View clinical trials related to Cross Infection.
Filter by: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.
Abstract Background: Neonatal ventilator associated pneumonia (VAP) is a major hospital-acquired infection in acute care settings, associated with high mortality and poor outcome. VAP is considered a preventable infection if the risk factors are managed effectively. The purpose of this study is to evaluate prevalence of ventilator associated pneumonia, its causative organisms, its risk factors and outcome at our NICU. This study used CDC guidelines for infant's ≤1 year old to diagnose neonatal VAP, in period from April 2018 to March 2019.
Healthcare - Associated Infection Surveillance In Neonatal Intensive Care Unit of Assiut University Children's Hospital.The objective of study is to determine the incidence, infection sites, causative organisms and risk factors related to healthcare-associated infections in NICU in Assiut University Children hospital.
This study will investigate the cost and impact of Healthcare Associated Infection (HAI) to patients, the health service and the wider community. This is in order to develop a model to allow policy makers to compare the cost effectiveness of Infection Prevention and Control measures in NHSScotland. The model will support policy makers and clinical teams in building a patient centred, safe, effective and efficient service.
Throughout project, the investigators design, evaluate and disseminate infection control and antibiotic stewardship (ABS) measures aimed at reducing the incidence of Clostridium difficile infection (CDI). The measures will focus on known departments with high incidence of CDI, i.e. a) hematology/oncology, b) other departments/wards demonstrating above-average infection rates, which were identified throughout previous studies. The infection control package will include staff training, hand hygiene programs and disinfection measures. Throughout the ABS package, investigators will develop and implement ABS measures specifically designed for patients at the highest risk of developing hospital-acquired infections, i.e. those treated on hematological/oncological wards. Potentially useful ABS actions even in critically ill patients are early reduction of exposure based on microbiological results, timely cessation of anti-infective treatment, thoughtful implementation of screening measures and biomarkers, defined approaches to patients known to be allergic to penicillins, and vigorous enforcement of clinical and microbiological diagnosis of infection focus. The IC and ABS measures aim at educating and assisting clinical personnel in realizing treatments according to official guidelines. There will not be a direct contact between study personnel and patient. There will be no direct recruitment of patients.
The purpose of this study was to evaluate the efficacy, in preventing Spinal Surgical Infection, of intraoperative pulsatile irrigation with a 2000-ml saline solution of PVP-Iodine in a group of patients undergoing complex spine surgery with a posterior approach. To confirm and better assess the efficacy of intraoperative irrigation on the infection rate in spinal surgery, specimens for bacterial culture were harvested by swabs from muscular tissue before and after irrigation of the wounds
This is a prospective study with three specific aims: (1) To convene a consensus conference to develop a guideline for antibiotic use in infants (age < 3 yrs) with suspected ventilator-associated infection; (2) To evaluate outcomes before and after implementation of the antibiotic guideline; (3) To evaluate changes in the tracheal microbiome over the course of mechanical ventilation
Clostridium difficile is the first cause of nosocomial infectious diarrhea, due to its mode of transmission and its resistance in the environment. Nosocomiality is defined by the apparition of an infection 48 hours after the patient's hospitalization. Clostridium difficile contamination occurs oro-fecally and is transmitted directly through the hand or from the contaminated environment (during care or not). By implementing prevention and optimal treatment, nosocomial infections are preventable. A clostridium difficile infection causes an additional cost of patient care for the hospital. This additional cost is principally due to the increase of the length of the stay. It varies according to patient risk factors,and also according to the reason of the hospitalization and can vary from 300 euros (~317$) to more than 25.000 euros (26.460$). By determining the increase in the length of the stay and the additional cost due to a clostridium difficile infection in the GHICL (Groupement des Hôpitaux de l'Institut Catholique de Lille), prevention will be valued and measures against those infections should be easier to set up. The main objective of this study is to evaluate the additional cost of an infection by clostridium difficile.
This research will test a new ultra-rapid technology (called ID/AST Accelerate system) that uses a digital microscope to identify bacteria based on their growth patterns. This method does not have to wait for bacteria to grow in a lab. The new method can identify the type of bacteria within 2 hours of receiving a specimen. The new method also shows the effect of selected antibiotics on the bacteria including multidrug resistant bacteria so that doctors know within 6 hours from specimen collection which antibiotic kills the bacteria. To check the accuracy, speed and impact of the new method on antibiotic prescribing, investigators are proposing a study with two parts; The first part will test the accuracy and speed of the results obtained by the new method. The second part will test if having the results from the new method early would change the antibiotics prescribed to a patient in a simulation experiment. An independent infectious disease physician will be shown the results from the new method and asked if the results were accurate, would it change the antibiotic treatment for the patient.