View clinical trials related to Tuberculosis, Pulmonary.
Filter by:Infection with Mycobacterium tuberculosis remains at epidemic levels globally. Innate and adaptive immune responses evolve as protective mechanisms against mycobacterial infection in humans. Toll-like receptors (TLRs) are transmembrane proteins characterized by an extracellular leucine-rich domain that participates in ligand recognition and an intracellular tail. TLRs are the first defense system to detect potential pathogens, initiate immune responses and form the crucial link between innate and adaptive immune systems. Stimulation of TLR initiates a signaling cascade that involves a number of proteins, such as MyD88 and IL-1 receptor-associated kinase. This signal cascade leads to NF-κB activation, which induce the secretion of pro-inflammatory cytokines. TLR2 is a family of TLR family and has been reported to be the principle mediator of macrophage activation in response to mycobacterium. Growing amounts of data suggest that the ability of certain individuals to respond properly to TLR ligands may be impaired by single nucleotide polymorphisms (SNPs) within TLR genes, resulting in an altered susceptibility to, or course of, infectious disease. The genetic polymorphism of TLR2 (arginine to glutamine substitution at residue 753 (Arg753Gln)) has been associated with a negative influence on TLR2 function, which may, in turn, determine the innate host response to mycobacteria. In addition, another polymorphism (Arg677Trp) of the TLR2 was reported to be associated with susceptibility to tuberculosis in Tunisian patients. Moreover, in Mycobacterium leprosy patients with TLR2 mutation (Arg677Trp), production of IL-2, IL-12, IFN-gamma, and TNF-alpha by M. leprae-stimulated peripheral blood mononuclear cell were decreased compared with that in groups with wild-type TLR2. To date, there have been no studies of the association of SNPs of TLR2 with cytokine profiles and clinical outcomes on M. tuberculosis. We hypothesize that polymorphisms in the TLR2 are associated with : 1. increased prevalence of active pulmonary TB infection, 2. altered levels of pro-inflammatory and anti-inflammatory cytokines in serum, 3. clinical outcomes and presentations. We thus design a prospective case-control study to test this hypothesis. The frequency of TLR2 polymorphisms in both pulmonary TB patients and healthy controls will be determined by polymerase chain reaction-restriction fragment length polymorphism. Serial serum levels of IL-12, IFN-γ, and IL-10 in pulmonary TB patients with or without TLR2 polymorphisms will be measured by enzyme linked immunosorbent assay. Relationships between TLR2 polymorphisms and serum cytokines dynamics or clinical outcomes will be analyzed.
In this phase II clinical trial, the pharmacokinetics, safety and (short-term) efficacy of higher than standard doses rifampicin will be studied during the intensive phase of tuberculosis (TB) treatment. Patients enrolled in this study will either get the standard TB regimen (including 600 mg rifampicin; first study arm), or 900 mg rifampicin plus isoniazid, ethambutol and pyrazinamide in standard dosages (second study arm), or 1200 mg rifampicin plus the other drugs in standard dosages (third study arm). All patients will get the standard TB regimen during the continuation phase of treatment.
Although effective therapy for tuberculosis is available, TB continues to cause significant problems worldwide, and rates of multi-drug resistant (MDR) TB cases are on the rise. A major obstacle to the control of TB is poor adherence with lengthy (usually 6 months) and complicated treatment regimens. Incomplete TB treatment can lead to serious consequences such as increased severity of illness and death, prolonged infectiousness and transmission in the community, and the development of drug resistance. The development of new treatment strategies with more stronger drugs could lead to shorter and simpler regimens. A TB treatment regimen that allowed treatment duration to be meaningfully decreased would have important public health implications. This trial will compare the effect and safety of a new oral regimen to that of the standard regimen for the first phase of treatment for pulmonary tuberculosis. The experimental regimen will consist of the following: - Two months of isoniazid, rifapentine, pyrazinamide and moxifloxacin (HPZM) administered once daily. Pyridoxine (vitamin B6) will be given with each dose of isoniazid. The standard control intensive phase regimen will consist of the following: - Two months of isoniazid, rifampin, pyrazinamide, and ethambutol (HRZE) administered once daily. Pyridoxine (vitamin B6) will be given with each dose of isoniazid. Following intensive phase therapy (the study phase), all patients will be treated with a non-experimental continuation phase regimen. In mice, the combination of Moxifloxacin and Rifapentine have cured the animals significantly faster than the standard regimen and this study will be the first step to see if the potential is also there in humans.
