63 Clinical Trials for Various Conditions
Tuberculosis is a disease caused by a bacterium (a germ) that can cause illness in any organ of the body, but most frequently causes disease of the lungs. TB is short for tuberculosis. Treating TB requires several months (usually 6 months) of treatment, with the first 2 months being intensive treatment with usually four medicines. Treatment is needed to keep the infection from getting worse and to prevent death from TB. Vitamin D is a hormone present in the human body to manage levels of some essential electrolytes such as calcium and phosphate. Vitamin D is important for bone formation and prevention of bone breakdown (osteoporosis) as the investigators age. There is also new evidence that links vitamin D to function of our immune system as well. Even though our bodies can make vitamin D and can also obtain vitamin D from our diet, most adults, especially patients with tuberculosis have low vitamin D levels (are vitamin D deficient) that need to be corrected. Full correction of low vitamin D levels requires 6 weeks or more of weekly vitamin D supplements. There are several benefits to correcting vitamin D deficiency (better bone health, better balance of calcium and phosphate), but it is not known whether correcting vitamin D deficiency will lead to a better immune response to tuberculosis. Preliminary data does suggest that vitamin D increases the levels of an antimicrobial molecule (cathelicidin LL-37) in the body, possibly leading to better immunity against tuberculosis. The primary objective of this pilot study is to assess the relationship of vitamin D levels in patients with active pulmonary tuberculosis to levels of LL-37 cathelicidin in sputum and whole blood. The results of this study are needed in preparation for larger studies that will evaluate the role of vitamin D supplementation as adjunctive therapy to standard medical treatment for tuberculosis.
In face of the increased rates of tuberculosis in residents of long term care facilities, annual screening for latent tuberculosis is recommended. Tuberculin skin testing using purified protein derivative (PPD) is used for this purpose. Sensitivity of the PPD testing is, however, dependent on a normal T cell function. It is now evident that the immune system undergoes age-associated alteration known as immune senescence. The depressed T-cell responses may clinically manifest as attenuated delayed-type hypersensitivity. This attenuated reaction may affect the sensitivity of the PPD in detection of latent TB in the elderly. This prospective study will examine the utility of interferon-gamma (IFN-γ) based assay, T-SPOT.TB, for detection of latent tuberculosis in nursing home patients who are 65 years of age or older.
This Phase I study will evaluate the safety and immunogenicity of two doses GSK Biologicals' candidate TB vaccine (692342) according to a 0, 1, 2 months schedule in PPD-negative adults.
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).
To evaluate the safety and effectiveness of a 6-month course of isoniazid ( INH ) in the prevention of clinical tuberculosis in anergic (having diminished or absent reactions to specific antigens) HIV-infected persons who are at high risk for tuberculous infection. A substantial number of HIV-infected persons are anergic, and thus do not respond to the only currently available diagnostic tool for tuberculosis infection (that is, the PPD (purified protein derivative) skin test). Many of these anergic persons are, however, infected with Mycobacterium tuberculosis and eventually develop reactivation tuberculosis, causing both individual illness and spread of infection to others in the community. This study examines the possibility of using INH prophylaxis (that is, for prevention) in anergic HIV-infected patients at high risk for tuberculosis as a means of decreasing the sharp rise in the incidence of tuberculosis due to HIV infection. INH is inexpensive and relatively safe, and thus may demonstrate an acceptable risk/benefit ratio as a medication that can be given over a limited period of time to a population suspected of having, but not proved to have, M. tuberculosis infection. If this study shows INH to be safe and effective in this setting, it could have a major effect on public health in this country.
To evaluate and compare the safety and effectiveness of a one-year course of isoniazid (INH) versus a two-month course of rifampin plus pyrazinamide for the prevention of reactivation tuberculosis in individuals infected with both HIV and latent (inactive) Mycobacterium tuberculosis. Current guidelines from the American Thoracic Society and the Centers for Disease Control recommend 6 to 12 months of INH for PPD (purified protein derivative)-positive individuals. Although the effectiveness of this treatment is not known for HIV-infected individuals, several studies using INH to prevent tuberculosis in presumably normal hosts have shown 60 to 80 percent effectiveness. Problems with this treatment include compliance, adverse reaction, and the possibility of not preventing disease due to tuberculosis organisms being resistant to INH. A two-month preventive treatment plan should help in increasing compliance. In addition, the use of two drugs (rifampin / pyrazinamide) may help overcome problems with drug resistance. If this study shows equal or greater effectiveness of the two-month rifampin / pyrazinamide treatment, it could alter the approach to tuberculosis prevention for both HIV-positive and HIV-negative individuals.
To evaluate and compare the effectiveness of a 2-month regimen of rifampin and pyrazinamide versus a 1-year course of isoniazid (INH) to prevent the development of tuberculosis in patients who are coinfected with HIV and latent Mycobacterium tuberculosis (MTb). Current guidelines recommend 6 to 12 months of treatment with INH for purified protein derivative (PPD)-positive individuals. Problems with this treatment include compliance, adverse reaction, and the possibility of not preventing disease due to INH-resistant organisms. Studies suggest that two or three months of rifampin and pyrazinamide may be more effective than longer courses of INH. A two-month prevention course should help to increase compliance. In addition, the use of two drugs (rifampin and pyrazinamide) may help overcome problems with drug resistance.
This is a single-dose, open-label, randomized, four-period, four-treatment, crossover study in healthy adult subjects.
This observational Mycobacterium tuberculosis (MTB) diagnostics evaluation study is a longitudinal study of pulmonary TB suspects who are undergoing sputum evaluation for pulmonary TB. The sensitivity and specificity of the Xpert MTB/RIF (Mycobacterium tuberculosis/rifampin) assay performed on the first sputum collected for Xpert testing will be compared to gold standard conventional culture methods on two sputum specimens, in HIV-infected and HIV-uninfected participants.
