View clinical trials related to Tuberculosis.
Filter by:It has been estimated that 1.7 billion people have tuberculosis (TB) infection; yet current tests are unable to predict which people are at highest risk of developing TB disease, which can be life-threatening. THWART-TB is a prospective longitudinal cohort study of health workers (HWs) in Cape Town, South Africa, where our preliminary data reveals HWs have a high annual TB infection risk (34%). This cohort, who will undergo frequent serial evaluation (every 3 months) with a combination of novel assays never previously evaluated together, presents a unique opportunity to evaluate immune responses at the time of initial infection and to characterize the dynamic profile of these immune responses over time in a high-risk population. The knowledge generated will improve our understanding of TB infection and help to identify which people exposed to TB may remain at risk, enabling us to better target preventive strategies.
This study will compare community-delivered, multi-month dispensing of tuberculosis preventive therapy (TPT) to standard-of-care clinic-based TPT delivery in a population of South African adults who are recommended to receive TB preventive therapy. We hypothesize that persons receiving multi-month dispensing of TPT in the community will have a higher rate of TPT completion at 3 months than persons receiving TPT via standard of care with monthly clinic-based refills.
This study is being done to test an experimental study vaccine compared to a placebo. The experimental study vaccine is called ID93 + GLA-SE. ID93 + GLA-SE has been used in humans in research but has not been approved for use in medical care. This study will be the first to test ID93 + GLA-SE in people living with HIV (PLWH). The injections during the study will be given to different groups of participants while they are using standard TB treatment. One of the research questions is to understand the differences in immune system responses depending on the timing of giving the injections after people begin taking standard TB treatment. Researchers also want to continue to look at whether the study vaccine is safe when tested in a larger group of people, and if getting the study vaccine in addition to standard TB treatment can help to lower the number of poor TB outcomes that people might have.
Tuberculosis (TB) is caused by mycobacterial organism. It is the leading infectious disease cause of death globally. According to recent estimates from the World Health Organization (WHO), over 10 million new cases and 1.6 million deaths from TB occurred in 2021. The vast majority of TB cases and TB deaths are in developing countries. Nigeria has the highest TB burden in Africa with a high number of undetected TB cases as well. The spread of HIV has fueled the TB epidemic, and TB is the leading cause of death among patients infected with HIV and has assumed the lead position as the number one infectious disease cause of death globally. Even though the COVID-19 was associated with a huge mortality, TB contributed significantly to death and one of the single predictors of death among COVID-19 infected individuals. TB predominantly affects young adults in their most productive years of life and has substantial impact on economic development. Emerging evidence has shown that lipid lowering drugs like statins can make the TB bacteria more susceptible to current treatment regimen. The ATORTUB group recently completed Phase II A and Phase IIB studies to assess the safety, tolerability and efficacy of atorvastatin when administered with the current standard of care. The investigators demonstrated that atorvastatin is well tolerated, save, and has beneficial microbiological and radiological impacts in tuberculosis, thus, warrants further studies. This phase IIC trial sets out to evaluate the safety and efficacy of different doses of atorvastatin containing regimen, determine rate of decline of viable sputum bacilli, the time to stable sputum conversion, improvement in chest ray severity scores and lung function parameters post randomization in the different treatment arms. The phase II C is a Selection Trial with Extended follow-up STEP and has been devised as a pilot phase III where patients are studied for longer period (12months post randomization) than the usual phase IIB. Thus, providing additional data that will justify a successful phase III trial.
A5409/RAD-TB is an adaptive Phase 2 randomized, controlled, open-label, dose-ranging, platform protocol to evaluate the safety and efficacy of multidrug regimens for the treatment of adults with drug-susceptible pulmonary tuberculosis (TB). A5409 hypothesizes that novel regimens for the treatment of pulmonary tuberculosis will result in superior early efficacy, as determined by longitudinal mycobacteria growth indicator tube (MGIT) liquid culture time to positivity (TTP) measurements over the first 6 weeks of treatment, and will have acceptable safety and tolerability over 8 weeks of treatment relative to standard of care [(SOC) isoniazid/rifampicin/pyrazinamide/ethambutol (HRZE)]. The study will run for 52 weeks, inclusive of 26 weeks of TB treatment comprised of 8 weeks of experimental or SOC treatment (based on treatment arm assignment) followed by 18 weeks of SOC treatment with 45 participants in each experimental treatment arm and at least 90 participants in the SOC arm.
