View clinical trials related to Tuberculosis.
Filter by:Objective To determine if treatment completion with a 4-month rifampin (4R) or 3-month rifapentine (P) + isoniazid (H) weekly for 12 weeks (3HP) regimens is better than with a 3-month (3HR) regimen for treatment of latent tuberculosis (TB) infection (LTBI) in patients with end stage kidney disease. Methods Design: Multicenter, prospective, parallel-group, open-label, controlled clinical trial. Study population: All adult patients with ESKD in who treatment for LTBI is prescribed at 7 hospitals. Interventions: Patients who accept participation, will be randomly assigned to one of the 3 arms: 3HR (control) (90 doses), 4R (120 doses) or 3HP (12 doses). Outcome: Proportion of participants who discontinue permanently the assigned treatment. Follow-up: Periodic assessment for permanent or temporary discontinuation, and adverse events of the assigned treatment. Sample size: 225 subjects (75 per arm) will be needed to demonstrate, if exists, a 0.16 decrease in permanent discontinuation rates in the experimental arms (4R and 3HP) with respect to the control arm (3HR), with α= 0.025, β= 0.20, and 5% expected losses, and assuming a 0.25 proportion of permanent discontinuation in the control.
The primary aim of this pragmatic trial is to determine the effectiveness of a Whole Genome Sequencing (WGS) Drug Sensitivity Testing (DST) strategy to guide individualised treatment of rifampicin resistant tuberculosis (RR-TB) patients. The primary objective is to determine the effectiveness of this WGS DST strategy in patients diagnosed with RR-TB. We will additionally perform an exploratory health economics evaluation of both arms, and will determine the feasibility of the WGS DST strategy.
The purpose of the study is to evaluate the efficacy (how well the medicines work) and tolerability (whether participants stop treatment because of side effects from a drug or treatment) of an anti-TB treatment regimen that compares two doses of linezolid (LZD), combined with bedaquiline (BDQ), delamanid (DLM), and clofazimine (CFZ). This study will also measure the level of these medicines in the participants' blood.
Resistance to anti-tuberculosis drugs is a continually growing problem. Multidrug-resistant tuberculosis (MDRTB) is resistance to at least rifampicin and isoniazid, and extensively drug-resistant TB is additional resistance to a fluoroquinolone and a second injectable line drug. Methods currently employed in testing for resistance are inadequate and a contributing factor to the 40-50% MDR-TB treatment success rate. Current drug susceptibility testing methods are slow for most drugs, taking weeks. Rapid molecular methods such as the line probe assays, e.g. Hain GenoType MDRTBplus and sl, provide resistant calls to only a limited number of drugs, and are often less useful in smear negative patients. Molecular technologies such as sequencing can provide a comprehensive readout of drug resistance and are able to detect resistant populations at very low levels (≤1%), thus enabling individualized therapy. This can be done directly from sputum. Targeted sequencing amplifies regions of genomic DNA associated with resistance prior to sequencing. Rapid analytic software is used to process the raw sequence data, identify resistance causing mutations and provide a readout of clinically relevant information. However, the feasibility, and more importantly the impact, of this approach has not been evaluated in a clinical trial to establish proof of concept. Aim 1: To conduct a randomised controlled trial to determine the impact of sputum-based targeted sequencing in detecting resistance to second-line TB drugs compared to the current programmatic standard of care (Hain MDRTBplus/sl and adjunct phenotypic drug susceptibility testing) when used to inform of treatment for MDR-TB. Aim 2: To compare currently available drug resistant sequencing pipelines for diagnostic accuracy, sensitivity, specificity and predictive value as compared to culture based phenotypic drug susceptibility testing. Aim 3: To compare the feasibility, accuracy, turn-aroundtime, and cost implications of the above-mentioned diagnostic approaches.
