View clinical trials related to Staphylococcal Infections.
Filter by:Patients will be enrolled in a multi-center study (Wilford Hall Medical Center and Brooke Army Medical Center) to prospectively evaluate outcome after treatment for an uncomplicated skin abscess.
Staphylococcus aureus (S.aureus) is a bacterium that causes many painful skin and soft tissue conditions, such as scalded-skin syndrome, boils, or impetigo. Serious cases may result in deadly complications but S.aureus can usually be treated successfully with antibiotics. There are, however, certain strains which cannot be treated with standard antibiotics. Methicillin-resistant staphylococcus aureus (MRSA) is one such strain. MRSA is increasingly being seen in both hospital and community settings, making it a serious public health issue. People with Atopic Dermatitis (AD), particularly those with a history of Eczema Herpeticum (EH), may be at greater risk for infection by MRSA. The reason for this higher risk is unknown but may be linked to extended treatment with staphylococcus antibiotics in addition to the absence of certain proteins on their skin, which have immune function. The purpose of this study is to determine the reasons for MRSA infection in AD participants with and without a history of EH.
In-vitro identification of S. aureus, methicillin-sensitive S. aureus (MSSA), and methicillin-resistant S. aureus (MRSA) from positive blood cultures by MicroPhage's bacteriophage-based diagnostic platform.
The purpose of the study is to determine if topically applied nitric oxide gas is effective in reducing the quantity of bacteria (including MRSA)in a wound.
The goal of this 3-year project is to control the spread of community-associated methicillin-resistant Staphylococcus aureus (CA-MRSA) in the Dallas County Jail. CA-MRSA is a bacterium spreading rapidly through healthy populations and becoming an epidemic in many regions of the U.S. Many people in the community are asymptomatically colonized by MRSA. There have been outbreaks of MRSA infections at prisons and jails. We will study the spread of MRSA in the jail to better understand how the bacteria are transmitted from person to person there and how we can prevent their transmission. All detainees asked to participate must give informed consent to do so; their privacy will be carefully protected. Detainees with a history of allergy to CHG will be excluded. Seventeen objects in the jail will be sampled for contamination with MRSA. Bacteria will be collected from all cultures obtained from patients with bacterial skin infections for 18 months in a part of the jail in order to determine how frequently these infections are caused by MRSA relative to other bacteria. A group of about 1500 adult detainees will be tested for colonization with MRSA in order to determine how commonly detainees carry the bacterium. A cluster-randomized 6-month study will be undertaken among these detainees and those who take their places when they leave the jail to determine if chlorhexidine (CHG)-containing disposable wash cloths for skin cleaning can decrease the prevalence of MRSA skin or nose colonization. Detainees receiving CHG cloths (about 500 detainees) will be compared to detainees receiving water-soaked cloths for skin cleaning (about 500 detainees) or no intervention (about 500 detainees). The primary outcome will be a difference in average colonization prevalence in detention tanks, which are discrete detention units housing detainees, comparing the usual care to the CHG-exposed tanks after 6 months of CHG cloth use. A secondary outcome will be a decrease in skin infections from any cause in the tanks receiving CHG compared with usual care. All of the MRSA isolates and a sample of the S. aureus isolates susceptible to methicillin from specimens colonizing or infecting detainees, as well as those contaminating surfaces and objects in the jail will be tested genetically in order to determine which strains of MRSA are present in the jail. This study may identify ways to stop the spread of MRSA among people in jails and prisons, as well as other places.
This pilot study in our medical intensive care unit will evaluate the clinical and cost-effectiveness of an active surveillance program for methicillin-resistant Staphylococcus aureus (MRSA), compared to routine daily bathing with chlorhexidine gluconate (CHG)-impregnated cloths. Outcomes include rate of MRSA acquisition, and of other hospital-acquired infections (e.g., catheter-associated bloodstream infections).
Medical staff will be screened for MRSA and ESBL (including: doctors, nurses, nurse aids, physical therapists, dietitians, Janitors and other medical staff). PURPOSE: To define the carriage of, and risk factors for carriage of resistant organisms among healthcare employees of carriers of resistant bacteria. To define activities of healthcare employees who likely to lead to dissemination of resistant bacteria in rehabilitation centers.
Data on occurrence of antimicrobial resistant bacteria acquisition in rehabilitation centers will be collected. After removal of patient identifiers, information regarding the patients population will be entered into electronic sheet. The phase will last twelve months in each center.
The study investigates the efficacy and safety of MK-3009 in participants with skin infections, septicemia and right-sided infective endocarditis (RIE) caused by methicillin-resistant Staphylococcus aureus (MRSA).
Staphylococcus aureus is the most common bacteria responsible for skin, bone, and muscle infections. Recent studies from the United States have suggested that a type of this bacterium called methicillin resistant S. aureus (MRSA) has become dramatically more common, especially the community strain. However, Canadian data is still largely lacking. This study aims to determine the prevalence of community acquired (CA) MRSA among patients presenting with skin and soft tissue infections to the Urgent Care Center and Emergency Departments in London, Ontario. This will be determined by taking swabs at enrollment from patient's noses, throats, and sites of infection. Patients will be asked to complete a health questionnaire with the goal of identifying risk factors associated with CA-MRSA. Through follow-up swabs of participants' noses and throats at one and three months, the effects of treatment on patient's carrying MRSA will be determined. Results may be used to form guidelines for empirical S aureus treatment in the region, reducing possible morbidity and mortality from delayed or suboptimal treatment of CA-MRSA infections. Improved understanding of risk factors associated with MRSA infection in a Canadian setting, may also change the practice of physicians considering empiric antibiotic therapy for skin and soft tissue infections.