (MDROs) through competition for resources and other mechanisms. During critical illness, this function of the microbiome is lost and there are no current treatments to restore it. Preliminary data indicates that the prebiotic fiber inulin is safe and may alter the gastrointestinal microbiome to improve gut barrier function, decrease colonization with MDROs, and reduce downstream risk for intensive care unit (ICU)-acquired MDR infections. However, the impact of inulin during critical illness is unknown. This double-blind, randomized clinical trial will test inulin for the prevention of antibiotic resistant infections in the ICU. The trial's specific aims are to determine (1) the feasibility, tolerability, and safety of inulin in the intensive care unit; (2) the impact of inulin on gut colonization with antibiotic-resistant pathogens; and (2A/exploratory) the impact of inulin on ICU-acquired antibiotic-resistant infections.