View clinical trials related to Prosthetic Joint Infection.
Filter by:The objectiveof this of a prospective, multicentre study is to evaluate the performance of shotgun metagenomics in the diagnosis of chronic Prosthetic joint infection (PJI) in comparison with the adapted MSIS diagnostic score.. The main questions it aims to answer are: - To evaluate the performance of shotgun metagenomics in the diagnosis of chronic PJI in comparison with culture. - To describe the epidemiology of bacterial species responsible for chronic PJI in Western France and their potential resistance to antibiotics. - Analyzing the diagnostic performance of shotgun culture and metagenomics as a function of potentially administered antibiotic treatments A total of 143 patients sampled will be included. Six intraoperative samples will be taken for each patient, as part of routine care. In addition to the standard preoperative check-up, an extra volume of blood will be taken for CRP measurement at inclusion.
The overarching aim of this research project is to prevent orthopedic implant-associated infections. This study aims to investigate if PDT has an effect on bacterial skin colonization in order to improve skin antisepsis strategies for the prevention of surgical site infections.
Total hip replacement is the most successful treatment modern healthcare can offer patients to regain quality of life. Periprosthetic joint infection (PJI) is the most common and devastating complication after total hip replacement (THR). Between 0.5 to 2% of primary THR (first time hip replacement), and 8-10% of revision THR (replacement of a hip prosthesis) will become infected.1 The introduction of local antibiotics blended into bone cement has led to a reduction in postoperative infection in primary THR by half.2 Unfortunately, cement can't always be used in relevant quantities. The number of primary and revision surgeries of the hip is projected to increase dramatically. Therefore, the need for a feasible infection prophylaxis that is applicable for complex primary and revision THR in addition to antibiotics loaded cement is urgent. Impacted morselized bone allograft is often used in (revision) THR to fill bone defects. Morselized allograft has been used as a carrier for local antibiotic treatment in multiple pilot studies and appears to be an attractive and effective treatment option, both for already infected joints and as a prophylactic measure in high-risk patients (e.g. THR revision surgeries). Nonetheless, a pivotal trial to support its use in THR is lacking. The aim of this pragmatic randomized controlled double blinded drug trial is to investigate whether antibiotic impregnated bone graft (AIBG) decreases the risk of infection after hip arthroplasty compared to controls treated with placebo impregnated bone graft. Patients scheduled for elective THR will be randomized to receive AIBG or a placebo impregnated bone graft. The primary outcome variable will be the number of re-operations due to infections and PJI diagnoses 2 years postoperative.
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.
Prosthetic Joint Infection (PJI) of a Total Hip Replacement (THR) is a disastrous complication of an otherwise extremely successful surgical procedure. It is associated with a burdensome treatment for the patient, significant challenges for the medical team and high costs for society. As more joint replacements are being performed each year, due to an ageing population and lower thresholds for surgery, the number of PJIs is on the rise. Many of these patients will be referred to University Hospitals Leuven as the physicians have extensive experience with this particular pathology and can offer a multidisciplinary and patient-tailored treatment. Many controversies exist in the field of PJI treatment, both with regard to the surgical aspects as well as the antibiotic treatment. Setting up randomized controlled trials to answer these questions has been proven to be very difficult due to large variations in patients, implants, germs, soft and hard tissues, antibiotic resistance patterns, and so on. Also, surgery for PJIs is usually non-elective / semi-urgent and therefore time to include patients into different trials is limited. Therefore the investigators will prospectively collect data on patients with PJI treated at University Hospitals Leuven, starting 01/01/2022, in order to have knowledge of own results and inform patients about chances of success prior to treatment; perform internal audits and quality checks; answer questions in the field of PJI treatment not suitable for RCTs.
Diagnosis of chronic prosthetic joint infection (PJI) can be difficult. 68Ga-citrate Positron Emission Tomography/Computed Tomography (PET/CT) has been recently developed and has many advantages such as high resolution and low radiation exposure. To date, 68Ga-citrate PET/CT has not been specifically assessed in prosthetic joint infection. In this prospective study, patients referred for a suspected PJI will benefit from both a 68Ga-citrate PET/CT and a 99mTc-HMPAO-labelled leukocyte SPECT/CT. The primary outcome is the assessment of the 68Ga-citrate PET/CT accuracy for the diagnosis of chronic prosthetic hip or knee infection.
Total joint replacement (TJR) is an increasing effective procedure in orthopedics. However, TJR failure due to aseptic or septic loosening remains an important problem, often due to predisposing factors of the patient, which determine the need to perform a revision surgery. In light of the recent conclusions emerged on the still open problems concerning the diagnostic accuracy of serum and synovial fluid markers in the diagnosis of peri-prosthetic joint infection (PJI), the project aims at evaluating the diagnostic accuracy and cost-effectiveness of the combination of serum and/or synovial markers in the diagnosis of PJI. Through a diagnostic clinical study on patients hospitalized for revision surgery the project would provide evidences on the potentiality of the combination of some markers in accelerating the PJI diagnosis for the best selection of surgical strategy, choosing the suitable cutoff thresholds to mitigate the effect of some factors on markers' discriminatory capability.
The purpose of this study is to determine whether patients being treated for prosthetic joint infections (PJI) experience distress during the course of their treatment and how distress influences various aspects of their lives. WVU expects to enroll approximately 12 subjects. Patients identified as scoring ≥4 on the Distress Thermometer at the two-week follow-up visit will be offered the opportunity to participate in the novel CRUTCH Pathway. Once enrolled, you will meet virtually with a mental health provider. The mental health provider will complete a 30-minute intake visit where he will review your distress thermometer scoring, discuss contributing factors to current distress level, and assess for psychiatric comorbidities.
The aim of this study is to determine the imputability of adverse events in patients who have had phage therapy for the treatment of their bone or joint or implant infection, in order to find out whether these adverse effects are related to surgery, antibiotic treatment or bacteriophages.
One of the major causes of prosthetic joint failure is infection. Recently, coagulase-negative Staphylococci (CoNS) have been identified as emergent, nosocomial pathogens involved in subclinical prosthetic joint infections (PJIs). The diagnosis of PJIs mediated by CoNS is complex and demanding due to the absence of clear clinical signs derived from the host immune system response. In this scenario, the key to successful surgical treatment is the capability to differentiate between aseptic implant loosening and septic failure. Hence, the central hypothesis of this study is that proteomic analysis of the secretome of CoNS clinical isolates associated with the characterization of patient synovial fluids will reveal a panel of putative biomarkers tightly linked to PJIs. The confirmation of the presence of bacterial PJI biomarkers in synovial fluids of infected patients will pave the way for the development of a new reliable test capable of aiding in the diagnosis of subclinical PJIs.