This study, conducted in Masan and Seoul, South Korea, investigated the effectiveness of linezolid (LZD) in treating patients with extensively drug resistant tuberculosis (XDR TB). Because regular medicines do not work well against XDR TB, many more people die from it than from regular TB, which can be successfully treated by taking TB medication for 6 months. Linezolid has been used to treat other kinds of infections, but has not been well studied for TB. This study examined the side effects and effectiveness of prolonged treatment with linezolid at two different doses. People 20 years of age and older who have XDR TB were eligible for this 3-year study. Participants underwent the following tests and procedures: - LZD treatment: Patients were randomly assigned to one of two study groups. Group 1 patients were observed for 2 months before starting LZD, while group 2 patients begin taking LZD right away. Both groups began with a 600 mg daily dose of LZD. After patients stopped coughing up TB germs (or after 4 months on LZD) they were randomly assigned either to continue taking 600 mg of LZD for the rest of the study or to take a decreased dose of 300 mg. In addition to LZD, patients continued to take their currently prescribed TB medications. - Medical history. - Physical examinations each month during treatment. - Sputum collections once a week or more until 3 weeks after the patient was no longer contagious. - Blood draws every week for 16 to 24 weeks and then once a month. - Urine collections at several time points. - Nerve and eye examinations before starting treatment and then monthly to look for possible LZD side effects. - CT scans of the lungs three to four times the first year and once more later in the study. For this test the patient lay on a table within the doughnut-shaped CT scanner while special X-ray pictures are taken. Patients who participated in a substudy had PET scans instead of the CT scans. For this test, the patient was given an injection into a vein of a radioactive chemical that can be detected by a special camera and viewed on a screen. The patient lay on a table within the doughnut-shaped scanner while pictures were taken.
The primary objective of the study is to evaluate the efficacy of oral Zinc administration in new smear positive pulmonary tuberculosis patients. Evidence is available suggesting that zinc deficiency rapidly diminishes antibody- and cell-mediated immune responses in both humans and animals and renders the individual susceptible to a variety of pathogens. This micronutrient has also been found to be useful in the treatment of lung tuberculosis in limited number of patients. We are conducting this study in category-I patients (As per World Health Organization, Geneva classification of tuberculosis) having lung tuberculosis to see the efficacy and also to see any change in the immunological parameters.
Protocol Synopsis The goal of this Phase 2 clinical trial is to evaluate the antimicrobial activity and safety of an experimental intensive phase (first 8 weeks of treatment) tuberculosis treatment regimen in which rifapentine is substituted for rifampin. Primary Objective - To compare the antimicrobial activity and safety of standard daily regimen comprised of rifampin (approximately 10 mg/kg/dose) + isoniazid + pyrazinamide + ethambutol (RHZE) to that of an experimental regimen comprised of rifapentine (approximately 10 mg/kg/dose) + isoniazid + pyrazinamide + ethambutol (PHZE). Secondary Objectives - To determine and compare for each regimen the time to culture-conversion, using data from 2-, 4-, 6-, and 8-week cultures (10, 20, 30, 40 doses). - To determine and compare for each regimen the proportion of patients with any Grade 3 or 4 adverse reactions - To determine the correlation of the MGIT/BACTEC liquid culture growth index and other mycobacterial and clinical biomarkers with time to culture conversion and treatment failure - To store serum for future assessment of biomarkers of TB treatment response and hypersensitivity to study drugs. - To compare adverse events and 2-month culture conversion rates among HIV-infected patients vs. HIV-uninfected patients - To determine the tolerability and safety, and estimate the antimicrobial activity, of experimental regimens that include isoniazid + pyrazinamide + ethambutol plus either rifapentine 15 mg/kg/dose or rifapentine 20 mg/kg/dose, all administered daily. Assessment