View clinical trials related to Tuberculosis.
Filter by:Multi-drug resistant tuberculosis (MDR-TB) is steadily increasing world-wide, urging for the need of improved treatment strategies. In order to protect the few available drugs that are left, ensuring adequate plasma concentrations of the drugs are important. Individualized therapy using plasma drug concentrations and minimal inhibitory concentration (MIC) determination may be of importance (1). The plasma drug concentrations and the MICs of the second-line drugs will be compared, aiming at increasing the knowledge about pharmacokinetic/pharmacodynamic (PK/PD) indices in the treatment of MDR-TB. In the future, the aim is an individualised therapy, where sub-therapeutic drug concentrations can be adjusted by the use of therapeutic drug monitoring (TDM). TDM in the treatment of MDR-TB may improve clinical outcome for the patients, but plasma concentrations must be assessed together with clinical and microbiological factors (2). In this observational study the hypothesis is that the ratio between drug concentrations and MICs of the anti-tuberculous drugs, are correlated to the time to sputum culture conversion, the bacterial load measured as time to positive liquid culture (TTP) and clinical outcome. Consenting adult patients with pulmonary MDR-TB patients in China will be recruited. MIC-determination of Mycobacterium tuberculosis will be performed in BACTEC 960 MGIT and drug concentration will be determined at 2, 4 and 8 weeks after treatment initiation using liquid chromatography tandem mass spectrometry (LC-MS/MS), simultaneously assessing Dried Blood Spot (DBS) as a bio-sampling method. Sputum cultures will be obtained regularly throughout the treatment to measure the time to culture positivity (TTP). Clinical follow up according to WHO criteria will be performed at the end of treatment completion.
The study is a pragmatic cluster randomized trial that is being conducted in 5 countries, with sites in 4 cities in Canada, Benin, Ghana, Indonesia and Vietnam. The unit of randomization is the health facility (24 health facilities randomized). The trial tests a complex intervention-a two phase programmatic public health package which includes a standardized public health evaluation and analysis, to identify problems and barriers limiting Latent Tuberculosis Infection diagnosis and treatment among close contacts of active Tuberculosis cases. This will be followed by implementation of appropriate solutions and strengthening of the LTBI clinical program. The primary objective will be to estimate the increase the number of household contacts initiating LTBI treatment per newly diagnosed index patient, within 3 months of diagnosis of the index patient. A secondary objective is to evaluate the cost effectiveness of this two phase intervention. If successful, this approach can be expanded throughout these countries. After initial preparations, including administrative and ethical review, all participating sites will be randomized to intervention or control. Immediately after this, Phase 1 will begin in intervention sites with the standardized public health evaluation to identify barriers to LTBI diagnosis and treatment initiation and the selection of solutions to be used in Phase 2. To ensure standardization of data gathering research staff will use (i) current indicators of the Latent Tuberculosis Infection cascade of care in intervention facilities (number of contacts per index case registered, investigated, started on treatment and completing treatment) and (ii) interviewer administered questionnaires for patients with active pulmonary Tuberculosis, adult and child household contacts and clinic staff. These questionnaires will assess latent Tuberculosis-related knowledge, attitudes and beliefs from the perspective of these different participants. Results from intervention sites in Phase 1 will be analyzed, and used by the investigators, together with local public health officials, to decide on appropriate corrective solutions in each sites. Contact Investigation registries will also be developed with research staff from sites. In Phase 2, solutions for problems identified will be selected and implemented at the intervention sites, Contact Investigation registries will be implemented and clinical training will be provided to strengthen LTBI health care worker knowledge and clinical programs. Study outcomes and costs will be measured at all intervention and control sites throughout Phase 1 & 2. The main study will run for 18 months. Upon completion of the main study, a 1 year cross over study will be conducted where control sites will receive a streamlined version of the intervention and original intervention sites will be used to evaluate the sustainability of the intervention. Results will be disseminated within each country through existing links with National Tuberculosis Programs, and through international organizations such as the World Health Organization.
The purpose of this study is to compare three strategies for finding TB cases in a rural Sub-Saharan African setting: 1) Screening all attendees of primary care clinics for TB; 2) Conducting household contact investigations of newly diagnosed TB cases; 3) Providing incentives to newly diagnosed TB cases and their contacts to promote contact screening for TB. For each intervention, investigators will measure comparative effectiveness in terms of cases identified as well as the cost-effectiveness and feasibility of implementation.
The investigators recruit about 1800 cases participants who has signed ICF,then do some physical examinations for these people, including ecg, X-ray, HIV,blood pressure, specific gamma-interferon detection ,collection of medical history and the like .These subjects who meet the standard are considered as study population I. Population I are injected intradermally with ESAT6-CFP10 and Tuberculin purified protein derivative(TB-PPD) at different arm of the same subject and get at least 360 participants whose three kinds of detection result are all negative and are considered as study population II.Then,they are immune to the Bacillus Calmette -Guerin(BCG) vaccine or the placebo of the BCG.Do specific gamma-interferon detection before the skin test,then inject intradermally with ESAT6-CFP10 and TB-PPD at different arm of the same subject 12 weeks after immunity.
Novel approaches to improve TB treatment outcomes (to reduce morbidity, mortality, and the duration of TB treatment) and to treat XDR-TB cases are urgently required. Host-Directed therapies (especially repurposed drugs such as Non-Steroid AntiInflammatory Drugs NSAIDS) could be useful in this context, and therefore the appropriateness and potential effect of this approach needs to be evaluated in humans. Investigators do propose a prospective, randomized, pilot study to estimate the potential efficacy and safety of using adjunctive ibuprofen for the treatment of XDR tuberculosis.
