View clinical trials related to Prosthetic Infection.
Filter by:Aortic or large arterial vessel infections are rare but serious infections. Their management is based on French and American expert opinions. The quality of evidence supporting these guidelines is low because most publications on the subject correspond to case series and few interventional studies have been performed to validate their management. However, referral centres for vascular surgery are frequently solicited to give their opinion on patients suffering from mycotic aneurysms. In addition, the last few decades have seen the improvement of vascular surgery techniques allowing the management of more and more patients, often elderly and comorbid. There has therefore been an increase in the incidence of infectious complications associated with this care. It is therefore essential to participate in research on aortic and large arterial vessel infections. For this, a monocentric cohort study seems to be an essential first step to better understand the polymorphism and complexity of these patients.
Rational for conducting the study: Periprosthetic joint infection (PJI) is the most feared complication following prosthetic replacement of the hip joint and is associated with increased mortality, morbidity and economic burden. The aim of the trial is to investigate whether the risk of periprosthetic joint infection after treatment with hemiarthroplasty performed due to femoral neck fracture is reduced after the use of dual-impregnated antibiotic loaded cement. The primary outcome variable is the incidence of periprosthetic joint infection within one year after the index procedure. Secondary outcome variables include the occurrence of re-operations for any reason, bacteriology, antibiotic treatment, mortality and health care costs.
A bacterial infection of an artificial joint is a serious complication that often requires additional surgery to exchange the arthroplasty. It is also difficult to recognize an infected joint, as the symptoms caused by the infection are very similar to those of other problems with arthroplasties, such as loosening of the implant. To improve the ability to diagnose prosthetic joint infections, this study compares the levels of calprotectin, a specific inflammatory protein, in the joint fluid of infected joints and joints with other complications. The underlying hypothesis is that the level of calprotectin in infected joints is significantly higher, thus facilitating the diagnosis of prosthetic joint infection.
Rifampicin, is key in the treatment of staphylococcal PJIs. Rifabutin has a better profile of tolerance than rifampicin regarding the risk of interaction with concomitant medications and liver disorders. The hypothesis is that rifabutin may be an alternative antibiotic option as efficient as rifampicin for the treatment of staphylococcal PJIs, with a better safety profile. The investigator aim to demonstrate the non-inferiority of rifabutin as compared with rifampicin prescribed in combination treatment for PJIs.
The overall purpose of this clinical treatment research project is to explore novel diagnostics that can guide the treatment of infections associated to orthopaedic implants, in order to improve patient outcomes and reduce the development of antibiotic resistance. The project aims are: (i) To improve the current diagnostic approaches and treatments of periprosthetic joint infections (PJI) (ii) To investigate the pathogenesis of PJI through the characterization of the virulence carried by the causative pathogens This multidisciplinary project addresses implant-associated infection and its contribution to increasing antibiotic resistance. Both lead to longer hospital stays, higher medical costs and increased morbidity and mortality. Antibiotic resistance is globally considered as one of the greatest and most urgent risk in medicine. Implant-associated infections are commonly caused by biofilms. Biofilms can be described as 'a community of bacterial cells connected by their secreted extracellular matrix'. Since antibiotics are designed to fight planktonic free-living bacteria, studying antibiotic resistance in biofilm communities poses a paradigm shift. Furthermore, bacteria in biofilms are up to 1000 times more resistant to antibiotics than planktonic bacteria. Mechanisms involved in a biofilm infection also play a crucial role in the development of antibiotic resistance. Hospital-acquired infections are the fourth leading cause of disease and 70% are associated with medical implants and caused by staphylococcal biofilms. In addition, the level of antimicrobial resistance in bacteria causing implant-associated infections has increased worldwide, leaving patients with fewer treatment options. In this study the investigators will randomize patients with PJI to either standard MIC susceptibility or MIC and MBEC susceptibility guided treatment with oral antibiotic combinations; (i) Non cell wall active standard of care antibiotic combination (MIC-guided) for 6 weeks. (ii) Or; non cell wall active antibiotic combination according to a MBEC-based decision algorithm for 6 weeks. In this pilot project, the primary endpoint is how often treatment changes with the MBEC susceptibility testing compared to only MIC-susceptibility testing.