View clinical trials related to Tuberculosis.
Filter by:A5409/RAD-TB is an adaptive Phase 2 randomized, controlled, open-label, dose-ranging, platform protocol to evaluate the safety and efficacy of multidrug regimens for the treatment of adults with drug-susceptible pulmonary tuberculosis (TB). A5409 hypothesizes that novel regimens for the treatment of pulmonary tuberculosis will result in superior early efficacy, as determined by longitudinal mycobacteria growth indicator tube (MGIT) liquid culture time to positivity (TTP) measurements over the first 6 weeks of treatment, and will have acceptable safety and tolerability over 8 weeks of treatment relative to standard of care [(SOC) isoniazid/rifampicin/pyrazinamide/ethambutol (HRZE)]. The study will run for 52 weeks, inclusive of 26 weeks of TB treatment comprised of 8 weeks of experimental or SOC treatment (based on treatment arm assignment) followed by 18 weeks of SOC treatment with 45 participants in each experimental treatment arm and at least 90 participants in the SOC arm.
Introduction: Tuberculosis (TB) infection is a key driver of the TB pandemic, with over 10.6 million people fell ill with TB disease in 2022. About one-quarter of the global population is estimated to be infected with TB bacteria. Around 5-10% of people with TB infection will develop active and contagious TB disease, which could be largely avoided if TB infection is identified and given effective preventative treatment, before progression to active disease. The long treatment of TB infection with regimens lasting from three to nine months is a significant barrier to treatment completion in individuals with a confirmed diagnosis of TB infection. Adapting a shorter regimen than the current regimens could lead to a higher treatment completion rate and increased uptake of preventative therapy for TB, as well as reduced side effects. Methods and analysis: An open-label, randomized clinical trial (1:1) will be performed in two study sites in Ha Noi, Vietnam (Vietnam National Lung Hospital and Ha Noi Lung Hospital). Adult household contacts (n=350) of people with new, bacteriologically-confirmed, pulmonary, drug-susceptible TB who initiate treatment will be invited to participate. Aim: To compare the TB preventive therapy completion rates and adverse event incidence between a new one-month regimen (1HP) versus the current three-month regimen (3HR)*. *1HP= one month of daily isoniazid (H/INH) and rifapentine (P/RPT) 3HR= three months of daily isoniazid (H/INH) and rifampicin (R/RIF)
Despite tremendous efforts, an effective tuberculosis (TB) vaccine remains elusive. TB continues to infect and kill many. In 2021, TB infected more than 10 million and killed 1.6 million people. To date, the M.bovis bacille Calmette Guerin (BCG) is the only licensed vaccine against tuberculosis (TB). Efforts to come up with new and effective vaccines have not been successful. Partially, the lack of suitable disease models and protection correlates hinders the research of new vaccines. Controlled human infection model studies (CHIM) involve administering disease-causing microbes to healthy individuals, with continued monitoring of disease response. These studies have been used to study malaria, typhoid, pneumococcal pneumonia and the recent SARS-CoV-2 vaccines. The BCG-Controlled Human Infection Model (BCG-CHIM) will allow accurate dosing with safe mycobacteria as well as minimal tissue sampling to understand immunity to mycobacteria. Considering that the M. bovis BCG is a safe living Mycobacteria, it can be used as a CHIM against which to test new vaccines.
