View clinical trials related to Tuberculosis.
Filter by:The purpose of this study is to compare a 3-month rifapentine (RPT)/clofazimine (CFZ)-containing regimen with CFZ loading dose versus 6-month standard of care (SOC) for drug-susceptible (DS) tuberculosis (TB).
This is a single-dose, open-label, randomized, four-period, four-treatment, crossover study in healthy adult subjects.
The rapid diagnosis of tuberculosis (TB) in children remains a serious challenge owing to limitations in the existing diagnostic tests. TB meningitis (TBM), an extrapulmonary form of TB, is the most severe manifestation of paediatric TB. TBM results in high morbidity and mortality in children, despite the availability of chemotherapy, mainly due to diagnostic delay. Most tests required for proper TBM diagnosis including analysis of cerebrospinal fluid (CSF) and brain imaging are not available in resource-limited settings e.g., in most of Africa including South Africa. New tests for TBM are urgently needed. The main goal of this proposal is to develop a point-of-care (POC) diagnostic test for TBM, based on CSF and bloodbiomarkers. Aim 1: Evaluate the diagnostic potentials of 51 host inflammatory biomarkers that the investigators recently identified in CSF and blood samples from children with suspected meningitis in a repository of 100 stored CSF and serum samples using a multiplex platform. After statistical analysis including multi-marker modelling by linear discriminant analysis, random forest, and other modelling techniques, the investigators will select the best combination of up to four biomarkers for incorporation into the prototype diagnostic test (Aim 2). Aim 2: Incorporate the best performing CSF and serum biomarkers into a novel, patented biosensor-based POC diagnostic test. The investigators will develop a multi-biomarker prototype test for detecting up to 4 biomarkers in serum or CSF. Aim 3: Evaluate the newly developed POC test on 300 children prospectively. This will be done at the Tygerberg Academic Hospital. The diagnostic yield of the POC test will be compared to the routine diagnostic tests.
TB remains the foremost infectious disease killer globally. A startling statistic is that two out of every five TB cases globally (40%) remain undiagnosed and untreated. These 'missed' or undiagnosed cases are disproportionately concentrated in large peri-urban 'slums' and informal settlements of large cities in Africa and Asia (they are frequently minimally symptomatic but remain infectious). The lack of a sensitive low cost same-day test represented a major challenge to active community-based case finding (ACF) compared to the current model where patients 'self-seek' care (passive case finding). More recently, sensitive TB DNA-detection tests called Gene Xpert (Xpert) have become available. This is a nucleic acid amplification test-based technology which can rule-in a diagnosis of TB in two thirds of smear negative pulmonary TB cases. GeneXpert® has now been rolled out in many African countries and is the frontline TB test in primary care clinics in South Africa. The investigators recently showed that GeneXpert® significantly reduced the time to treatment initiation in the setting of passive case finding (elaborated in next section). The investigators further showed that GeneXpert® can be performed by a minimally trained healthcare worker. However, historically technical and logistical demands meant that the GeneXpert® MTB-RIF assay was not ideally suited to use at point of care and in South Africa it is still centrally located. Small portable battery-operated versions of these tests are now available (EDGE, GeneXpert two-module mobile platform). The investigators conducted a large study in South Africa and Zimbabwe (published in 2016) that showed that using the old non-portable version of Xpert on a mini-truck equipped with a generator was feasible and highly effective for ACF. A subsequent study funded by the American government (XACT II), showed that using the portable version of Xpert on the back of a small low-cost scalable panel van (in effect a mobile mini-clinic) was feasible and had a very high pick-up rate of TB in peri-urban communities (~10% of those undergoing targeted screening). In this study, the investigators will test the hypothesis that community-based active case finding (ACF) using Gene Xpert Edge (in a low cost scalable mini-mobile clinic) performed at point-of-care (POC) is feasible and more effective (lower proportion of TB cases failing to initiate treatment especially if they are 'super-spreaders' i.e. highly infectious) than Xpert performed in a centralised laboratory.
