Active clinical trials for "Tuberculosis, Multidrug-Resistant"

This is a multisite prospective cohort study of patients with multidrug- or rifampin-resistant tuberculosis who are treated with an all-oral shortened regimen under routine program conditions in one of three countries (Peru, Lesotho, Kazakhstan).

Tuberculosis (TB) has been one of the top 10 causes of death worldwide from a single infectious agent, ranking above HIV/AIDS. Management and eradication of this disease is being hindered by the emergence of multidrug-resistant TB (MDR-TB) and extensively drug resistant TB (XDR-TB). Globally, there were estimated 10.4 million cases of TB and 490,000 cases of MDR-TB in 2016. China accounts for around 8.6% (0.895/10.4 million) of the global TB burden, ranking third in the top 3 countries (India, Indonesia, China) with the highest number of TB cases and ranking first with the largest number of MDR/ Rifampin-Resistant (RR)-TB cases. The treatment success rate for MDR-TB using the 18-24-month conventional World Health Organization (WHO) regimen was estimated to be about 54% worldwide and 41% for China in 2016, which remains unacceptably low. The poor MDR-TB treatment success rates suggest that current drug regimens are suboptimal. In addition, they are costly with a high pill burden, as many drugs, with significant potential for adverse events, are given for a long duration. These factors also inhibit good treatment compliance with further negative impact on treatment outcomes. According to previous studies, treatment outcomes of MDR-TB could be affected by drug resistance of pivotal drugs in MDR-TB regimen, such as fluoroquinolones, second-line injectable agents and pyrazinamide. The available drug-resistance information could help physicians decide the proper regimens for MDR-TB patients, which may prevent the useless prescription and evitable adverse. Therefore, the individualized regimen based on the resistance profile of the bacteria and patients' drug tolerance should be aimed for high-quality treatment for MDR-TB in the future. A precision individualized treatment approach based on the rapid molecular drug susceptibility tests of second line drugs may assist clinicians in making more suitable regimen and improve the treatment outcome of MDR-TB. Also, precision regimen offers the opportunity to improve treatment of drug-resistant tuberculosis through reduced toxicity while reducing the risk of resistance amplification and further transmission at a population level. The purpose of this research is to assess the feasibility and effects of individualized regimen that is guided by rapid molecular drug susceptibility tests of key second-line drugs through next generation sequencing. Meanwhile, the study will evaluate a short course regimens of drugs among "simple MDR-TB" patients who are proven to be sensitive to fluoroquinolones ,injectable second-line drugs and pyrazinamide.

PandrTB is a study of the pharmacokinetics(PK) and pharmacodynamics(PD) of bedaquiline, delamanid, clofazimine, linezolid, moxifloxacin, levofloxacin and pyrazinamide used in novel combinations to treat multidrug-resistant tuberculosis(MDR-TB).

The purpose of this study is to assess the efficacy and safety of a molecular drug-sensitivity test-guided individualized shorter all-oral regimen composed of 4-5 anti-tuberculosis drugs recommended by WHO in RRTB patients for 9-12 months in real-world practice, in some high RR-TB burden province of China. This study hopes to form a clinical pathway of all oral short-term treatment based on the guidance of rapid molecular drug sensitivity that can be popularized in China, and update the Chinese guidelines of RR-TB treatment management.

A Phase 4 operational study to assess the effectiveness, feasibility, acceptability, and cost effectiveness of the GeneXpert MTB/XDR (Xpert XDR; Cepheid) assay for rapid triage-and-treatment of DR-TB-A multi-centre, multi-country prospective cohort study

The researchers of this study are observing the treatment of multi-drug resistant Mycobacterium tuberculosis (MDR-TB) in South Africa. MDR-TB can not be treated with the usual TB drugs and needs to be treated with special drugs. The patients need to take these drugs for up to two years. Certain hospitals have already agreed to participate in this research project, half of the hospitals will be assigned a nurse case manager and the other half will not. The researchers are studying the benefits of having a nurse case manager to improve treatment response for patients with drug resistant TB. The researchers believe that nurse case management (NCM) in the intervention sites will increase MDR-TB cure and completion rates (i.e. treatment success) in comparison to usual care (UC), i.e. standardized programmatic management alone, in patients with and without HIV co-infection. To do this, the researchers will review the medical information collected at the hospital as part of the patient's treatment after obtaining the patient's permission.

PredictEndTB signature is a non-inferiority, prospective, parallel-group open-label randomized controlled trial evaluating the efficacy of individualised antituberculous treatment durations that utilize the transcriptomic signature-based model compared to the standardised twenty months treatment in a cohort of multidrug-resistant tuberculosis patients.

Resistance to anti-tuberculosis drugs is a continually growing problem. Multidrug-resistant tuberculosis (MDRTB) is resistance to at least rifampicin and isoniazid, and extensively drug-resistant TB is additional resistance to a fluoroquinolone and a second injectable line drug. Methods currently employed in testing for resistance are inadequate and a contributing factor to the 40-50% MDR-TB treatment success rate. Current drug susceptibility testing methods are slow for most drugs, taking weeks. Rapid molecular methods such as the line probe assays, e.g. Hain GenoType MDRTBplus and sl, provide resistant calls to only a limited number of drugs, and are often less useful in smear negative patients. Molecular technologies such as sequencing can provide a comprehensive readout of drug resistance and are able to detect resistant populations at very low levels (≤1%), thus enabling individualized therapy. This can be done directly from sputum. Targeted sequencing amplifies regions of genomic DNA associated with resistance prior to sequencing. Rapid analytic software is used to process the raw sequence data, identify resistance causing mutations and provide a readout of clinically relevant information. However, the feasibility, and more importantly the impact, of this approach has not been evaluated in a clinical trial to establish proof of concept. Aim 1: To conduct a randomised controlled trial to determine the impact of sputum-based targeted sequencing in detecting resistance to second-line TB drugs compared to the current programmatic standard of care (Hain MDRTBplus/sl and adjunct phenotypic drug susceptibility testing) when used to inform of treatment for MDR-TB. Aim 2: To compare currently available drug resistant sequencing pipelines for diagnostic accuracy, sensitivity, specificity and predictive value as compared to culture based phenotypic drug susceptibility testing. Aim 3: To compare the feasibility, accuracy, turn-aroundtime, and cost implications of the above-mentioned diagnostic approaches.

TS ELiOT is a stepped-wedge, cluster randomized trial assessing the effect of a next-generation sequencing-based strategy on rifampin-resistant tuberculosis management and patient outcomes.

In the context of the emergence of cases of multidrug-resistant tuberculosis (MDR-TB) it is crucial to improve patient's management. Therefore, assessing the place of innovative strategies enabling the diagnosis of those cases (e.g. WGS and Deeplex-MycTB) in the personalized care of patients with MDR-TB and the rationalization of medical biology procedures is a major issue. This project participates to these goals since the investigators will : (i) assess the diagnostic qualities and the performance of the different innovatives strategies enabling detection of resistance to anti-tuberculosis drugs, (ii) assess the impact of these strategies in the implementation of personalized treatments for MDR-TB patients, and (iii) assess the overall costs of these strategies.