The reported incidence of uveitis is 52 persons per year per 100,000 population, with a greater incidence estimated in developing countries, including Indonesia. Uveitis has challenges in diagnosis and therapy, due to the existence of an immunological privilege mechanism, so it is not easy to obtain diagnostic markers or provide appropriate therapy. In uveitis, a work-up examination looking for signs in the entire body or systemic disease is often conducted. Up until today, establishing the diagnosis of tuberculosis (TB)-associated uveitis is still a challenge. From histopathological studies, TB germs are difficult to find. Wreblowski et al. found that paucibacillary conditions also made TB bacteria difficult to find by PCR and tuberculin test results were also not completely reliable. The development of IGRA (Interferon-Gamma Release Assay) assays, such as QuantiFERON-Gold TB (QFT) has been investigated. Our previous study found that IGRA-positive uveitis patients with type 1 IFN gene expression score >5.61 were more likely to have active TB uveitis. In addition, serum C1q examination also showed an inverse correlation with this score. Regarding therapy, until now corticosteroids and cycloplegics are the mainstay treatment for uveitis. However, appropriate administration of anti-infective drugs is necessary in cases of infection. Inflammation in TB-associated uveitis is thought to be the result of the immune response that occurs as a result of paucibacillary TB infection. Examinations can be redundant and problematic. Determination of therapy is also a dilemma because it is difficult to determine the right patient candidate for administration of anti-tuberculosis therapy (ATT). The protocol of ATT administration itself has not been standardized so it often follows the extra pulmonary TB protocol and there has been no reliable clinical trial research on ATT administration in patients with suspected TB uveitis yet no TB microorganisms are found directly in the eyes or other organs. On this basis, the investigators planned a prospective randomized clinical trial study that involve idiopathic uveitis patients with positive IGRA test, to assess the effectivity of ATT compared to oral steroids. In addition, this study can also be used as a basis for validation of type 1 IFN scores and serum C1q as diagnostic/prognostic biomarkers in cases of TB-associated uveitis.
ISIT-TB Prototype is a diagnostic assay based on a transcriptional blood signature suggestive of the detection of Mycobacterium tuberculosis.
It is intended for patients who have been admitted to the outpatient or emergency room or are hospitalized For patients who diagnose pulmonary tuberculosis or extrapulmonary tuberculosis using Xpert TB/RIF, additionally, diagnose pulmonary tuberculosis or extrapulmonary tuberculosis using a new diagnostic method, and check the test results. Check whether the tuberculosis bacteria were actually cultured in the sample in the future, and compare the sensitivity and specificity in each test. Validation in animal model In an animal model (rat) with chronic obstructive pulmonary disease that shows similar characteristics to tuberculosis destructive lung, It will be investigated whether the HI method can be validated by separating and concentrating microbiome for various pathogens including Mycobacterium tuberculosis using HI method. Confirm.
Tuberculosis (TB), caused by Mycobacterium tuberculosis (Mtb), is a deadly infectious disease and major global public health problem. Recent evidence from animal studies suggests that the microbiome plays a role in TB pathogenesis and immune response. However, until now, no similar study has been performed in humans and thus any influence of the microbiota on TB or vice versa remains unknown.
This is a multicenter, double-blind, randomized (in 1:1 ratio) placebo-controlled study to assess the safety and protective efficacy of the subunit recombinant tuberculosis vaccine GamTBvac against the development of respiratory tuberculosis not associated with HIV infection in volunteers aged 18-45 years.
The objective of this project is to demonstrate safety, immunogenicity and improved efficacy of the new live attenuated M. tuberculosis vaccine called MTBVAC in a Phase 3 efficacy trial in HIV-uninfected infants born to HIV-infected and HIV-uninfected mothers as compared to standard of care BCG vaccination. The proposal builds upon a group of TB vaccine development partners in Europe and sub-Saharan Africa established in a previous EDCTP-supported project. It creates an expanded consortium of clinical trial partners for the optimal implementation of a large infant efficacy trial of MTBVAC in high TB incidence settings. New capacity for efficacy trials in infants will be a valuable resource for the TB vaccine development community. The proposal will create a network of institutions in three TB endemic African countries with enhanced laboratory capacity to conduct TB vaccine immunology studies and to bio-bank samples to discover immune correlates of vaccine-mediated protection.