View clinical trials related to Tuberculosis, Pulmonary.
Filter by:PET/MRI (positron emission tomography/magnetic resonance imaging) with somatostatin analog tracers has the potential to provide an imaging technique targeting subclinical granulomatous disease in those with latent tuberculosis (TB), allowing identification of individuals who may be at risk of progression to active TB.
Tuberculosis (TB) is a major cause of death among the "communicable" diseases in the world. Pulmonary TB, the main localization, leads to the dissemination of cases. An earlier diagnosis of contagious pulmonary TB is a cornerstone to stop the air transmission. The aim of the study will be to compare two strategies, in patients with a chest-X-ray in favour of contagious pulmonary TB: the classical strategy of sputa collection during three consecutive early mornings, versus the studied strategy of sputa collection at hour h, hour h+1, hour h+2 during the first early morning.
The purpose of this study will be to determine the performance characteristics of TBDx with culture as a gold standard. In addition, the investigators will assess the laboratory technicians' appraisal and technical suitability of the TBDx system.
The purpose of the study is to evaluate the safety and efficacy of two shortened regimens for newly diagnosed smear positive drug susceptible pulmonary tuberculosis in comparison to World Health Organization recommended standard 6-month regimen.
Imaging using 68Ga-DOTANOC PET (positron emission tomography) has the potential to detect granulomas in pulmonary tuberculosis, leading to previously unexplored indications for this PET tracer, including identification of subclinical disease in latently infected individuals. This study aims to assess the ability of 68Ga-DOTANOC PET/MRI to detect pulmonary lesions in individuals with active pulmonary tuberculosis.
A Prospective, Randomized, Open, Active-controlled, Interventional, Exploratory, Phase II Trial of LCB01-0371.
Background: Tuberculosis (TB) is a bacterial lung infection. Typical treatment using anti-TB drugs lasts about 6 months. Some people with less severe TB might not need to take the drugs that long. Researchers think a PET/CT lung scan along with estimating how much TB is in the lungs might show who will be cured after only 4 months of treatment. Objective: To demonstrate that 4 months of treatment is not inferior to 6 months of treatment for people with less severe TB. Eligibility: People 18-75 years old who have TB treatable with standard TB drugs Design: Participants will be screened with: Medical history Physical exam Blood and urine tests HIV test Sputum sample: Participants will be asked to cough sputum into a cup. Chest x-ray Participants will start TB drugs. They will have visits at weeks 1, 2, 4, 8, 12, and about 6 more times during the 18-month study. Visits include: Sputum samples Physical exam Blood tests PET/CT scans at 2-3 visits: Participants fast for about 6 hours before the scan. Participants get FDG, a type of sugar that gives off a small amount of radiation, through an arm vein. They lie on a table in a machine that takes pictures of the body. Chest x-rays at 1-2 visits Participants who we believe are likely to be cured at 4 months will be randomly assigned to get either 6 months of treatment or 4 months of treatment. Participants may be asked to join a substudy using their sputum samples or additional blood tests.
Background: Drug resistant tuberculosis is a serious public health problem that threatens the health of human life and the development of society and economy. At present, the diagnosis of drug-resistant tuberculosis mainly depends on traditional drug susceptibility test. But it is limited in Mycobacterium tuberculosis slow growth speed, traditional solid drug sensitivity test usually need to 3 months to results, delay the development of drug resistance in patients with effective treatment. Probe melting curves resistance detection technology is the recent emergence of a new molecular biology and drug resistant tuberculosis detection technology, probe melting curves with different fluorescent labeled probe coverage detection specific to M.tuberculosis drug resistance determining region, through changes in the melting point of the probe hybridization, acquire mutation information of detection region, shorten detection time and detect nonuniform resistance. In this study, by selecting a nationally representative in different levels of hospitals jointly launched multi center, large sample clinical assessment, completed the comprehensive evaluation of sensitivity, specificity and health economics of drug resistant pulmonary tuberculosis, especially resistance to multidrug and extensively drug-resistant TB patients detection,in order to evaluate the rapid, accurate and economic and appropriate technology of drug resistance pulmonary tuberculosis detection. In order to accomplish the overall goal of the project, in the framework of the overall design, according to the principles of the core tasks are divided into four sub topics, namely: Sub topic 1 of the core mission is included in 3100 cases of smear positive pulmonary TB suspicious symptoms, from which selected more than 1000 cases of drug-resistant pulmonary tuberculosis patients, using MGIT liquid culture and drug sensitivity test as the gold standard,evaluate the sensitivity and specificity of probe melting curves in detction of resistance of four kinds of anti tuberculosis drug to Mycobacterium tuberculosis; Sub topic 2 core task is including at least 500 cases of culture positive pulmonary tuberculosis patients and treatment follow-up, using MGIT liquid culture and drug sensitivity test as the gold standard, evaluate the application value of probe melting curves for monitoring spectrum changes of drug resistance of Mycobacterium tuberculosis during pulmonary tuberculosis treatment. The core mission of sub topic 3 is to project implementation of hospital as the research site,acquire the cost-effect evaluation and analysis by comparing probe melting technology with Mycobacterium tuberculosis MGIT liquid culture, and drug sensitivity test with xpert MTB/RIF technology.
Pulmonary cavitation, a hallmark of tuberculosis (TB), is the site of high mycobacterial burden leading to disease transmission. The cause of tissue destruction leading to cavitation in TB is primarily due to the host inflammatory response. A matrix degrading phenotype develops in TB, in which the activity of host proteolytic enzymes, specifically matrix metalloproteinases (MMPs) is unopposed by their specific Tissue Inhibitors of Metalloproteinases (TIMPs), thus driving tissue destruction and cavitation in TB. This tissue destruction causes morbidity and mortality. MMP inhibition with doxycycline has shown to improve lung function in patients with chronic lung diseases but its use in TB is unclear. We hypothesise that the MMP inhibitor doxycycline will reduce tissue destruction in human pulmonary tuberculosis. Specific aims: - To investigate the MMP and TIMP secretion and gene expression in M. tuberculosis (M.tb) - infected primary neutrophils and monocytes from healthy volunteers taking doxycycline. - To investigate the intracellular signaling pathways modulated by doxycycline - To investigate the effects doxycycline has on biological markers of tissue destruction in TB patients - To assess the tolerability and side effects of doxycycline with concurrent standard TB therapy
Determine the diagnostic accuracy for pulmonary tuberculosis in adults of the E-Nose in Venezuela.