View clinical trials related to Tuberculosis.
Filter by:The management of latent Mycobacterium tuberculosis infection is a new priority action for the WHO End Tuberculosis (TB) Strategy. However, national guidelines on latent tuberculosis infection testing and treatment have not yet been developed in children of China. Here, we present the results from the 3-year follow-up of a study that aimed to track the development of active disease in individuals with latent tuberculosis infection, identify priority populations for latent infection management, and explore the most suitable latent infection diagnostic approach.
Diagnosis of active and latent pulmonary tuberculosis, as well as extrapulmonary tuberculosis, is still a major challenge of TB control in China. This observational study aims to evaluate TB-antigen responsive T cell markers in the diagnosis of tuberculosis and extrapulmonary tuberculosis and try to find new prompt and cost-effective laboratory tests for active TB screening.
This is a proof-of-concept phase IIB, double-blind, randomized, placebo-controlled trial to evaluate the safety and efficacy of 40 mg atorvastatin to reduce persistent lung inflammation after successful TB treatment completion in HIV-infected and HIV-uninfected adults measured by PET/CT.
INTENSE-TBM is randomized controlled, phase III, multicenter, 2 x 2 factorial plan superiority trial assessing the efficacity of two interventions to reduce mortality from tuberculous meningitis (TBM) in adolescents and adults with or without HIV-infection in sub-Saharan Africa: - Intensified TBM treatment with high-dose rifampicin and linezolid, compared to WHO standard TBM treatment. - Aspirin, compared to not receiving aspirin. The trial will be open-label for anti-TB treatment and placebo-controlled for aspirin treatment.
TB-Speed HIV is a prospective multicentre management study evaluating the safety and feasibility of the recently proposed PAANTHER TB treatment decision algorithm for HIV-infected children with presumptive TB. It will be conducted in four countries with high and very high TB (Tuberculosis) incidence (Côte d'Ivoire, Uganda, Mozambique, and Zambia) which have not participated in the study that developed the PAATHER algorithm.
The aim of this study is to determine the proportion of clinical improvement, the score changing of type 1 interferon selected gene expression, and analysis of transcriptomics profiling in patients with idiopathic uveitis positive IGRA before and after receiving Anti-Tuberculosis Therapy (ATT). Hopefully, by conducting this research, we are able to provide valid data that demonstrate the advantages/disadvantages usage of Anti-Tuberculosis Therapy in patients with idiopathic uveitis IGRA positive that correlate with type I IFN. This research is a part of our efforts in discovering bio-marker candidates of idiopathic uveitis IGRA positive clinical patients who will benefit from the ATT administration.
This observational Mycobacterium tuberculosis (MTB) diagnostics evaluation study is a prospective study of pulmonary TB suspects who are undergoing sputum or bronchoalveolar lavage fluid (BALF) evaluation for pulmonary TB. The sensitivity and specificity of the CRISPR-based assay will be compared to clinical diagnosis, conventional culture methods and Xpert MTB/RIF assay on same batch specimens.
Molecular testing for mutations in M. tuberculosis genes associated to resistance of anti tuberculosis (TB) drugs is already part of standard laboratory TB diagnostic. This implicates earlier knowledge of possible resistance and thus prevents unnecessary treatment and the chance of treatment failure or treatment related toxicity. The molecular laboratory diagnostics is widely spread in high income, low TB endemic countries. However, the low income countries lack widespread facilities to test for susceptibility, either genotypic or phenotypic. Performing molecular diagnostics on sputum collected with a spot card could improve accessibility to molecular testing. This study examines if sputum collected and put on spot cards could be used for multiple molecular tests for the detection, identification and susceptibility prediction of TB. This means that DNA extraction of the sputum from the spot card should be feasible. The study is a pilot study with adult patients of the tuberculosis department of University Medical Centre Groningen (UMCG) Beatrixoord, Haren as subjects. The sputum produced will be collected, dried on spot cards, and DNA extraction from the card will be tested. If molecular detection is positive for the tuberculosis bacteria additional tests will be performed. Based on the present/absent of mutations in the genes associated to resistance susceptibility can be preditec, different molecular techniques will be performed to identify possible mutations. Furthermore, sputum will be collected as patients produce so. Sputum samples with low bacterial load can be tested as well and can test the sensitivity of the procedure. Lastly, techniques like RNA detection will be tested to identify the bacterial load. This can be done if more than one sample of patients were collected. Subjects will be selected on age, participation in standard TDM and drug use. Demographic parameters will be analysed. Sputum samples will be taken twice a week (on Tuesday and Friday).
Background: Most people with tuberculosis (TB) feel better after starting treatment. But for some people, the opposite happens. They may feel better at first, but then suddenly get worse. This is a paradoxical reaction. Researchers want to better understand what causes this reaction and what happens after someone has it. Objective: To learn about paradoxical reactions to TB treatment. Eligibility: Adults 18 and older diagnosed with confirmed or suspected TB and currently on treatment for at least 2 weeks, with or without signs/symptoms of a paradoxical inflammatory reaction. Design: Participants will be screened with a physical exam and medical history. They will give blood and urine samples. Eligible participants will visit the NIH Clinical Center 3 times over 6 to 18 months. Each visit will take 7 hours to complete; visits may be scheduled over more than 1 day. Participants may have more visits if their TB symptoms change. Participants will give blood, urine, and sputum samples. They will have adverse event assessments. They will have 2 to 3 positron emission tomography/computed tomography (PET/CT) scans. PET/CT scans make pictures of the inside of the body. For this, participants will lie on a table that slides into a donut-shaped scanner. They will get a small amount of radioactive dye through an IV, which is a small plastic tube placed in a vein in the arm using a needle. Participants may have optional apheresis. For this, blood is taken from a needle in one arm. White blood cells are separated from the rest of the blood. The rest of the blood is returned through a needle in the other arm.
The TB-Speed Decentralisation study aims to increase childhood Tuberculosis (TB) case detection at district hospital (DH) and Primary health Care (PHC) levels using adapted and child-friendly specimen collection methods, i.e. Nasopharyngeal Aspirate (NPA) and stool samples, sensitive microbiological detection tests (Ultra) close to the point-of-care (Omni/G1(Edge)), reinforced training on clinical diagnosis, and standardized CXR quality and interpretation using digital radiography. The TB-Speed Decentralisation study will evaluate the impact of an innovative patient care level diagnostic approach deployed at DH and PHC levels, namely the DH focused and the PHC focused decentralization strategies. This is aimed at, improving case detection in 6 high TB incidence in low/moderate resource countries: Cambodia, Cameroon, Côte d'Ivoire, Mozambique, Sierra Leone, and Uganda, and compare effectiveness and cost-effectiveness of the two different decentralization approaches. The hypothesis is that, in countries with high and very high TB incidence (100-299 and ≥300 cases/100,000 population/year, respectively), a systematic approach to the screening for and diagnosis of TB in sick children presenting to the health system will increase childhood TB case detection, especially PTB, which represents the majority of the disease burden (>75% of case)(40). The study also hypothesizes that sputum collection using battery-operated suction machines and microbiological TB diagnosis using Omni/G1 (Edge) can be decentralized to PHC level, thus enabling TB diagnosis and treatment in children at PHC level.