The overall aim of the mPATCH-TB Study is to identify potentially cost-effective, feasible and scalable interventions that could increase rates of completion of screening for tuberculosis and HIV among male partners of women attending primary health care in Blantyre, Malawi. Eligible women who consent to participate - and who have a primary male partner with cough at home -will be randomly allocated, by day of clinic attendance, into a standard of care group or one of up to four intervention groups. They will be asked to identify their primary male partner and will be offered interventions according to their allocated group. The primary outcome will compare the proportion of primary male partner that complete TB screening (defined as receipt of result of a sputum Xpert or smear result) within 14 days of recruitment in each intervention group compared to the enhanced standard of care group.
Tuberculosis (TB) is the leading cause of death by infectious disease in the world, responsible for 1.6 million deaths in 2017. The treatment of active TB requires at least a 6-month combined antibiotic regimen and can cause heavy side effects. As a consequence, treatment adherence is not optimal, particularly in primary care settings. Rapid and reliable monitoring of anti-TB treatment adherence and efficacy is critical to provide adequate patient care and curb relapse episodes and acquired drug resistance. Investigators propose to evaluate the performance in terms of diagnosis accuracy and outcome prediction of four new biomarkers of active TB: 1) a double IGRA (Interferon Gamma Release Assay) including QuantiFERON-Gold Plus® and HBHA; 2) a whole blood transcriptomic analysis of mRNA (messenger Ribonucleic acid) expression of a panel of 150 genes; 3) a whole blood proteomic analysis; 4) an ex vivo immunophenotyping using flow and mass cytometry to characterize the lymphocyte populations.
This project aims to standardize the management of "Pharmaceutical care with the two-way text messages and incentive for mobile usage during the treatment for tuberculosis patients, to improve the outcomes and compliance, reduce the risk of transmission and to evaluate the patient perspective in terms of their quality of life, shared decision making and satisfaction with services provided.
To determine if a high-dose first-line regimen is non-inferior (non-inferiority margin 10%) in terms of safety to the same regimen at regular dosing, in previously treated patients with rifampicin-susceptible recurrent Tuberculosis (TB).
Rationale: Multidrug-resistant tuberculosis (MDR-TB) is defined as tuberculosis resistant to isoniazid and rifampicin. The incidence of MDR-TB worldwide is 3.9% for new cases and 21% for previously treated cases. However, the incidence of previously treated cases can rise to above 50% in eastern European countries. With increasing frequency of MDR-TB (and even extensively drug-resistant types), morbidity and mortality due to TB fail to decline worldwide. Amikacin, one of the drugs against MDR-TB, has the most potent effect when reaching a high peak serum concentration and this means that high doses have to be administered. Treatment with amikacin by inhalation would be a tremendous advantage due to the high local dose in the lungs, obtaining high local levels without the possible toxicity due to high serum levels. With the currently available inhalation techniques these local levels cannot be reached easily. In this protocol, the investigators will perform a pharmacokinetic and local tolerability study of dry powder amikacin using the Cyclops™ in patients with drug susceptible tuberculosis. Objective: - primary objective is to investigate the pharmacokinetic properties of dry powder amikacin at different dosages and compare the peak serum values to a single i.v. dose. - secondary objective is to assess the local tolerability of dry powder amikacin via the Cyclops™ at different dosages. Study design: single center, active control, ascending dose response study Study population: 8 patients with DSTB. Main study parameters/endpoints: the following pharmacokinetic parameters: actual dose (dose minus remainder in inhaler after inhalation), AUC0-24 (area under the curve from 0-24 h), Cmax (maximum serum concentration), Tmax (time to maximum serum concentration). For the local tolerability the following procedures will be done, drop of FEV1 of >15 % (lung function measurement) and any other reported adverse event are all considered critical to decide on proceeding into a phase 2B (and/or a phase 3) trial. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: All participants included in this study are patients with DSTB, who are admitted at the Tuberculosis Center Beatrixoord. They will receive 3 different doses of amikacin using the DPI with (at least) one week in between doses, they will also receive one dose of intravenous amikacin. Before using the dry powder inhaler (DPI) they will receive instructions and their inspiratory flow will be tested. Before each test dose an indwelling cannula will be inserted and before and after each test dose in total 9 blood samples will be collected. To investigate local tolerability, lung function tests will be performed and the occurrence of adverse events will be scored.
Approximately 225 samples, obtained from participants with varying risk factors for TB infection and disease, will be tested using the QFT Access Kit and the comparator device QFT-Plus.