Active clinical trials for "Staphylococcal Infections"

This prospective randomized, controlled interventional pilot trial, aims to compare the achievement of the optimal target concentration with continuously administered flucloxacillin (FLU) or cefazolin (CZO) coupled with TDM and subsequent dose adjustment versus standard of care (intermittent bolus application without TDM-guidance) in patients with complicated Staphylococcus aureus (S. aureus) infections (CSAI). The overall goal is to individualize and optimize antibiotic treatment in a very vulnerable group of patients overcoming the standard strategy of "one-dose-fits-all".

There is a variety of in vitro, in vivo (animal model), and human case series data which suggests that the addition of ertapenem to cefazolin could improve outcomes in methicillin-susceptible S. aureus bacteremia. No randomized controlled trial has been performed.

The goal of this prospective interventionist cohort study is to assess the prevalence of infective endocarditis in patients with Staphylococcus aureus bacteremia at low risk of this complication. The main questions it aims to answer are: Determine whether the risk of infective endocarditis in patients with Staphylococcus aureus bacteriemia identified as low-risk, using the VIRSTA score, is low enough to safely omit transthoracic or transesophageal echocardiography. Determine whether the risk of infective endocarditis in patients with Staphylococcus aureus bacteriemia in patients with no identifiable risk factor is low enough to safely omit transthoracic or transesophageal echocardiography. Calculate a cost-benefit estimate of omitting echocardiographic testing in patients identified as low-risk by means of the above methods. Participants will undergo mandatory transthoracic and transesophageal echocardiography during the first 2 weeks from Staphylococcus aureus bacteremia onset.

Having bacteria in the blood can be very dangerous. This is called bacteraemia (or bacteremia) or bloodstream infection. It can lead to problems across the whole body, which is what happens in sepsis. Bacteria called Staphylococcus aureus (S. aureus) cause one kind of bacteraemia. Up to a third of people with this condition die within three months, even with antibiotics. One reason for such severe problems is that the bacteria can spread almost anywhere in the body, and hide in places where they are very hard to find. When people with S. aureus bacteraemia come into hospital and have had antibiotics, doctors sometimes cannot tell if they still have an infection source (called a 'focus') hiding in their body. The focus can be like an abscess and may need removing or the pus draining out. A focus might be obvious, if there is pain or swelling, or it might be hidden and deep. If these 'foci' can be found, then doctors can treat them and this helps to cure patients. To improve survival for patients with these life-threatening infections, it is vital that doctors find the focus of S. aureus bacteraemia as quickly as possible. However, the research team do not know the best way to do this. Most patients with S. aureus bacteraemia have a chest X-ray and a scan of the heart valves. Patients may go to the scanning department lots of times while doctors try to work out where these foci are. This is uncomfortable and takes a lot of time. In about 1 in 5 cases the doctors still cannot find the focus. This is very worrying for patients, their relatives and doctors. This study has been designed by researchers, doctors and patient advocates. It aims to work out if fewer patients may die when a specific type of scan called a 'PET/CT' is done quickly, because it finds more foci. To do this the team plan to do a clinical trial in patients with S. aureus bacteraemia. Half of the patients will receive the usual tests that patients currently get and the other half will receive an extra scan as soon as possible. The patients will be chosen randomly (like the flip of a coin) to go into one of the 2 groups. A year into the trial, an independent committee will check the results to make sure the extra scan is finding more foci. If this is the case, the trial will carry on. At the end of the study, we will share the results globally. The findings are expected to change the way this dangerous condition is managed, so patients do better.

Two commonly used treatments for latent tuberculosis infection are either 4 months rifampicin or 6-9 months isoniazid. The invistigators will study the risk of acquisition of rifampicin resistance in commensal Staphylococcus aureus in persons treated with rifampicin versus in persons treated with isoniazide. Through repeated swab cultures before, during, and after treatment the investigators will also investigate potential accumulation of mutations associated with rifampicin resistance over time. Finally, household contacts to persons with rifampicin-resistant S. aureus will be examined to investigate whether onward transmission of rifampicin-resistant S. aureus occurs within households.

Staphylococcus aureus osteoarticular infections, in particular those associated with the presence of implant, relapse in 20% of cases. Currently, the reasons for these relapses are poorly understood, whether on the microbiological or clinical side. The aim of this study is to improve knowledge on persistence of mechanisms of S. aureus

Given that the Emergency Department (ED) has become the entry way for large populations of patients into the health care system, a strategy of sampling MRSA isolates in ED populations and merging this information with patient-level data may present a window to hypothesize and investigate CA-MRSA transmission within the community and its impact on hospital-acquired infections.

Hemodialysis patients are at high-risk for infections, specifically Staphylococcus aureus infections. The investigators propose to 1) implement a novel intervention (nasal povidone-iodine at each hemodialysis session) to prevent S. aureus infections using a stepped-wedge cluster randomized trial, and 2) evaluate the feasibility and acceptability of this intervention. If successful, this intervention can be used among hemodialysis patients, and evaluated in other high-risk patient populations to prevent S. aureus infections.

The aim of this study is to determine if delta-haemolysin production deficiency of Staphylococcus aureus is a marker in favour of chronic infections on implants

Vancomycin is an essential antimicrobial which is frequently used in the ICU for suspected methicillin-resistant Staphylococcus aureus (MRSA) infection. Therefore, it is vital to optimize the dosing of vancomycin for this critically ill population. The most efficacious method of administering vancomycin is debated in the literature. Since vancomycin is associated with slow bactericidal activity, it is important to closely monitor serum concentrations so as to achieve early target serum concentration, particularly when treating aggressive S. aureus infections. One study has shown that vancomycin infused continuously may enable faster and more consistent achievement of a therapeutic serum concentration when compared to intermittent infusion. A faster achievement in the goal serum vancomycin concentration would be a protective factor for intensive care unit mortality in patients with MRSA infection. Currently in the surgical ICU (SICU) of our institute, vancomycin is administered based on a vancomycin dosing nomogram. Less than fifty percent of the ICU patients following this nomogram achieved target vancomycin concentration of 15 after 24 hours. To better achieve target vancomycin concentration in 24 hours, we developed a new vancomycin dosing nomogram with a continuous infusion. The aim is to determine which of the two dosing nomogram is more efficient and safer for SICU patients.