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NCT05081401
The INSPIRE-TB study is a pragmatic, multicentre, randomised, controlled, non-inferiority open-label trial to evaluate the efficacy and safety of seven 9-month oral regimens compared to a 9-month standard of care (SOC) regimen in RR-TB participants susceptible to fluoroquinolones, and a bedaquiline-containing 9-month oral regimen compared to a 20-month conventional regimen in RR-TB participants resistant to fluoroquinolones
NCT05534750
The objective of this work is to measure the early bactericidal activity of tedizolid, to compare it with the bactericidal activity of linezolid (reference molecule for the treatment of multidrug-resistant tuberculosis) and with that of standard quadruple therapy (reference treatment of drug susceptible tuberculosis).
NCT03867136
The purpose of this study is to assess the efficacy, safety and tolerability of a combination of levofloxacin, linezolid, cycloserine and pyrazinamide (or clofazimine if resistant to pyrazinamide) treatments for 24 to 32 weeks (regimen consisted of clofazimine for 36\~44 weeks) in subjects with multidrug-resistant tuberculosis (MDR-TB) compared to WHO standardized shorter regimen of 36-44 weeks.
NCT05017324
The primary aim of this pragmatic trial is to determine the effectiveness of a Whole Genome Sequencing (WGS) Drug Sensitivity Testing (DST) strategy to guide individualised treatment of rifampicin resistant tuberculosis (RR-TB) patients. The primary objective is to determine the effectiveness of this WGS DST strategy in patients diagnosed with RR-TB. We will additionally perform an exploratory health economics evaluation of both arms, and will determine the feasibility of the WGS DST strategy.
NCT01859923
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).
NCT03604848
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.
NCT00727844
This study, conducted in Masan and Seoul, South Korea, investigated the effectiveness of linezolid (LZD) in treating patients with extensively drug resistant tuberculosis (XDR TB). Because regular medicines do not work well against XDR TB, many more people die from it than from regular TB, which can be successfully treated by taking TB medication for 6 months. Linezolid has been used to treat other kinds of infections, but has not been well studied for TB. This study examined the side effects and effectiveness of prolonged treatment with linezolid at two different doses. People 20 years of age and older who have XDR TB were eligible for this 3-year study. Participants underwent the following tests and procedures: * LZD treatment: Patients were randomly assigned to one of two study groups. Group 1 patients were observed for 2 months before starting LZD, while group 2 patients begin taking LZD right away. Both groups began with a 600 mg daily dose of LZD. After patients stopped coughing up TB germs (or after 4 months on LZD) they were randomly assigned either to continue taking 600 mg of LZD for the rest of the study or to take a decreased dose of 300 mg. In addition to LZD, patients continued to take their currently prescribed TB medications. * Medical history. * Physical examinations each month during treatment. * Sputum collections once a week or more until 3 weeks after the patient was no longer contagious. * Blood draws every week for 16 to 24 weeks and then once a month. * Urine collections at several time points. * Nerve and eye examinations before starting treatment and then monthly to look for possible LZD side effects. * CT scans of the lungs three to four times the first year and once more later in the study. For this test the patient lay on a table within the doughnut-shaped CT scanner while special X-ray pictures are taken. Patients who participated in a substudy had PET scans instead of the CT scans. For this test, the patient was given an injection into a vein of a radioactive chemical that can be detected by a special camera and viewed on a screen. The patient lay on a table within the doughnut-shaped scanner while pictures were taken.
NCT02496572
Multidrug resistant tuberculosis (MDR TB) is a growing problem and few people have access to adequate diagnosis and treatment. The current recommended treatment regimen for MDR TB has a minimum of 20 months duration with high toxicity. Scale up of MDR TB treatment is associated with high default rates, and experience in the Medecins Sans Frontieres (MSF) programme in Uzbekistan shows that the current standard treatment greatly limits the ability to scale up to meet the high rates of MDR TB in the region. Evidence from Bangladesh in 2010 showed that a 9-month short-course regimen could achieve a relapse-free cure rate of 88%. Several countries in West Africa started implementing similar regimens with similar outcomes. Evidence of effectiveness of this shortened regimen among regions with high second line drug use and resistance is still limited. The investigators propose an observational study under programmatic conditions to evaluate the effectiveness of a shortened course MDR TB regimen in the high MDR/extensively drug resistant (XDR) TB prevalence and high second-line drug resistance setting of Karakalpakstan, Uzbekistan.