Active clinical trials for "Tuberculosis"

Multidrug resistant tuberculosis (MDR-TB) is difficult to treat and raises a great challenge to TB control program. That pyrazinamide can shorten the course of treatment and facilitate bacilli clearance has been proved recently. In 2011, WHO recommended to use pyrazinamide throughout the course of treatment for MDR-TB. However, pyrazinamide susceptibility testing has not been widely used in clinic. And the conventional testing is time-consuming and unreliable. In contrast, the detection of pncA and rpsA mutations with molecular methods can provide rapid results of pyrazinamide susceptibility. The purpose of this study is to evaluate the efficacy of the introduce the molecular testing of pyrazinamide susceptibility in optimizing the MDR-TB treatment regimen.

The current standard short-course treatment for pulmonary TB requires 6 months to complete. This long duration of treatment increases the likelihood of side effects while decreasing patients' adherence to anti-TB drugs. Linezolid showed considerable efficacy against refractory multidrug-resistant TB. Considering the marked anti-TB effects of linezolid as well as the possible adverse effects of its long-term use, it is rational to use linezolid instead of ethambutol for the first 4 weeks of treatment for drug-susceptible pulmonary TB. Through randomized controlled trial, the investigators will evaluate the hypothesis that the use of linezolid instead of ethambutol will increase the sputum culture conversion rate by 15% after 2 months of treatment. Patients with TB without resistance to rifampicin will be randomized to the following three arms at a 1:1:1 ratio: Arma 1 (control arm), Arm 2 (linezolid for 2 weeks instead of ethambutol), Arm 3 (linezolid for 4 weeks instead of ethambutol)Primary outcome will be sputum culture conversion rate after 2 months of treatment (liquid media).

New approaches are needed to achieve more rapid elimination of dormant mycobacteria and thereby shorten treatment for drug-sensitive and drug-resistant tuberculosis (TB). Dormant mycobacteria are relatively resistant to antibacterial drugs and approaches that enhance immune clearance have the potential to be more effective. Interleukin-4 (IL-4) is a key cytokine in the immune response to TB that may impair the clearance of mycobacteria. We hypothesize that pascolizumab, an anti-IL-4 monoclonal antibody, might be of value as an adjunct to standard treatment. The aims of this trial are to determine whether administration of pascolizumab as an adjunct to standard combination treatment for drug-sensitive TB produces changes in one or more parameters of bacterial or host response (including bacterial clearance, host clinical status, immune response, bacterial and host transcriptomics, lung imaging) that may indicate potential for enhanced sterilization and to confirm the safety of blocking IL-4 (previously demonstrated in healthy volunteers and patients with asthma) in patients with TB.

The use of local anaesthesia efficiently reduces pain due to needle puncture. However, when tuberculin skin test is performed it is the skin reaction to tuberculin injection that is studied. It is a quantitative skin reaction measured in millimiters. From the study of literature it is not known whether local anaesthetic modify skin reaction to tuberculin. Therefore, before recommending the use local anaesthesia for tuberculin intradermal injection we have to rule out a potential effect of local anaesthetic on the result of the test. This is particularly important in children, since there are more sensitive to pain than adults

TB is the most common cause of death in patients with HIV worldwide. Rifampicin [RIF] is the cornerstone of anti-TB therapy. Current guideline recommend efavirenz (EFV) 600mg per day as the first of choice for HIV/TB co-infection. Co-administration of EFV with RIF decrease the plasma concentration of EFV. Because of better safety profiles, EFV 400mg has replaced the EFV 600mg as the first-line antiretroviral therapy in people living with HIV. However, the efficacy of EFV 400mg when co-administrated with RIF in HIV/TB co-infection is unclear. This study is designed to evaluate the efficacy and safety of EFV 400mg versus EFV 600mg in HIV/TB co-infected patients receiving RIF based anti-TB therapy.

