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Active clinical trials for "Tuberculosis, Multidrug-Resistant"

Results 71-80 of 108

Treatment Shortening of MDR-TB Using Existing and New Drugs

TuberculosisMultidrug-Resistant

The purpose of this study is to compare the efficacy of a 'new treatment regimen including delamanid, linezolid, levofloxacin, and pyrazinamide for nine or twelve months (investigational arm)' and 'the standard treatment regimen including injectables for 20 to 24 months (control arm)' for treating fluoroquinolone-sensitive multidrug-resistant tuberculosis.

Unknown status11 enrollment criteria

PRACTECAL-PKPD Sub Study

Multi-drug Resistant TuberculosisExtensively Drug-Resistant Tuberculosis1 more

PRACTECAL-PKPD is an exploratory pharmacokinetic and pharmacodynamic sub-study investigating the relationship between the patients' exposure to anti- tuberculosis (TB) drugs in the TB-PRACTECAL trial investigational regimens and their respective treatment outcomes.

Unknown status26 enrollment criteria

Utilizing the Crosstalk Among Chicoric Acid, 13-Cis Retinoic Acid(Aerosolized), Minocycline and...

Tuberculosis

Utilizing the Crosstalk Among Chicoric Acid, 13-Cis Retinoic Acid(Aerosolized), Minocycline and Vitamin D as a Potent Quadrate Therapy for treating patients with Multidrug-resistant TB and patient with both Multidrug-resistant TB and COVID-19 . A double-edged sword Clinical Study I)Part of Tuberculosis Tuberculosis (TB) is a major infectious disease killer globally. It affected 10 million and killed 1.4 million people in 2019 alone. The predicted impact of the COVID-19 pandemic is an additional 190,000 TB deaths in 2020, and it is expected in the next 5 y that there will be up to a 20% increase in the global TB disease burden , stressing the critical need for new safe and effective drugs against Mycobacterium tuberculosis (Mtb). In addition, controlling multidrug-resistant TB (MDR-TB) presents a huge public health challenge . New drug discovery could require several years with no guarantee but repurposing established may be useful to treat patients with tuberculosis . Here we demonstrate that we could utilize the crosstalk among Chicoric Acid, 13-Cis Retinoic Acid, Minocycline , and vitamin D as a novel quadrate therapy against TB.Drug-resistant tuberculosis represents a global emergency, requiring new drugs. Recently Minocycline was found to be highly potent in laboratory strains of Mycobacterium TB, and 30 drug-sensitive and multidrug/extensively drug-resistant clinical strains were susceptible to clinically attainable dosages. The lung concentration-time profiles of a 7 mg/kg/day human-equivalent minocycline dosage yielded bacterial kill rates comparable to first-line antituberculosis drugs. Extracellular bacilli were destroyed directly by minocycline. Minocycline also killed intracellular bacilli indirectly through granzyme A-driven apoptosis. Furthermore, minocycline showed dose-dependent antiinflammatory effect, suggesting that it may protect tuberculosis patients against immunopathology. A study showed that M. tuberculosis induced the expression of indoleamine 2,3-dioxygenase (IDO), an enzyme involved in tryptophan catabolism, in macrophages and in the lungs of animals (mice and macaque) with active disease. In a macaque model of inhalation TB, suppression of IDO activity reduced bacterial burden, pathology, and clinical signs of TB disease, leading to increased host survival. This increased protection was accompanied by increased lung T cell proliferation, induction of inducible bronchus-associated lymphoid tissue and correlates of bacterial killing . A recent study showed that Minocycline-induced significantly inhibition of IDO expression. But Minocycline-induced inhibition of IDO expression is retinoid-dependent. The combined treatment with minocycline and retinol, however, resulted in a striking, statistically significant decrease in IDO. Co-treatment with minocycline and retinol again resulted in decreased TNF-α and IL-6 levels. A study showed that IL-6 inhibits IFN-γ induced autophagy in Mycobacterium (TB) H37Rv infected macrophages. As well as neutralization of endogenous IL-6 by anti-IL-6 antibody significantly enhances the IFN-γ mediated killing of the intracellular bacteria. Minocycline's anti-inflammatory effects are mediated through RAR signaling. Therefore, The combined treatment with minocycline and retinol is expected to effectively inhibit (TB) and its inflammatory complication, Fortunately, Retinoic Acid significantly inhibits the in vivo growth of M. tuberculosis and the development of tuberculosis. In addition to, 13-Cis RA and Chicoric Acid ( CA ) enhanced the cell surface expression of HLA-DR and CD14 molecules on U937 macrophages and prevented the growth of Mtb within macrophages. Moreover, 13-cis RA and CA, have increased NO generation compared to untreated control macrophages, significantly . Both drugs have a significant inhibitory effect on Mtb growth but CA at the highest concentration was more potent than 13-cis RA . Therefore we will use retinoic acid to induce the effect of Minocycline as well as its ability to inhibit tuberculosis in combination with CA .Recent data showed that Vitamin D support innate immune responses to Mycobacterium TB and Low vitamin D levels were associated with a 5-fold increased risk for progression to tuberculosis. Deficiency of vitamin D has long been implicated in activation of (TB) . Serum vitamin D in TB patients are lower than in healthy controls . Vitamin D has been found to speed up the clearance of (TB) bacteria from the lungs of people with multi-drug resistant TB, according to a study of 1,850 patients. It was showed that Vitamin D receptor (VDR) must form a heterodimer complex with retinoid X receptor (RXR) to regulate gene transcription. Retinol plays a crucial role in lung development and signaling the vitamin D pathway. 9-cis-retinoic acid, an active vitamin A metabolite and the ligand of RXR, assists VDR signaling and suppresses the degradation of circulating vitamin D.