Linezolid, primary treatment for MDR-TB combination therapy anti. Until it is the dose of 600 mg x1 / day, rather sensible for most patients is more, which was unanimous. It is true that if a dosage is consensus, it goes without saying, because of the interindividual variability, marked moreover to linezolid, a therapeutic monitoring assay of plasma levels is indispensable for most pharmacological treatments. This therapeutic drug monitoring (TDM) often gives rise, as known, to dosage changes. It turns out that at present no real STP on the basic objectives PK / PD is really made in France in the treatment of tuberculosis (TB) and the bibliography remains rather poor recommendations, and yet all the elements are there: indeed linezolid is an antibiotic whose activity is purely "time-dependent". So one should fulfill 2 PK / PD objectives whose precise boundaries are sometimes still to be determined: -% T> MIC, or percentage of time spent with plasma concentrations above the minimum inhibitory concentration of linezolid (LNZ) for Mycobacterium tuberculosis. In practice, the residual concentration before the next shot must be> MIC (0.125 to 1 mg / l) - A fortiori it must also take into account the concentration preventing the appearance of resistant mutants, amounting to 1.2 mg / l - AUC / MIC> 80, or ratio of the area under the curve (AUC, Area under curve) of plasma concentration versus time and CMI LNZ Until then, and without real bibliographic support, and for the sake of kindness to patients coupled with an economic advantage, the STP consisted of 2 samples, a peak 1:30 after taking (Cmax) and a residual before taking (C min) , after all, to 600mg x1 / 24 correlates well with the AUC (55% peak and 75% for the residual). Following an observation that 25 to 30% of patients had a C min <1.2 mg / L, and even frequently <0.2 mg / L to 600 mg x 1, with some low peaks and leaving presage an AUC may be insufficient well. This study is therefore more imperative to be a pharmacological streamlining and ensuring adequate therapeutic monitoring involves both maximum and minimum toxicity efficiency. And in the light of what has already been practiced for other molecules such as mycophenolate for example which is carried AUC or miniAUC for example. It would therefore be in the achievement of AUC in all patients treated with LNZ for TB MDR / XDR for over a week. Achieving this requires AUC obtaining 7 blood samples given day instead of two samples taken at present. Indeed one must have in mind that the peak of rational / residual has become blurred in this context, and that one of the two goals PK / PD is now filled (Cmin> MIC / CMP) but it should not be that not at the expense of the second (AUC). The benefits, direct and indirect are multiple and obtaining them is ensured through this protocol. The study by analyzing individual data will confirm the accuracy of the dose fractionation 300mgx2 / day and at a time to highlight a potential new dosage adjustment that would need to achieve for further study, so a substantial gain in terms of efficacy and toxicity via a suitable therapeutic monitoring. Secondly, determine which collection points, in these patients, these doses will be most interesting to take later in the routine of STP in order to collect less points (eg miniAUC MPA) retaining same statistical power to estimate kinetic parameters, mainly the AUC (eg aminoglycoside also). Finally in a third phase construction on the basis of these individual kinetics of a population pharmacokinetic model with highlighting of population parameters and especially co-related variables explaining the high pharmacokinetic variability and allowing for following patients to determine the individually tailored dose immediately before the first shot and the first assays.
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
People with human immunodeficiency virus (HIV) often take several medicines to control HIV. Dolutegravir and darunavir boosted with cobicistat are HIV medicines that people may take. They may also need to take medicines for an infection called latent tuberculosis (TB). Researchers think a once-weekly treatment for latent TB would be easier for people with HIV to take. This once weekly treatment consists of two drugs: rifapentine and isoniazid. However, they need to see how TB drugs and HIV drugs interact. Objective: To learn how anti-HIV and anti-TB drugs affect each other so that people taking these drugs together can be treated safely. Eligibility: Healthy adults ages 18 65. Design: Participants will be screened with a medical history and physical exam. They will have vital signs taken and give a blood sample. Women will have a pregnancy test. Participants cannot take any other medicines during the study, including vitamins. Only occasional, infrequent use of acetaminophen (Tylenol , max 2000 mg/day), ibuprofen (Motrin or Advil ), naproxen (Aleve ), loperamide (Imodium ), and/or antihistamines (such as Benadryl , Zyrtec , Claritin , etc.) will be allowed. Participants will be assigned to one of three groups. Each group will take a different study drug, once or twice a day, for 19 23 days. At the baseline study visit, they will get a supply of the study drug tablets and instructions for taking them. Participants will keep a medicine diary to serve as a memory aid for taking medicine and reporting any side effects that they may experience. Participants will have 8 or 9 study visits over about 40 days. The number of visits depends on which group the person is assigned to. All visits will take place at the NIH Clinical Center. Participants will fast before study visits. The baseline visit will last about 2 3 hours. There will be 3-4 long visits that will last for about 12 hours. The other 4-5 visits will last about 1 hour. During all study visits, screening procedures will be repeated. During long visits, an intravenous (IV) line will be inserted into an arm vein with a needle. It will be used to take blood.
Influence of tuberculosis (TB) on natural course of chronic obstructive lung disease (COPD) has not been well known. This study was designed to investigate the effects of history of TB on the long-term course of COPD.
This study is a prospective observational cohort study of TB patients who are treated or evaluated at 10 study sites. Patients presenting with cough for 2 weeks or longer with at least one additional TB symptom and a chest X-ray suggestive of TB, will be invited to be enrolled in the study. The signed informed consent will designate their willingness to participate on this study.