of these doses of rifapentine will be performed as an extension to the main study after enrollment in the main study has been completed. Design This will be a prospective, multicenter, open-label clinical study. Adults suspected of having pulmonary tuberculosis who meet eligibility criteria will be randomized to receive either the experimental intensive phase tuberculosis treatment regimen or the standard intensive phase tuberculosis treatment regimen. Randomization will be stratified by presence/absence of cavitation on baseline chest radiograph, and by geographic continent. All doses of study drugs will be given under direct observation and administered 5 days per week. After a subject completes intensive phase therapy, he/she then will be treated with a non-experimental continuation phase tuberculosis treatment regimen. The study extension will be a prospective, multicenter clinical trial. Eligibility criteria will be the same as for the main study. Participants will be randomized to one of four regimens: the standard intensive phase treatment regimen, an investigational regimen in which rifapentine 10 mg/kg/dose is substituted for rifampin, an investigational regimen in which rifapentine 15 mg/kg/dose is substituted for rifampin, or an investigational regimen in which rifapentine 20 mg/kg is substituted for rifampin. Randomization will be stratified by the presence/absence of cavitation on baseline chest radiograph, and by study site. Study drugs will be administered 7 days per week. After a subject completes intensive phase therapy, he/she then will be treated with a non-experimental continuation phase tuberculosis treatment regimen. Subjects will have blood drawn for one pharmacokinetic determination of rifapentine concentration at or after the week 2 visit during intensive phase therapy. This study is being conducted in 2 phases. 1. The main study compares a 10 mg/kg dose of rifapentine, open label, against 10 mg/kg rifampin in an otherwise standard intensive phase regimen of treatment for pulmonary tuberculosis. The projected sample size was 480 enrollments; 530 patients were actually enrolled. 2. The study extension evaluates higher doses of rifapentine, with the specific rifapentine doses (10 mg/kg, 15 mg/kg, and 20 mg/kg) blinded to patients and clinicians, with data collection and endpoints otherwise similar to the main study. The projected sample size for the study extension is 320 enrollments.
This is a clinical trial to evaluate the safety and efficacy of OPC-67683 in the treatment of multidrug resistant tuberculosis (MDR TB) for 56 days. In addition to an optimized background regimen (OBR), participants will be randomized to receive: - 100 mg OPC-67683 twice daily (BID) - 200 mg OPC-67683 BID - Placebo BID After 56 days participants will complete their optimized background regimen (OBR).
The purpose of this study is to determine whether adjunctive L-arginine and vitamin D can improve response to standard short course TB therapy in people with newly diagnosed pulmonary TB.
The purpose of this study is to test whether a saline nebulization (breathing in a mist of moist air through a mask) will help an individual cough up a better sputum sample to test for tuberculosis (TB). In addition, this study will test whether samples obtained with saline nebulization are better at finding TB in people with HIV infection. The study will enroll up to 600 individuals, aged 12 and older, with suspected pulmonary TB. Participants will be asked to cough up a sample of sputum into a container. Then, participants will be asked to breathe a mist of moist air from an oxygen mask followed by moist salty air, which will help individuals to cough up a second sputum sample. This mist of moist air will contain salbutamol, a medicine to help open up the airways. The sputum samples will be sent to a laboratory to test for TB. Additionally, participants will be tested for HIV with a blood sample collection. Participants will be involved in study related procedures for up to 61 days.
The study is conducted to compare safety and efficacy of isoniazid administered as an adjusted dose based on NAT2 (arylamine N-acetyltransferase type 2)genotype and as a standard dose. The hypothesis is that the genotype-adjusted dose is superior to the standard dose with regard to hepatotoxicity and early treatment failure, respectively, in the group of slow and rapid acetylators of NAT2.