View clinical trials related to Septic Arthritis.
Filter by:The goal of this study is to figure out the best doses for two antibiotics (called cefadroxil and cephalexin) when they are used to treat bone, joint, or muscle infections in children. In order to do this, the study will collect data about children admitted to Children's Hospital Colorado who have these types of infections. During the study, these patients will receive doses by mouth of each of these antibiotics, in addition to an IV antibiotic (given through a vein) used to treat their infection. After the dose of the first antibiotic, blood samples will be drawn every few hours to measure how much of the drug is still in their body, until it is all gone. After the first antibiotic is out of the patient's body, the same will be done for the second antibiotic. Measurements, in the lab, of how much of these antibiotics are needed to kill the most common bacteria causing these infections, which is a type of "Staph" bacteria called "MSSA", will be taken. Finally, the blood levels of the antibiotics and the information from the lab tests about the Staph bacteria will be used to calculate how much and how often of the antibiotic should be given to children with bone, joint, or muscle infections. Currently, these types of infections are treated with an antibiotic that children have to take four times every day. The goal of this study is to find an antibiotic that children can take only two or three times per day.
In France, the incidence of native joint infections is about 10 per 100 000 person-years, most commonly caused by S.aureus followed by b-haemolytic streptococci. French and international antibiotic guidelines, based on expert advice and retrospective studies, recommend intravenous antibiotics for two weeks, then oral for 4 weeks without evident link between intravenous, prolonged oral treatment and cure. Long term exposure to antibiotics increases bacterial resistance, a major problem of public health. Several studies show that serious infectious can be treated safely by a shorter treatment and with oral antibiotics. There is no randomized controlled trial to establish the duration of antibiotics in native joint infections. Moreover, no consensus prevails on the administration route and duration of antimicrobial therapy. Although most clinicians acknowledge the interest of oral antibiotics and shorter treatment duration, randomized controlled trials are necessary to evaluate this practice. The SHASAR project aims to evaluate whether a shorter antibiotic treatment (3 week treatment) is safe and not inferior to the conventional 6 week treatment in native joint infections. If successful, this would represent a major advance in terms of patients' quality of life; decreased rate of health-care-related infections and complications, bacterial resistance and cost.
Differentiating between septic arthritis and other causes of joint inflammation in pediatric patients is challenging and of the utmost importance because septic arthritis requires surgical debridement as part of the treatment regimen. The current gold standard to diagnose septic arthritis in children is a positive synovial fluid culture; however, joint cultures may take several days to return. If a bacterial infection is present, it requires immediate surgical intervention in order to prevent lasting articular cartilage damage. Frequently surgeons must decide whether to surgically debride a joint before culture results are available. There is no single lab test or clinical feature that reliably indicates bacterial infection over other causes of joint inflammation. The alpha-defensin assay has shown high sensitivity and specificity for joint infection in other studies.The purpose of this study is to determine the sensitivity and specificity of several synovial biomarkers for diagnosing pediatric septic arthritis.
Because of its prolonged terminal half-life, dalbavancin is an extremely attractive option in treating Gram-positive infections caused by S. aureus including MRSA, and streptococcal species. Systemic bacterial infections due to Staphylococci such as osteomyelitis and septic arthritis, are conditions which require prolonged IV therapy, typically for at least 3-6 weeks, though sometimes more. Due to dalbavancin's prolonged terminal half-life, it may offer the opportunity to substantially reduce costs and morbidity in native joint and prosthetic joint infections with one infusion every fourteen days until completion of therapy.
Making the diagnosis underlying a painful, swollen joint currently involves aspiration followed by numerous microbiological and biochemical laboratory tests. This can be costly, time consuming and in the case of an acutely swollen joint, lead to a lengthy inpatient admission. There is an unmet need to provide a quick, easy, reliable dipstick like test to analyse joint fluid in the community, clinic, or emergency department setting. The investigators aim to use well established metabonomic techniques to: 1. Analyse fluid from patients with swollen joints 2. Identify potential biomarkers of inflammatory, infective and osteoarthritic causes of joint swelling 3. Correlate this with lubrication and wear properties of the fluid The long term goal is to develop time saving, cost effective, non-invasive diagnostic tests to improve management of a swollen joint. The biomedical research centre at Imperial provides a unique and unparalleled clinical and scientific environment to conduct this research. The Imperial College division of Computational and Systems Medicine has an international reputation in metabonomics and this, together with the high volume of patients with swollen joints treated at Imperial National Health Service Trust (c1000/yr) ensures that the study can take place in an environment conductive to success.