Introduction: Tuberculosis (TB) infection is a key driver of the TB pandemic, with over 10.6 million people fell ill with TB disease in 2022. About one-quarter of the global population is estimated to be infected with TB bacteria. Around 5-10% of people with TB infection will develop active and contagious TB disease, which could be largely avoided if TB infection is identified and given effective preventative treatment, before progression to active disease. The long treatment of TB infection with regimens lasting from three to nine months is a significant barrier to treatment completion in individuals with a confirmed diagnosis of TB infection. Adapting a shorter regimen than the current regimens could lead to a higher treatment completion rate and increased uptake of preventative therapy for TB, as well as reduced side effects. Methods and analysis: An open-label, randomized clinical trial (1:1) will be performed in two study sites in Ha Noi, Vietnam (Vietnam National Lung Hospital and Ha Noi Lung Hospital). Adult household contacts (n=350) of people with new, bacteriologically-confirmed, pulmonary, drug-susceptible TB who initiate treatment will be invited to participate. Aim: To compare the TB preventive therapy completion rates and adverse event incidence between a new one-month regimen (1HP) versus the current three-month regimen (3HR)*. *1HP= one month of daily isoniazid (H/INH) and rifapentine (P/RPT) 3HR= three months of daily isoniazid (H/INH) and rifampicin (R/RIF)
Despite tremendous efforts, an effective tuberculosis (TB) vaccine remains elusive. TB continues to infect and kill many. In 2021, TB infected more than 10 million and killed 1.6 million people. To date, the M.bovis bacille Calmette Guerin (BCG) is the only licensed vaccine against tuberculosis (TB). Efforts to come up with new and effective vaccines have not been successful. Partially, the lack of suitable disease models and protection correlates hinders the research of new vaccines. Controlled human infection model studies (CHIM) involve administering disease-causing microbes to healthy individuals, with continued monitoring of disease response. These studies have been used to study malaria, typhoid, pneumococcal pneumonia and the recent SARS-CoV-2 vaccines. The BCG-Controlled Human Infection Model (BCG-CHIM) will allow accurate dosing with safe mycobacteria as well as minimal tissue sampling to understand immunity to mycobacteria. Considering that the M. bovis BCG is a safe living Mycobacteria, it can be used as a CHIM against which to test new vaccines.
Tuberculosis is a chronic, necrotic infectious disease with very different clinical appearances, caused by a group of mycobacteria defined as M. tuberculosis complex. Although there is a vaccine and can be treated with combined medications, this health problem remains important all over the world, especially in poor countries. Generally, respiratory symptoms that occur in a person with tuberculosis include cough, phlegm, hemoptysis, chest pain, and shortness of breath for more than three weeks. If there is a partial obstruction in the bronchi due to the compression of enlarged lymph nodes, it causes a whezing sound accompanied by shortness of breath. In tuberculosis, contagion is brought under control with effective treatment by regular use of drugs. In addition, the symptoms of the patients are relieved until they recover. However, the fatigue of the patients may continue. The disease may continue. In addition to having an effect, fatigue may also occur due to the side effects of many tuberculosis drugs. Therefore, patients experiencing fatigue while taking tuberculosis drugs may cause them to become uncooperative in drug use, multidrug-resistant tuberculosis, serious complications and higher treatment costs. Another method used in addition to the treatment of chronic respiratory system diseases such as tuberculosis is pulmonary rehabilitation.Pulmonary rehabilitation consists of patient education, psychosocial support, aerobic and strengthening breathing exercises and physical training programs. Among the breathing exercises that are considered to be one of the important components of pulmonary rehabilitation, pursed-lip breathing and diaphragmatic breathing exercises are frequently used in chronic respiratory system diseases. However, no study has been found examining the effects of pursed-lip breathing and diaphragmatic breathing exercises on fatigue in tuberculosis patients. Pursed-lip breathing technique ensures maximum emptying of the alveoli by providing controlled expiration, thus helping to reduce the respiratory rate by increasing the activity of the inspiratory and expiratory muscles, increasing gas exchange and tidal volume. During diaphragmatic breathing exercise, since the diaphragm muscle is used instead of accessory muscles, the respiratory load decreases, thus the ventilation level of the lungs increases and breathing is supported. It has been reported in the literature that the deep breathing technique is effective in controlling the emotional states of tuberculosis patients, and that deep breathing exercises applied to pulmonary TB patients are effective in reducing the respiratory rate. However, since no study was found in the literature review that evaluated the effect of breathing exercise applied to TB patients on fatigue, this study was planned to examine the effect of breathing exercise applied to patients diagnosed with TB on fatigue.
This study aims to compare the diagnostic yield of bronchoalveolar lavage (BAL) using a thick conventional bronchoscope and bronchial washing (BW) using a thin bronchoscope in the diagnosis of pulmonary tuberculosis.
Anti-Tuberculosis Treatment (ATT) is one of the effective treatments of tuberculosis but the use of drugs for a long time put an adverse effect on the gut and other organs of the body. Nutraceuticals are the cheapest natural sources with therapeutic effects. These natural medicines help in alleviating gastrointestinal disturbances. This study will be conducted to overcome gastrointestinal issues with the help of nutraceuticals, which are more acceptable by the majority and have no side effects.