Active clinical trials for "Tuberculosis"

Tuberculous meningitis is a severe brain infection which often causes disability and death even when treated with the best available treatment. Aspirin is a type of anti-inflammation drug which can reduce the inflammatory response in brains of patients with tuberculous meningitis, and therefore may decrease some of the most severe outcomes. This study compares the use of aspirin (at 2 different doses) versus placebo as an additional therapy to the standard treatment to see if aspirin is safe and helpful in reducing disability and death from tuberculous meningitis. Patients will be treated with aspirin or placebo for 60 days and followed up while on standard treatment for 8 months.

Tuberculosis (TB) is a global challenge and for the increasing epidemic of multi-drug resistant (MDR)-TB there is restricted treatment options. This calls for research of new immune-modulating treatment strategies that can strengthen the patients immune system to better fight the TB bacteria. The pro-inflammatory, but still immunosuppressive mediator prostaglandin E2 (PGE2) is produced by cyclooxygenase-2 (COX-2) in inflamed infected tissue. Studies from both human and animal models show that COX-2 inhibitors (COX-2i) can improve the immune system and strengthen vaccines responses. Hypothesis A hyperactive COX-2/PGE2 signal system in active TB causes down-regulated immune responses that favour TB survival, but this can be abrogated by COX-2i. TB-specific immunisation with targeted antigens presented as a therapeutic TB vaccine and enhanced by COX-2i will improve immune-mediated host clearance of TB. Combinations of COX-2i and a therapeutic TB vaccine to conventional anti-TB chemotherapy offer new treatment modalities for TB, including MDR/XDR-TB. Approach to test the hypothesis Study design: 4-arm, open and randomized clinical intervention trial of patients starting treatment for active TB in specialized Norwegian TB centres and where two arms will receive the COX-2i etoricoxib with and without a TB vaccine, one arm vaccine only and the last arm serve as control receiving only standard anti-TB therapy. For safety precautions, only patients bearing sensitive TB strains are included and study arms will be sequentially introduced. In a mouse model examine in more detail the effects of reversion of chronic inflammation with COX-2i locally in tissue and the interplay with TB vaccine responses, immune regulation, correlates of protection and survival in a well-characterized model for TB-exposed mice.

Hypothesis That improving vitamin D status among TB patients will speed the pace of bacteriological cure, and will enhance immune responses to TB infection

This is a prospective, randomized, parallel, controlled study comparing the efficacy and outcomes in the retreatment of pulmonary Tuberculosis (TB) in Guangzhou in a group using pretreatment susceptibility tests in selection of chemotherapy regimens and that in another group without using pretreatment susceptibility test results. The investigators hypothesize that selecting drug treatment on the basis of known susceptibility tests would lead to improved outcome compared with empiric treatment.

The purpose of this trial is to assess the safety, tolerability, pharmacokinetics, and efficacy of long-term (6-month) treatment with delamanid plus an optimized background regimen (OBR) of other anti-tuberculosis drugs in pediatric participants who completed Study 242-12-232 (NCT01856634).

The purpose of this trial is to determine the pediatric dose of delamanid that is equivalent to the adult dose already shown to be effective against multidrug-resistant tuberculosis.

Isoniazid (INH) is a drug commonly used to treat tuberculosis (TB) worldwide. Sometimes, the bacteria that cause TB can become resistant to INH. Resistance means that bacteria have adapted to a drug and are able to live in the presence of the drug. When TB becomes resistant to INH, INH does not work as well at fighting the bacteria. This study treated people with INH-resistant TB with different doses of INH to see if INH can still fight the bacteria if the dose is increased. We evaluated how well the drug works at higher doses for participants who have resistant TB as well as how well the drug works at regular doses for participants who have TB that is not resistant. The study also evaluated the safety and tolerability of the different doses of INH. Tolerability is how well people can put up with the side effects of a drug. Using increased doses of INH to treat TB that is resistant to INH is experimental and has not been approved by regulatory authorities. While there is some evidence that this approach will work, this has not yet been proven.

Tuberculosis (TB) is a global public health concern and developing new treatment regimens is an important research priority. PA-824 is an experimental TB medication. This study will evaluate the safety and tolerability of PA-824 when combined with efavirenz (EFV) or ritonavir-boosted lopinavir (LPV/r), which are medications used to treat HIV infection, or rifampin (RIF), which is a medication used to treat TB. Study researchers will examine the safety and tolerability of these drug combinations and how the medications affect the levels of PA-824 in the blood.

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

To evaluate the efficacy, safety and tolerability at 8 weeks (2-months), 52 weeks (12-months), and 104 Weeks (24-months) post the start of the following treatment regimens in participants with: Drug Sensitive TB (DS-TB) patients given BPaMZ for 17 Weeks ( or 4 months) vs. Standard HRZE/HR treatment given for 26 weeks (or 6 months) and Drug Resistant TB (DR-TB) patients given BPaMZ for 26 Weeks (or 6 months)