The purpose of this study is to analyze pre- and intra-operative joint aspirates of native joints and joints with suspicion of periprosthetic joint infection (PJI) of the hip, knee and shoulder acquired in clinical routine. Joint aspirates are then analyzed with new diagnostic methods (microcalorimetry, PCR, alpha-defensin, etc.). Diagnostic speed and accuracy of these methods is compared to standard diagnostic methods in clinical routine, such as blood cultures of joint aspirates, cell count/differential, intra-operative tissue culture and histology and sonication.
M. A. suffers from hypogammaglobulinemia that has been complicated by refractory Mycoplasma hominis septic arthritis. He has been receiving the antibiotic valnemulin under Emergency Investigational New Drug (eIND) 114686 following many prior treatments with standard antibiotics. M.A. has also been receiving intravenous immunoglobulin (IVIG) replacement. The antibiotic and IVIG have been helpful, but not sufficient for cure. Antibodies have been shown to be critical for defense against mycoplasma. Hyperimmune serum against mycoplasma isolated from rabbit or goat has been effective in cases of chronic erosive arthritis in the setting of immune deficiency, and in some cases resulted in cures. The investigators propose to use M. hominis isolated from M. A. to vaccinate one transgenic cow (developed by SAB Biotherapeutics), purify human antibody after vaccination, test the purified antibody in killing assays to confirm potency, and then administer the purified human IgG to M. A. after FDA compassionate use IND application and local Institutional Review Board (IRB) approval.
The aim of this study is to find markers that could differentiate infectious and inflammatory arthritis. The investigators want to find markers by differential analysis by compare synovial fluids of septic and inflammatory arthritis. The investigators will use for this analysis, proteomics, cytokine dosage and monocyte typing by flow cytometry analysis. The investigators will use one marker or a score with biological and clinical data to discriminate arthritis of infectious and inflammatory etiology.
Pediatric joint infections are a common diagnostic dilemma encountered by treating orthopaedic surgeons. No single test is sensitive or specific enough to stand alone in determining the presence of joint infection. The purpose of this study is to test the usefulness of a chemical test strip to detect infection in fluid that is removed from a joint (intra-articular aspiration) in pediatric patients. The test strip measures an enzyme called leukocyte esterase, which has been shown to be useful in detecting the presence of infection in fluids from other parts of the body. This study will assess the efficacy of the leukocyte esterase test as a diagnostic tool for evaluating pediatric joint infections. The hypothesis of the study is that a positive leukocyte esterase test identifies a septic joint in pediatric patients undergoing intraoperative joint aspiration.
The aim of this trial is to study the interest of ultrasonography among patients with septic arthritis. Currently, ultrasonography is useful for detecting small fluid effusions, for examining otherwise inaccessible joints, such as the hip and for helping the joint aspiration. Accurate assessment of disease activity and joint damage in septic arthritis is important for monitoring treatment efficiency and for prediction of the outcome of the disease. Nowadays, magnetic resonance imaging (MRI) provides better resolution than radiography or tomography for the detection of joint effusion and for differentiation between bone and soft tissue infectious. The sensibility is reported to be nearly 100% with a specificity of more than 75%. However, MRI is expensive and not rapidly accessible. Therefore, ultrasonography, a non invasive, painless, inexpensive, and non radiating exam can be used to assess the presence and extent of inflammation, destruction, and tissue response. The objective is to describe, using ultrasonography, the abnormalities joint structure influenced the septic arthritis evolution and prognosis. The investigators hope, at the end of this study, to evaluate ultrasonography interest in septic arthritis and to establish ultrasonography prognosis factors to predict treatment efficiency and functional outcome.