Pediatric tuberculosis (TB) continues to pose diagnostic challenges in low- and middle-income countries with high rates of TB disease, due to the well-described impact of paucibacillary disease in children, and current TB culture and polymerase-chain reaction tests are of limited usefulness due to cost, restricted availability, and poor sensitivity in specimens available from younger children. Our team of experts from Tulane, Johns Hopkins University, Universidad Peruana Cayetano Heredia, and Asociación Benéfica Prisma have confronted all of these challenges through more than 25 years of collaboration in Peru and Bolivia. Our goal is to directly address the challenges of TB in children by evaluating a new diagnostic approach developed by MPI Tony Hu at Tulane University using a CRISPR-mediated TB assay (CRISPR-TB) optimized to detect circulating Mycobacterium tuberculosis cell-free DNA (Mtb-cfDNA), and used to analyze cryopreserved serum in pilot studies from adults and children with presumptive TB, their asymptomatic household contacts, and a cohort of symptomatic children living with HIV (CLHIV) at high risk for TB. Results from symptomatic adult cohorts yielded a pooled sensitivity of 93%; specificity of 93%; positive predictive value of 95%; and negative predictive value of 92%. In limited pilot studies in CLHIV CRISPR-TBD results accurately identified all confirmed TB (13/13) and most children with unconfirmed TB (80%; 52/65). We propose to enroll 200 presumptive TB cases and an equal number of well control subjects in each of 2 study populations (test population and validation population) identified through clinics associated with the "Dr. Mario Ortiz Suarez" Children's Hospital in Santa Cruz, Bolivia. We will determine the distribution of cfDNA concentrations in peripheral blood in a "test population" composed of two age-based groups of children (2 months-6 years, 7-14 years) with respiratory disease grouped by likelihood of TB based on the NIH consensus case definitions (confirmed TB, unconfirmed TB, and unlikely TB) and in age-matched controls grouped by presence of latent TB infection (LTBI), with cfDNA measured serially in time among TB cases receiving antibiotic therapy. We will also validate standard ranges of quantitative cfDNA established for clinical subgroups of children with TB disease or LTBI in an independent validation cohort. An additional aim will determine the correlation between quantitative cfDNA and quantitative imaging-based TB scores based on evidence of disease in the lung, the primary target organ in TB disease, by (1) chest radiograph, measured by computer-aided analysis using the CAD4TB v7 system, and by (2) lung ultrasound, performed with a portable/low-cost probe assisted by machine learning algorithms for automatic interpretation. These biomarkers will be tested as potential cofactors that may be combined with cfDNA levels in peripheral blood, to improve the detection of TB disease in children. The results of this study will be the first step in a process to find a path to allow detection of the many "unconfirmed" TB cases and ideally make the diagnosis of pediatric TB in reach for low resource settings where it is so critically needed.
To estimate diagnostic accuracy of Xpert Ultra and Xpert MTB/RIF for extrapulmonary tuberculosis and rifampicin resistance in adults suspected to be infected with mycobacterium tuberculosis. In addition, this study will estimate the pattern of rifampicin resistance among TB cases in Assiut population.
This prospective multicentre study is planned to evaluate the next generation LAM assays and molecular diagnostics (POC and near POC) among people with presumptive Tuberculosis. The DriveDx4TB study aims to generate evidence needed to accelerate the introduction of three new classes of TB diagnostics, complemented by alternative sampling for use at primary healthcare and community settings. To this end, the study will leverage the accelerated innovation spurred by the COVID-19 pandemic, particularly the rapid development of swab-based sampling and molecular diagnostic (MDx) platforms.
The aim of this pragmatic, stepped wedge cluster-randomized trial is to measure the comparative yield (number of incident TB cases diagnosed during active case-finding camps) using a site selection approach based on predictions generated via an artificial intelligence software called MATCH-AI (intervention group) versus the conventional approach of camp site selection using field-staff knowledge and experience (control group). The trial will help inform whether a targeted approach towards screening for TB using artificial-intelligence can improve yields of TB cases detected through community-based active case-finding.
The aim of this study is to measure the effectiveness usage of VOT in the treatment of TB in terms of treatment adherence. The study will be a randomized controlled trial and will involve 240 TB patients. The study is aimed to commence by December 2023. The study period will be for 4 months.
The goal of this observational study is investigate the accuracy of the NanoDetect-TB kit in diagnosing tuberculosis (TB) using frozen serum and plasma samples collected from individuals suspected to have TB disease. The main question[s] it aims to answer are: - How does this investigational device compare to the gold standard for TB diagnosis of sputum culture? - How does it compare to Acid-Fast Bacteria (AFB) smear microscopy and FDA-approved NAAT TB diagnostic assays? Participants will be asked to have blood drawn and provide demographic and medical data for this study in a single visit.
This cluster-randomized trial in Uganda will evaluate the effectiveness and implementation of a novel, peer-led TB education and counseling strategy to improve outcomes among persons with tuberculosis (TB) with and without HIV/AIDS and assess the social-behavioral mechanisms underlying the observed treatment effects.