Unknown status29 enrollment criteria

Optimization of MDR-TB Treatment Regimen Based on the Molecular Drug Susceptibility Results of Pyrazinamide...

Multidrug Resistant Tuberculosis

Multidrug resistant tuberculosis (MDR-TB) is difficult to treat and raises a great challenge to TB control program. That pyrazinamide can shorten the course of treatment and facilitate bacilli clearance has been proved recently. In 2011, WHO recommended to use pyrazinamide throughout the course of treatment for MDR-TB. However, pyrazinamide susceptibility testing has not been widely used in clinic. And the conventional testing is time-consuming and unreliable. In contrast, the detection of pncA and rpsA mutations with molecular methods can provide rapid results of pyrazinamide susceptibility. The purpose of this study is to evaluate the efficacy of the introduce the molecular testing of pyrazinamide susceptibility in optimizing the MDR-TB treatment regimen.

Unknown status22 enrollment criteria

Patient-reported Experiences and Quality of Life Outcomes in the TB-PRACTECAL Clinical Trial

Multidrug Resistant Tuberculosis

PRACTECAL-PRO is a sub-study of a TB-PRACTECAL clinical trial for multidrug resistant Tuberculosis. It evaluates the effectiveness of TB-PRACTECAL interventions from the patient perspective in terms of their quality of life, shared decision making and satisfaction with services.

Unknown status7 enrollment criteria

Clinical Study on Adoptive Treatment of MDR-TB With Allogeneic γδT Cells

Multi-drug Resistant Tuberculosis

Brief summary: Allogeneic γδT cells from healthy donor will be administrated intravenously to patients with the MDR-TB,and then the safety and efficacy of γδT cells will be evaluated.

Unknown status7 enrollment criteria

Pragmatic Clinical Trial for a More Effective Concise and Less Toxic MDR-TB Treatment Regimen(s)...

TuberculosisMultidrug-Resistant3 more

TB PRACTECAL is a multi-centre, open label, multi-arm, randomised, controlled, phase II-III trial; evaluating short treatment regimens containing bedaquiline and pretomanid in combination with existing and re-purposed anti-TB drugs for the treatment of biologically confirmed pulmonary multi drug-resistant TB (MDR-TB).

Unknown status26 enrollment criteria

Ultralow Dose Computed Tomography in High-risk Drug-resistant Tuberculosis Contacts

Latent Tuberculosis

To evaluate CT abnormalities in the lung parenchyma in close contacts at high risk for developing multidrug- or extensively drug-resistant Tb by using a follow-up ultralow dose CT scan.

Completed4 enrollment criteria

Clinical Evaluation of tNGS for Diagnosis of DR-TB

TuberculosisMultidrug-Resistant

Current rapid molecular assays for detection of drug-resistant TB from direct clinical samples have important limitations. They are not suited for high-throughput settings; can only be used to detect a limited number of target gene regions and are not ideal for detection of phenotypic resistance conferred by mutations across large gene regions (e.g. pyrazinamide). Culture-free, end-to-end targeted NGS (tNGS) Solutions for Diagnosis of Drug Resistant TB can offer higher throughput and greater accuracy across more TB drugs than current WHO endorsed molecular assays, and a significantly faster time to result than phenotypic drug susceptibility testing (DST). Evidence regarding the clinical diagnostic accuracy and operational characteristics of tNGS solutions is needed to comprehensively evaluate tNGS for diagnosis of drug-resistant TB among patients who have been diagnosed with TB, and will be critical to inform global and national policy.

Completed8 enrollment criteria

Intensifying Multi-Drug Resistant Tuberculosis Contact Tracing by Social Network Analysis

Tuberculosis Infection

Tuberculosis burden in Vietnam increasing with contribution from low detection rates and increased drug resistance. There is a need to identify MDR-TB (MultiDrug Resistant Tuberculosis) among both notified TB cases and their contacts in the community. Traditional contact tracing often focuses on household contacts while strains of TB circulate in homes, schools, workplaces, and beyond. Social network Analysis (SNA) is a comprehensive approach which includes a set of persons and the connections among them used for analysis of structure of disease transmission. In this study, SNA will be used to collect network data from 60 newly detected Rifampicin resistant TB patients including an expected 50 MDR-TB patients living in Hanoi, and to identify and test potential MDR-TB cases.

Completed5 enrollment criteria
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