View clinical trials related to Tuberculosis, Pulmonary.
Filter by:This study was a Randomized Controlled Trial conducted at Ojha Institute of Chest Diseases, Dow University of Health Sciences, Karachi, among pulmonary tuberculosis patients
This work aims to assess cardiopulmonary function and quality of life in people with sequelae of pulmonary tuberculosis undergoing rehabilitation. It is an experimental clinical study, with evaluation before and after the intervention. Included participants will be randomized and divided into a control group and an intervention group. Quality of life is examined by two questionnaires and physical fitness by specific tests, before and after the intervention. The intervention is the realization of a supervised physical exercise protocol.
A diagnostic validity study in which urinary LAM was done in seropositive HIV patients with symptoms suggestive of TB who were included and investigated with battery of tests to reach the final diagnosis.
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.
The purpose of the study is to compare the efficacy and safety of standard chemotherapy regimen 2HRZE/4HR plus IL-2 and standard regimen 2HRZE/4HR for newly diagnosed smear positive pulmonary tuberculosis.
The performance of a new triage test for active tuberculosis (TB), SeroSelectTB, will be qualified in multi-centre randomised controlled trials at health-posts in South Africa, Tanzania and Ethiopia. Cost effectiveness evaluations will be conducted to support a value proposition to stakeholders and regulatory authorities, and to support commercialization requirements. Consenting adults will provide blood and saliva samples for screening by SeroSelectTB, and sputum collected for routine TB diagnosis by the health services. Clinical and sociodemographic information will be collected. A reliable rapid test will make it possible to identify and selectively treat those with active TB at the local healthcare level. The expected impact includes accurate same-day diagnosis of patients with active TB, reduction of diagnostic delay and TB transmission, and diagnostic cost-savings for patients and healthcare systems in high TB-burden countries.
This study is being conducted to assess the antiretroviral activity of a fixed-drug, single tablet, combination of Bictegravir 50mg/ Emtricitabine 200mg/ Tenofovir alafenamide 25mg (Biktarvy®) dosed twice daily in HIV-1 infected, ART-naïve patients with TB co-infection receiving a rifampicin-based tuberculosis (TB) treatment regimen. This study will assess the activity of Bictegravir and dolutegravir-containing ART regimens in patients with drug-susceptible TB through 48 weeks
Tuberculosis (TB) is caused by mycobacterial organism. It is the leading infectious disease cause of death globally, with more than 10 million new cases and over 2 million deaths annually. Developing countries bear the greatest brunt of the disease. The long duration of current treatment is associated with poor compliance, thereby contributing to frequent relapses and to the emergence of drug-resistant TB. In addition, individuals who have been clinically cured may have lung damage, which could be permanent. Therefore, new and more effective therapeutic agents against TB are needed. Emerging evidence has shown that lipid lowering drugs like statins can make the TB bacteria more susceptible to current treatments. This proof-of-concept clinical trial will add the repurposed drug atorvastatin, commonly used to reduce cholesterol levels, to the standard therapies of TB patients in Nigeria. Atorvastatin is a well-tolerated and safe drug, and its addition is expected to accelerate clearance of the TB-causing bacteria without additional side effects. If this research is successful, it could provide evidence for using a common, easily available generic drug to improve treatment of one of the most debilitating infectious diseases.
It is known that there is a complex relationship between tuberculosis and COPD. Post-tuberculosis airway disease or COPD associated with tuberculosis occurs in a significant portion of tuberculosis patients. However, it was observed that mortality rates and exacerbation rates of COPD patients with tuberculosis sequel were higher. However, the effect of tuberculosis sequela on functional outcomes in COPD patients has not been investigated in the studies. The aim of this study is to determine whether the previous tuberculosis sequelae has a functional effect on patients with COPD.
The diverse microbial communities in different parts of the human body (microbiome) are important for health but understudied in pulmonary tuberculosis (TB), which is the single biggest infectious cause of death in the world. The investigators will study the site-of-disease microbiome (in the lung bronchoalveolar space) in TB cases to investigate how, before TB treatment, metabolic compounds made by microbes affect host biomarkers important for TB control. The investigators will ask this question again at the end-of-treatment and one year later. Specifically, the investigators will sample the lung at the active TB hotspot identified by imaging and compare this to a non-involved lung segment usually in the opposite lung. The investigators will compare the lung microbiome to other sites in the body (i.e. oral cavity, nasopharynx, supraglottis, and gut). A small amount of blood (~15 ml) will be collected to assess peripheral immunological correlates of the host microbiome. Protected specimen brushings of the lung will be used to explore transcriptomic signatures and how these relate to the lung microbiome. The investigators will also apply these questions to the same number of controls (healthy patients and patients with an alternative diagnoses). This will lay the foundation for clinical trials to evaluate if specific bacteria have diagnostic (e.g., PCR) or therapeutic potential (e.g., antibiotics, prebiotics, probiotics, vaccines) where targeting the microbiome could improve clinical outcomes.