View clinical trials related to Tuberculosis, Pulmonary.
Filter by:Tuberculosis is the current leading cause of death due to an identifiable infectious agent worldwide. The current standard regimen for tuberculosis requires a patient to take drug combination (isoniazid, rifampicin, ethambutol, and pyrazinamide) for six to eight month periods. The purpose of this study is to compare tuberculosis treatment therapy between the current standard regimen and PRS derived combinatorial regimen. PRS derived regimen may potentially allow for a shorter course of treatment, which may reduce problems associated with adherence, toxicity, and development of drug resistance.
Tuberculosis remains a concerning health problem, with Mycobacterium Tuberculosis (MTB) now causing more deaths than acquired immune deficiency syndrome (AIDS). GSK3036656 is a compound with a novel mechanism of action under development for the treatment of tuberculosis. It suppresses protein synthesis in MTB by selectively inhibiting the enzyme Leucyl t-ribose nucleic acid (RNA) synthetase. Thus, this study will investigate the early bactericidal activity, safety and tolerability of GSK3036656 in up to four sequential cohorts of subjects with rifampicin-susceptible tuberculosis. The primary objective of this dose-escalation study is to establish the anti-tuberculosis effect of GSK3036656 on serial colony forming units (CFU) counts of MTB in sputum over 14 days of therapy. Subjects in each cohort will be randomized in 3:1 ratio to one of two treatments: either GSK3036656 or standard-of-care (RIFAFOUR® e-275) regimen. The approximate duration of the study for an individual subject will be 5 weeks, including 1 week of screening, 2 weeks of treatment period and another 2 weeks of final follow-up visit. RIFAFOUR e-275 is a registered trademark of Sanofi-Aventis.
This project proposes to develop and pilot a novel smart phone-based intervention to improve tuberculosis (TB) treatment adherence in Cambodia, which integrates video-enabled Directly Observed Treatment (vDOT) with an automated rewards system that transfers mobile money and eventual phone ownership to compliant patients. The results will be of immediate relevance to Cambodia's National TB Control Program (which is partnering with us), the major implementing field partner Operation ASHA (a leading TB-focused nonprofit organization), as well as other TB control programs seeking new alternatives to improving adherence, especially where traditional DOT may be infeasible or costly, and outside the area of TB where adherence to treatment is critical, such as HIV, and will provide key insights into mobile health (mHealth) programs in a setting relevant to other developing countries. The project will involve building new capacity in Cambodia for behavioral research, mHealth,and communications through hands-on training for study staff in-country, and through general training sessions for internal and external stakeholders.
A pragmatic open, three-arm individually-randomised controlled trial and economic evaluation will be conducted in one primary health care centre in Blantyre, Malawi, where HIV and TB are major contributors to early mortality. Participants will be adults with symptoms of tuberculosis (cough of any duration) attending the primary clinic with an acute care episode. We will exclude adults who have taken treatment for TB within the previous 6-months, who are taking isoniazid preventive therapy, who are not resident of Blantyre, or who plan to move out of Blantyre in the following 6-months. Participants will be randomly allocated into one of three groups: Group 1: Standard of care: Participants will be seen by facility health workers and receive clinician-directed screening for HIV and TB according to Malawi national guidelines. Group 2: Optimised HIV testing and treatment linkage: Participants will be offered testing for HIV using rapid oral fluid kits by research assistants. Those with confirmed HIV infection will be linked to the HIV care clinic where facility healthworkers will screen for TB using standard sputum-based diagnostics. Group 3: Optimised TB diagnosis, HIV screening and treatment linkage: Participants will receive a high-throughput and high-sensitivity TB screening intervention, in addition to the HIV testing intervention. This will comprise of an initial digital chest x-ray classified by the CAD4TB image-recognition software as either "high probability of TB", or "low probability of TB". Participants whose x-rays are suggestive of TB will receive confirmatory sputum testing with Xpert MTB/Rif Ultra cartridges, whilst participants whose x-rays have a low probability of TB will be referred to facility healthworkers for routine care. All participants will be seen at the health facility at day 56, where they will be tested for HIV (if not on ART) and screened for TB. The Primary Trial Outcome will compare between groups the time to tuberculosis treatment initiation by day 56. The trial is sufficiently powered to permit 3 pairwise comparisons between groups (i.e. Group 1 vs. 2; Group 2 vs. 3; and Group 1 vs. 3). This three-arm pragmatic trial design allows us to efficiently answer two separate, important public health questions: firstly, by comparing Group 2 to Group 1, we should be able to determine whether HIV care should be prioritised for adults with TB symptoms. Additionally, by comparing Group 3 to Group 2, we will provide strong evidence for the effectiveness of an optimised and integrated HIV and TB diagnostic and treatment linkage approach.
This is a phase 2, double-blind, randomized (1:1), placebo-controlled trial with two parallel groups. - H56:IC31 (investigational vaccine) - Placebo 900 HIV-negative adults with a diagnosis of drug susceptible pulmonary TB are planned to be included, recruited from TB clinics with established relationships to the trial sites at the start of their TB treatment. 5 study sites in South Africa: 2 sites from the AURUM institute (Klerksdorp and Tembisa) and 3 in Cape Town at TASK Applied Science (TASK), the University of Cape Town Lung Institute (UCTLI) and South African Tuberculosis Vaccine Initiative (SATVI) under UCT, respectively. 1 study site in Tanzania (TZ): 1 site at Mbeya Medical Research Centre (MMRC) under the National Institute for Medical Research (NIMR).