The new drug pyrifazimine (previous name: TBI-166) developed by the Institute of Materia Medica of the Chinese Academy of Medical Sciences which is Beijing Union Pharmaceutical Second Factory relied on is obtained by retaining the key skeleton of the lead drug clofazimine which can exert its efficacy and modification by introducing moderate polar groups structural. While the drug has strong activity against tuberculosis-sensitive bacteria and drug-resistant bacteria in vivo and in vitro, its pharmacokinetic properties and skin staining side effects have been significantly improved compared with the lead drugs, so that the drug can achieve the goal that reducing fat solubility, accelerating metabolism in the body, reducing skin staining and reducing side effects. In addition, pyrifazimine has a weak effect on liver drug enzymes, and is suitable for combined use in the clinical treatment of tuberculosis. The development of the drug is expected to provide a new method for the clinical treatment of drug-resistant tuberculosis, benefit patients, and produce good social benefits. In November 2016, the new anti-drug-resistant tuberculosis drug pyrifazimine and its tablets (formerly chemical drug registration classification 1.1) obtained the drug clinical approval issued by the CFDA (batch number: 2016L10025/2016L09987), and were approved the clinical stage research that development of drug-resistant tuberculosis adaptation. In accordance with relevant requirements of drug registration regulations, technical guidelines, etc., this project has completed the safety, tolerability, and pharmacokinetic clinical trials of a single dose of pyrifazimine tablets in healthy subjects, i.e. Phase Ia clinical trials test.

Background: When a person is exposed to something that causes an infection, the body sends a type of cell called CD8 T cells to attack it. Those cells are also found in breast milk. Nursing mothers pass these cells to their child, which helps the child fight infections, too. Researchers want to learn more about how CD8 cells work to keep people healthy. Objective: To learn more about how the human body fights off infections. Eligibility: People age 18 years and older who either have an infection, are suspected to have an infection, or recently got a vaccine. The household contacts of these people and people who have not been recently exposed to any infection are also needed. Design: Participants will be screened with a medical and health history and physical exam. They may have blood tests. The first study visit can be the same day as screening. It can be up to 3 months later. For those visits, screening tests will be repeated. At the first visit, participants will have blood collected from an arm vein. Participants who are breastfeeding may provide a small sample of breast milk. They may collect it at home or bring a pumping device to NIH to collect it. NIH can also provide a breast pump. Participants may be contacted for up to 1 year after the first visit to give samples of blood and/or breast milk. Up to 4 additional visits, which will each take about 1 hour, may be scheduled. A personal physician or local lab can collect blood from participants and ship it to NIH. Breast milk cannot be shipped.

Epstein Barr Virus (EBV) or Cytomegalovirus (CMV) infection results in significant morbidity and mortality in hematopoietic stem cell transplantation (HSCT) patients. HSCT patients often face opportunistic infections due to the immunosuppressive state during transplantation. Antimicrobial drugs are usually used for prophylactic purposes and for treatment after early detectable infections. Unfortunately, some patients develop resistance to such drug treatment. In addition to HSCT patient, immune compromised patient may also be victim to opportunistic infections. Many infections can be effectively managed by functional immune recovery. In this study, the safety and efficacy of microbial-specific cytotoxic T lymphocytes (CTLs) will be investigated.

To examine the safety and preliminary efficacy of multiple adjunctive host directed TB therapies (TB HDT), to assess their potential to shorten TB treatment and/or prevent permanent lung damage.

Although tuberculosis is a treatable disease, it is currently the infectious disease with the highest mortality in the world. It is estimated that one-third of the world's population is infected. HIV is the main predisposing factor for TB development. The Brazilian Ministry of Health and the World Health Organization recommends that patients should initially be treated orally with RIPE - rifampicin (R), isoniazid (I), pyrazinamide (P) and ethambutol (E). The N-acetylcysteine (NAC) first benefit was reported during the 1960s, when it proved to be an effective mucolytic agent in individuals with cystic fibrosis. Later, a new role arose when investigating its therapeutic potential in acetaminophen intoxication. Cleavage of the acetyl group makes cysteine available for later incorporation into glutathione synthesis, decreased in hepatic injury caused by acetaminophen. This mechanism causes NAC to have an indirect antioxidant effect, which aroused an interest in studying the effect in diseases that occur with oxidative stress. TB and HIV/Aids are also diseases with chronic inflammation. The present study aims to evaluate the effects of NAC as a adjuvant therapy in the treatment of TB. This is a phase II randomized clinical trial in which the safety and tolerability of NAC as adjunctive therapy for TB treatment will be assessed. Fifty-six patients will be randomized into two groups. The first group will receive the standard tuberculosis treatment as recommended by the Brazilian Ministry of Health (RIPE); the second will receive in addition to this treatment 1200mg of NAC per day for two months. In this way, microscopy and culture conversion rate to mycobacteria at 8 weeks, levels of glutathione and biomarkers of immune activation and inflammation in case of TB with or without NAC will be monitored.