A Trial to Evaluate OPC 67683 in Participants With Pulmonary Sputum Culture-positive, Multidrug-resistant...
TuberculosisPulmonary3 moreThis is a clinical trial to evaluate the safety and efficacy of OPC-67683 in the treatment of multidrug resistant tuberculosis (MDR TB) for 56 days. In addition to an optimized background regimen (OBR), participants will be randomized to receive: 100 mg OPC-67683 twice daily (BID) 200 mg OPC-67683 BID Placebo BID After 56 days participants will complete their optimized background regimen (OBR).
Linezolid to Treat Extensively-Drug Resistant Tuberculosis
Pulmonary TuberculosisMultidrug Resistant Tuberculosis1 moreThis 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.
High-Dose Isoniazid Adjuvant Therapy for Multidrug Resistant Tuberculosis
TuberculosisMultidrug-ResistantThe need for a standardized treatment protocol for multidrug resistant tuberculosis (MDR-TB) in resource-limited countries is being increasingly recognized. This single center, double blind, randomized controlled trial was designed to compare the time required for sputum culture conversion and extent of radiological improvement in cases of MDR pulmonary tuberculosis when isoniazid was included (both at a regular dose and at a high dose) as an adjuvant to the standardized second line of treatment. The study was designed to test the hypothesis that inclusion of high-dose isoniazid will enhance the effectiveness of the second line of treatment in cases of MDR-TB without significantly increasing the toxicity.
Behavior Change and Digital Health Interventions for Improved TB Treatment Outcomes
TuberculosisAdherence4 moreEach year, 10.4 million patients are diagnosed with and 1.7 million people die from Tuberculosis (TB). Despite the availability of highly effective and accessible medications in the developing world where TB is endemic, the 6-18 month treatment regimen is often thwarted as patients fail to comply due to a lack of knowledge about the disease, desire for privacy, and/or stigma avoidance. Successful TB treatment is critical for reducing transmission, the selection of drug-resistant strains and treatment costs. Mobile health interventions promise to increase treatment success, especially in regions where directly observed treatment (DOT) is impractical. The most promising interventions attempted thus far employ a combination of SMS reminders and medication monitors. However, there is relatively little high-quality evidence on their impact, and what evidence there is shows mixed success. In Kenya, the burden of TB is among the highest in the world with a prevalence rate of 558 cases per 100,000 people. There is a great need for the development of alternative protocols, which reduce the costs of treatment and burden of adherence, and more effectively motivate patients to adhere to the program. A substantial and growing literature in the social sciences demonstrates the potential of behavioral interventions for generating large increases in contributions to public goods. Keheala, a feature-phone and Internet-based digital platform that uses Unstructured Supplementary Service Data (USSD) technology to register a patient's self-verification of medication adherence alongside support and motivation, based on proven techniques from the behavioral sciences, was shown in a 1,200-patient randomized controlled trial (RCT) to reduce the unsuccessful TB treatment outcomes in Kenya by two-thirds compared to the standard of care protocol. This 15,500 patient RCT will compare Keheala's scalability, cost-effectiveness and social impact to alternative interventions across diverse regions of Kenya.
A Study in Two Panels of Healthy Adult Participants to Assess Single-Dose Immediate-Release and...
Multi-drug Resistant TuberculosisThis is a single-dose, open-label, randomized, four-period, four-treatment, crossover study in healthy adult subjects.
The Effect of 18-month Regimen Containing 6 Anti-tuberculosis Drugs for Patients With MDR-TB
Multi-drug Resistant TuberculosisWHO has recommended that multidrug-resistant tuberculosis (MDR-TB, defined as resistance to at least isoniazid (H) and rifampicin (R) be addressed as a public health crisis and enhance capacity to deliver effective treatment and care. According to the 2018 WHO TB Report, the overall treatment success rate of MDR-TB is 55% while much lower in China at just only 41% with the 24-month regimen. In order to further verify the safety and efficiency of optimizing shorter 18-month regimen containing 6 anti-TB drugs with MDR-TB patients,500 more patients will be enrolled and observed.
Drug Interaction Study Between Linezolid and Clarithromycin in Tuberculosis Patients
Multidrug-resistant TuberculosisExtensively Drug-resistant TuberculosisFuture patients might benefit from a combination of linezolid (LIN) and clarithromycin (CLA) in the treatment of Multidrug-resistant and Extensively Drug-resistant Tuberculosis (MDR/XDR-TB) due to possible synergistic activity as shown in in vitro experiments in different Mycobacteria strains. The investigators observed increased LIN serum levels in three cases after combining LIN and CLA of which the investigators described one in a case report (Bolhuis et al). The investigators suggest to conduct a prospective pharmacokinetic study in MDR- and XDR-TB patients to quantify the above described interaction between LIN and CLA.