To compared the efficacy and safety of rifampicin and rifabutin which included in the standard treatment of anti-tuberculosis in HIV/AIDs patients combined with pulmonary tuberculosis, a multi-center, prospective cohort will be established. Antiviral efficacy and drug drug interaction will be investigated in order to provide optimized treatment for HIV/AIDs with tuberculosis.
The current standard management strategy for drug-sensitive pulmonary tuberculosis (TB) is to treat with multiple drugs for 6 months, although patients often fail to adhere to the long treatment, leading to poor clinical outcomes including drug resistance, which is expensive and difficult to treat. The TRUNCATE-TB trial evaluates an alternative strategy (the TRUNCATE-TB Management Strategy) comprising treatment for 2 months (8 weeks, extended to 12 weeks if inadequate clinical response) with a regimen predicted to have enhanced sterilising activity ("boosted regimen") and monitoring closely after treatment cessation. Those who relapse (predicted to be always drug sensitive and likely to occur early) will be retreated with a standard 6 month regimen. The trial is a randomized, open-label, multi-arm, multi-stage (MAMS) trial to test the hypothesis that the TRUNCATE-TB Management Strategy is non-inferior to the standard management strategy in terms of longer-term outcomes (clinical status at 96 weeks). If non-inferiority is demonstrated then the advantages/disadvantages of implementing the strategy will be explored in secondary outcomes (from patient and programme perspective). The trial will evaluate the TRUNCATE-TB Management Strategy with 4 potential boosted regimens (180 per arm, total 900 with the standard TB management strategy arm). The boosted regimens include new drugs (licensed drugs, repurposed from other indications) and optimized doses of standard drugs, selected based on consideration of maximal sterilising effect, absence of drug-drug interactions, as well as safety and tolerability over a period of 2 months
This is a randomized, double-blind, placebo-controlled, single ascending dose study conducted at one study center in Switzerland. Four (4) panels (A, B, C and D) of 8 male subjects (6 active and 2 placebo) each undergoing 2 investigation periods and receiving either single doses of PBTZ169 at increasing dose levels or a matching placebo. Subjects will participate in only one panel. Blocks of 4 subjects (3 under active treatment, 1 under placebo) will be investigated in parallel. Panels A and B are interleaved. Safety will be assessed throughout the study; serial ECGs and serial blood samples will be collected for the safety and PK assessment of PBTZ169. Dose escalation will be allowed once the Trial Safety Board has determined that adequate safety and tolerability after panel B and panel C completion has been demonstrated to permit proceeding to the next panel.
The aim of the study is to investigate the possible correlation of plasma drug concentrations with Time To Positivity (TTP) in liquid culture in patients with active pulmonary multi sensitive TB in the first two weeks of treatment. Secondary aims are: the correlation between plasma drug concentrations and hepato/neuro toxicity; the impact of different allelic variants on PK data, toxicity and TTP in liquid culture; the feasibility of using dried blood/plasma spots to measure plasma concentrations of anti-TB drugs and determine genetic polymorphisms.
Title: Evaluation of host biomarker-based point-of-care tests for targeted screening for active TB (Screen TB) Introduction: Tuberculosis (TB) places severe pressure on health care services of the developing world. Despite the introduction of the highly sensitive and specific GeneXpert MTB/RIF (GeneXpert) test [1] with a potential turn-around time of two hours, many people in high TB prevalence areas still do not have access to efficient TB diagnostic services due to logistical constraints in these settings. A cost effective, rapid, point-of-care screening test with high sensitivity would identify people with a high likelihood for active TB and would prioritize them for testing with more expensive, technically or logistically demanding assays including GeneXpert or liquid culture, facilitating cost-effective diagnostic work-up in resource-limited settings. A serum cytokine signature for active TB disease, discovered in the AE-TBC project, with a sensitivity of 89% (CI 78 - 95%) and specificity of 76% (CI 68 - 83%), will be optimised and utilized in a point-of-care format (TransDot) to rapidly test for TB disease in symptomatic people. Hypothesis: The TransDot test will achieve a sensitivity of > 90% for TB disease, in a training set of people suspected of having TB disease, and be validated (achieve similarly high sensitivity) subsequently in a prospective test set of people suspected of having TB disease, when compared to a composite gold standard of sputum culture, smear, GeneXpert, chest X-ray, TB symptoms and TB treatment response. Objectives: The overall objective of the study is to incorporate a six-marker serum signature into a multiplex UCP-LFA format, referred to as TransDot, for finger-prick blood testing. The end point of the study is the accuracy (sensitivity and specificity) of the UCP-LFA TransDot test on finger-prick blood for active TB and will be prospectively compared against gold standard composite diagnostic criteria (GeneXpert, MGIT culture, TB sputum smear, CXR, TB symptom screen and response to TB treatment). Primary: The primary outcome of interest will be accuracy, sensitivity and specificity of the TransDot finger-prick test when compared with the composite gold standard tests.