View clinical trials related to Communicable Diseases.
Filter by:BEAT-BK will see the effect of immunosuppression reduction/modification with and without IVIG on BKPyV infection, allograft function, allograft loss, acute transplant rejection, immunosuppression load and death in kidney and simultaneous kidney pancreas transplant recipients with polyomavirus infections (BKPyV).
A phase III randomized clinical trial in proportion 2:1 in favor of oral vancomycin (experimental treatment), multicentric, national, double-blinded, controlled with placebo. The main objective is to evaluate the effectiveness of treatment with oral vancomycin to reduce the incidence of Clostridioides difficile infection (CDI) in patients who suffered previous CDI and who need further hospitalization and treatment with systemic antibiotic therapy in the 90 days after the first CDI.
Although COVID-19 infects gastrointestinal tissues, little is known about the roles of gut commensal microbes in susceptibility to and severity of infection. The investigators will analyze the alterations in fecal microbiomes of patients with COVID-19 infection during hospitalization.
An investigator-initiated, open-label, multi-center, randomized, non-inferiority trial of children aged 3 months to 13 years with acute uncomplicated febrile urinary tract infection. The primary objective is to determine whether individualized antibiotic therapy based on an algorithm (experimental arm) versus standard antibiotic therapy of 10 days (control arm) can reduce the number of days with antibiotic therapy within 28 days after treatment initiation without increasing the risk of recurrent urinary tract infection regardless of the pathogen or death of any cause within 28 days after end of treatment. Children will be randomized 1:1. The medical treatments received are identical in both groups.
RHIVIERA-02 trial is a placebo-controlled double-blinded two arm prospective phase II trial. This study will test the use of broadly neutralising antibodies (bNAbs) in participants, at primary HIV infection (PHI) and ART initiation.
Infections associated with osteosynthesis material are among the most feared and challenging complications of trauma surgery and can lead to total function loss or limb amputation when complete recovery is to be expected without infection. This is a clinical trial with the purpose of evaluate the optimal duration of antibiotic therapy in Infections Associated With Osteosynthesis Material Implanted when implant is retained.
Severe Community-acquired pneumonia (SCAP) is a leading global infectious cause of intensive care unit (ICU) admission (approximately 20%-30%), and the primary reason of mortality and morbidity in immunocompromised patients. There is a global increase of patients with distinct immunocompromised conditions due to the advance of cancer treatment, increasing biologics, and immunosuppressants for autoimmune diseases and growing organ transplant recipients, and it has been estimated that patients with immunocompromised conditions account for approximately 35% of all intensive care unit (ICU) admissions. Immunocompromised patients with SCAP have more factors to complicate with sepsis, respiratory failure, acute respiratory distress syndrome, and the mortality rate can be up to 50%. With the aim to apply early accurate antimicrobial therapy to improve clinical prognosis of SCAP patients with immunocompromised conditions, timely identification of pathogen is particularly important. Conventional microbiological diagnostic methods such as standard microbiologic cultures, microscopy, polymerase chain reaction (PCR), respiratory virus multiplex PCR, as well as pathogen-specific antigens and antibody assays, are currently commonly used to detect pathogens, although they have various limitations. However, conventional antimicrobial therapy depends on the results of conventional diagnostic methods, which may delay timely accurate antimicrobial therapy at the initial stage, and the mortality of immunocompromised patients with SCAP may be increased. Metagenomic next-generation sequencing (mNGS), which can determine pathogens more quickly (usually within 24h) and accurately comparing with conventional diagnostic methods by analyzing cell-free nucleic acid fragments of pathogens using appropriate lower respiratory tract (LRT) specimen, is increasingly used in severe respiratory infectious disease, especially among immunocompromised patients. This study aims to determine whether mNGS (using LRT specimen) guided antimicrobial treatment improves clinical prognosis of SCAP patients with immunocompromised conditions when compared with conventional antimicrobial treatment.
This is a 5-year Hybrid Type 1 Effectiveness-Implementation Randomized Control Trial (RCT) that compares two models of linking and retaining individuals recently released from justice involvement to the continuum of community-based HIV prevention and treatment, HCV treatment, STI treatment, and opioid use disorder (OUD) prevention and treatment, medication for opioid use disorder (MOUD) service cascades of care.
This is a multi-center randomized controlled evaluator-masked trial designed to compare metagenomic deep sequencing (MDS) versus standard of care testing for improvement of outcomes for intraocular infections. Patients with presumed intraocular infections who meet the eligibility criteria will be randomized to receive MDS testing results or not to receive MDS testing results. All patients will receive standard-of-care testing to guide management. Enrolled patients will be followed at week 2, week 3-6 (randomization visit), and at 4 weeks after the randomization visit. The proportions of patients who received the appropriate therapy and the proportions of patients with improved outcome will be compared between arms. Patient quality of life, MDS performance, and the provider certainly of belief will be collected.
This is a single center pilot study involving a single study visit for participants, with remote follow up data collected at 24 hours. Follow up at 3 months and 6 months later occurs as standard of care. The purpose of the study is to find out if a new type of imaging tracer (68Ga-DFO) can be used to show infection in patients with vascular grafts using PET/CT scans. These infections may be associated with significant ill health and mortality and can be difficult to diagnose. Effective treatments can require major surgery and long-term antibiotic therapy which may not be well tolerated nor feasible. Development of new imaging tracers that could detect bacteria causing graft infections with PET-CT scanners has great potential to benefit patients being considered for vascular surgery. A PET-CT scan combines images from a CT (Computerised Tomography) scan and a PET (Positron Emission Tomography) scan. The CT scan takes a series of X-rays across the organs inside the body. The PET scan uses a mildly radioactive tracer to show up areas of activity inside the body. The 68Ga-DFO tracer mimics particles that bacteria make to take up iron from the body to help them grow. The investigators hope this new tracer will go to areas where bacteria are causing infection and tell if the graft is infected. The investigators hope this type of tracer could be a better way to show infection than the tests currently used to diagnose infection.