View clinical trials related to Tuberculosis.
Filter by:Randomized, controlled, double blind clinical trial in 2 stages (adult stage, infant stage). The first stage includes 18 HIV uninfected, QFT negative, BCG vaccinated, adult participants, randomized 1:1 to receive BCG Vaccine SSI or MTBVAC at equivalent dose (5x10E05 CFU/0.1mL) (n=9 in each group). Upon favourable safety review by the DSMB for all 18 adults up to day 28 after study vaccination, the second stage will commence in thirty-six (36) HIV unexposed, BCG naïve, newborn infants, randomized 1:3 to receive BCG Vaccine SSI or MTBVAC at one of three different dose levels ( (n=9 in each group).
A parallel-group prospective cohort study among adult persons living with HIV/AIDS to study the effect of a new TB diagnostic test, Xpert MTB/RIF on: 1) TB case detection; 2) time to TB diagnosis and TB treatment; 3) presumptive TB patient drop-out from the TB diagnostic "cascade" before starting TB treatment; and 4) loss to follow-up after initiation of TB treatment.
Multidrug-resistant (MDR) tuberculosis (TB), defined as simultaneous resistance to isoniazid and rifampin, has been declared a global emergency. Treatment outcomes are poor, driven by toxicity and limited efficacy of the 2nd-line anti-TB drugs. Although there is evidence that both anti-TB activity and most of the toxicity of the key drugs are related to drug exposure, the pharmacokinetic/pharmacodynamic (PK/PD) relationships in patients with MDR-TB are poorly characterized. Moreover potential synergy of drug combinations has not been identified in the context of MDR-TB, dosing has not taken into account the concentrations needed to suppress resistance, and the role of minimum inhibitory concentrations (MICs) in dosing is poorly studied. There are therefore opportunities to optimize drug doses and combinations to improve efficacy, and reduce toxicity. Based on this observational study of patients on standard treatment for MDR-TB, our proposal builds on novel methodologies we have developed, largely for drug sensitive TB: 1. The application of computational analytical techniques to tease out the individual contributions of anti-TB drugs used in combination 2. The development of a treatment response biomarker model based on time-to-positivity in liquid culture of serial sputum samples. 3. The in vitro determination of PK targets for anti-TB activity and the suppression of resistance using the hollow fiber models of Mycobacterium tuberculosis (Mtb) (HFM-TB). Thus the research will enhance our understanding of current modalities of TB treatment, while contributing research approaches for future regimen optimization. This protocol describes the clinical research component (points 1&2). Aim 1: To characterize the effects of 2nd-line drug exposures on treatment response in MDR-TB patients. The 2nd-line drugs to be examined are those comprising the standardized regimen used in South Africa: kanamycin, pyrazinamide, moxifloxacin, ethionamide and terizidone. Hypothesis: Amongst patients on standard MDR-TB treatment, variation in drug exposure has a quantifiable impact on the rates at which viable Mtb are cleared from the sputum. Aim 2: To identify drug exposures associated with the risk of treatment-related toxicities in patients on a standard 2nd-line regimen for MDR-TB. Hypothesis: The risks of specific toxicities associated with kanamycin, pyrazinamide, moxifloxacin, ethionamide and terizidone are linked to drug concentrations.
The correlation of the morphologic, microbiological, genetic and histopathological characteristics of TB lesions obtained in therapeutical surgery with the clinical forms and features of the patients will provide essential information 1. on the role of the host in the mechanisms associated to the generation and evolution of active TB and 2. about future diagnostic and/or prognostic biomarkers of TB disease. All this information could be used for patients stratification and/or to design new therapeutic strategies.
Human Immunodeficiency Virus (HIV) is the strongest individual risk factor for the reactivation of tuberculosis (TB) after previous exposure to Mycobacterium tuberculosis (MTb). This risk is reduced but not completely eliminated when HIV is treated with antiretroviral therapy (ART). Both the British HIV Association (BHIVA) and National Institute of Health and Care Excellence (NICE) suggest testing for latent TB infection in HIV infected individuals, but use different criteria. The cost -effectiveness of either approach has not been assessed, nor is testing widespread. A certain proportion of HIV infected subjects in Africa have MTb detectable in their sputum despite not having symptoms (such as cough or weight loss), nor changes on a chest x ray. It is unclear if this happens in lower TB prevalence areas such as the United Kingdom (UK). We intend to test a cohort of HIV infected subjects for evidence of latent TB using a tuberculin skin test (TST) and Interferon Gamma Release Assay (IGRA), ask about symptoms (using a standardised questionnaire) and to induce sputum using a saline nebuliser, to detect MTb using microscopy and culture, and newer nucleic acid amplification (genetic) techniques. Some patients, despite being exposed to TB in the past, will not mount a response using an IGRA or TST, which maybe due to an abnormal immune response. This lack of response seems more common in HIV. By investigating the number of patients with positive TST, IGRA, chest X ray and evidence of MTb in their sputum, in the context of place of birth, previous exposure to TB, CD4 count and other medications, we can assess the cost- effectiveness of systematic TB screening and the use anti-TB antibiotics to prevent reactivation of TB. In time, we will be able to answer important questions about the time taken to reactivate TB in individuals with HIV who do or don't take preventative anti-TB medications in the UK.
DAR-901 booster vaccine or placebo will be administered to adolescents in Tanzania primed with BCG to determine if immunization reduces the risk of TB infection
Prospective, randomized, double-blind, multicentre, placebo-controlled clinical phase IIa trial to evaluate safety and immunogenicity of RUTI® vaccine in Multidrug-resistant Tuberculosis (MDR-TB) patients favourably responding to standard MDR-TB treatment. Time point of vaccination starts at 16 weeks upon start of standard MDR-TB treatment (cohort A), and if clinically safe as evaluated by an independent panel of experts (DSMB), another cohort of patients will be vaccinated at 2 weeks upon start of standard MDR-TB treatment (cohort B), All the patients will be followed up 8 weeks after vaccination.
TB041 is a clinical challenge trial primarily to evaluate the safety of BCG challenge administered by the aerosol inhaled route in healthy, BCG naive UK adults. The trial will also look to evaluate and compare the amount of BCG recovered from the lungs and from the skin, following challenge by either the aerosol or the intradermal route.
This study is investigating a better method to see if someone has tuberculosis (TB) as compared to the method that is being used now.
The purpose of this study is to evaluate the bactericidal activity against Mycobacterium tuberculosis of pyrazinamide in combination with allopurinol. Pharmacokinetics (PK) and whole blood bactericidal activity (WBA) will be measured in healthy volunteers following administration of pyrazinamide alone and in combination with allopurinol.