To Evaluate the Safety, Tolerability, and Efficacy of TMC207 as Part of an Individualized Multi-drug...
TuberculosisThe purpose of this study is to evaluate the safety, tolerability and effectiveness of TMC207 in combination with an individualized background regimen (BR) of antibacterial drugs as treatment for MDR-TB
Metronidazole for Pulmonary Tuberculosis (South Korea)
TuberculosisMulti-Drug Resistant TuberculosisThis study will evaluate the effect of adding metronidazole to standard second-line therapy for tuberculosis in patients who have multi-drug resistant tuberculosis (MDR-TB) of the lungs. It will evaluate the safety and tolerability of metronidazole in combination with antituberculosis agents. Metronidazole is a drug widely used to treat bacterial and parasitic infections occurring in environments with very little oxygen such as the human colon. Nine million new cases of sputum-positive tuberculosis are diagnosed worldwide each year. Patients ages 20 and older who have symptoms of TB, who have been treated for tuberculosis but whose disease is multi-drug resistant, and who are not pregnant or breast feeding may be eligible for this study. They will be recruited in the National Masan Tuberculosis Hospital (NMTH), Masan, Republic of Korea. Patients will undergo the following tests and procedures: Collection of sputum for counting of bacteria. Drawing of blood for routine blood chemistry analysis; for measuring levels of metronidazole; TB lipid analysis; and for testing levels of T-cells, which are part of an immune response. Two targeted positron emission tomography (PET) scans, each with a computed tomography (CT) scan, and five high-resolution CT scans. Patients will receive either an 8-week course of standard second-line agents plus placebo (sugar pill) or an 8-week course of standard agents plus metronidazole. The subjects, doctors and researchers will not know which patients are taking the metronidazole until after the first 2 years of the trial. A total of 60 patients will be assigned to two cohorts of 30 patients each. After 8 weeks, all patients will return to the standard of care chemotherapy, according to normal procedures at NMTH. Side effects of metronidazole commonly reported are vaginal discharge, symptoms of Candida cervicitis and vaginitis, headache, nausea and vomiting, and dizziness. Peripheral neuropathy, an abnormal condition of the nerves, may also be a side effect. The precise incidence of neuropathy is unknown but is usually related to the duration of metronidazole use. It can almost always be reversed when the drug is discontinued. Serious side effects, though rare, may include leukopenia and thrombocytopenia (disorders in the blood), seizures and other central nervous system problems, and hepatitis. This study may or may not have a direct benefit for participants. However, it is possible that patients' drug-resistant disease may be more effectively treated as a result of metronidazole. The study may help identify new methods for measuring drug effectiveness during TB studies.
Interferon Gamma for Drug Resistant Tuberculosis
PneumoniaPulmonary TuberculosisThis study will determine what dose of recombinant interferon-gamma is safe and effective for treating multiple drug-resistant tuberculosis. Recombinant interferon-gamma is a genetically engineered form of a substance normally produced by the body and is used to boost immune function. Patients 5 years of age and older with multiply drug-resistant tuberculosis may be eligible for this study. Participants will be admitted to either the NIH Clinical Center in Bethesda, Maryland, the Texas Center for Infectious Diseases in San Antonio or the South Texas Hospital or Valley Baptist Hospital, both in Harlingen, Texas. On admission, patients will have a medical history, physical examination, blood and urine tests, sputum culture, X-rays, pulmonary function tests and a computed tomography (CT) scan. CT produces 3-dimensional images of body tissues and organs in small sections. For the procedure, the patient lies still on a table surrounded by the scanner. All patients will continue treatment with anti-tuberculosis antibiotics during and after the study period and may elect whether or not to take gamma interferon in addition to the antibiotic. Five patients will receive only antibiotic treatment, and 5 each will receive one of 3 doses (0.025, 0.05 or 0.1 milligrams per square meter of body surface area) of interferon-gamma injected under the skin 3 times a week. The patient or caregiver will be taught to give the injections, which are similar to insulin injections for diabetes. Patients will be in isolation in the hospital from the start of therapy until sputum samples show no evidence of tuberculosis for 3 consecutive weeks. Following that, they will repeat the tests done on admission (except CT) during follow-up visits (1- to 2-day hospitalizations) at 3, 6, 9, 12, 15, 18 and 24 months after the start of therapy. Patients taking interferon gamma will have blood drawn more frequently (monthly) for the first 6 months, and patients with lung infection will have sputum samples collected more frequently-weekly for the first 3 months or until three consecutive negative samples are obtained and then monthly throughout the course of therapy. Patients with lung infection will also have repeat CT scans at 6 and 12 months while on interferon gamma. In one or two patients on the drug, blood will be drawn frequently following one injection of gamma interferon (just before the injection and again at 0.25, 0.5, 1, 6, 12, 18, 24 and 48 hours after it) to see if a difference in blood levels of the drug can be detected.