The purpose of the study is to develop a BCG challenge model for use in short term Phase I human trials capable of assessing the ability of TB drugs and/or vaccine-induced immune responses to impact in vivo mycobacterial replication as a method of assessing antimycobacterial agents and/or protective immunity elicited by vaccines or host-directed therapy. The trial will illuminate the nature of local and systemic immune responses to BCG and treatment response, as well as demonstrate our local capacity for newer, more innovative study designs.
The objectives of this research are to determine: * the burden of intestinal parasitic infections among persons living with pulmonary tuberculosis (TB) * whether intestinal parasitic infections alter TB treatment outcomes, including speed of sputum clearance and treatment outcomes * the impact of malnutrition on speed of sputum clearance and TB treatment outcomes * whether nutritional supplementation improves speed of sputum clearance and treatment outcomes In this study the researchers will investigate how intestinal parasites impact the nutritional status of TB patients before the start of nutritional supplementation and how they alter the trajectory of weight gain in those receiving supplementation by analyzing results from 2 cohorts. LEOPARD Cohort 1- * Control-Enroll TB cases, screen for undernutrition, obtain stool for intestinal parasite screening by polymerase chain reaction (PCR), and assess them for treatment outcomes and weight gain * TB LION (Learning Impact of Nutrition) - Enroll TB cases, provide nutritional supplementation for 6 months (as part of existing TB LION study), screen for undernutrition, obtain stool for intestinal parasite screening by PCR, and assess them for treatment outcomes and weight gain LEOPARD Cohort 2 - * Enroll TB cases, screen for undernutrition, obtain stool for internal parasite screening by PCR, and assess them for treatment outcomes and weight gain.
Background: Tuberculosis (TB) is a health threat for people living with human immunodeficiency virus (HIV). People living with HIV are more likely than others to develop active TB. Also, TB makes HIV progress faster. TB is a leading cause of death among people in the West African country of Liberia. Researchers want to find an effective testing method for latent tuberculosis infection (LTBI) to help people living with HIV in Liberia. Objective: To compare the interferon-gamma release assay (IGRA) and tuberculin skin test (TST) as LTBI screening tests in people living with HIV in Liberia. Eligibility: People ages 18 and older who take part in NIH study #19-I-N014 and are scheduled to have or have had IGRA at a Month 12 HONOR study visit. Design: Participants will be screened with a medical history and physical exam. Their medical records and HONOR study records will be reviewed. Participants will have TST. Purified protein derivative will be placed in the skin of their forearm. They will be observed for adverse reactions for 15 minutes. Between 48 and 72 hours after placement, they will have a second study visit to have the TST read. If they miss this time frame, they can return up to 7 days after placement. If they have a positive test result, they will have a chest x-ray. They will have a third study visit to review the results of the chest x-ray. They will be referred for clinical care if needed. They will take a pregnancy test if needed. Participation will last from 2 days to 6 weeks.
This study will evaluate the performance of the VIDAS® Interferon Gamma (IFN-γ) Release Assay (TB-IGRA) assay, which is intended for use as an aid in the diagnosis of tuberculosis infection. This study is designed to assess (1) the sensitivity of this assay, (2) its percent agreement with other diagnostic tests, (3) its measurement precision , and (4) any potential interference of the presence of other non-tuberculosis mycobacterial bacterial infections with this assay.
Tuberculosis has been shown to make immune genes inaccessible and slows immune response The purpose of this research is to see if if azacitidine is safe and can return the ability of the body to resist tuberculosis (TB), a contagious infection that attacks the lungs. Individuals with tuberculosis are being asked to participate. Some will receive a drug to restore a host immunity while others can choose to receive standard of care. All patients will continue to receive standard of care tuberculosis therapy regardless of whether they chose to participate in the study. This study is a Phase Ib/IIa single-institution, open-label, non-randomized clinical trial of sub-cutaneous azacitidine in pulmonary TB patients during the continuation phase of ATT.
Center for Disease Control (CDC) data reveal that after years of sustained decrease, the incidence of active tuberculosis (TB) disease in the US has plateaued. Most of the cases occur when Mycobacterium tuberculosis (Mtb) reactivates replication in people who have latent tuberculosis infection (LTBI). Only 5 to 10% of subjects with LTBI develop active TB Infection over their lifetime. Current US guidelines recommend treating everyone with LTBI to stop progression to active TB. As treatment is long, only about 45-55% of patients finish treatment overall, regardless of whether the patients are at high (\>10%) or low lifetime risk of reactivation. The investigator's study aims to test the efficacy of a combined approach of first determining subjects at high risk of reactivation and then treating them with a CDC approved once a week treatment regimen, directly observed by a nurse over video (video-based Directly Observed Therapy, vDOT). Ensuring treatment of the high-risk group will eventually decrease the community active TB burden.
Tuberculosis (TB) is the prototypical disease of poverty as it disproportionately affects marginalized and impoverished communities. In the US, TB rates are unacceptably high among homeless persons who have a 10-fold increase in TB incidence as compared to the general population. In California, the rate of TB is more than twice the national case rate and recent TB outbreaks have been alarming. Among persons with active TB disease, over 10% die during treatment, with mortality being even higher among homeless persons with TB. While TB can be prevented by treating TB infection (TBI) before it develops into infectious, symptomatic disease, individual factors such as high prevalence of psychosocial comorbidities, unstable housing and limited access to care have led to poor adherence and completion of TBI treatment among homeless persons. Given the complex health disparity factors that affect TBI treatment adherence among homeless persons, this study will assess the feasibility of a theoretically-based novel model of care among persons with TBI and complex chronic illnesses. This study will evaluate an innovative, community-based intervention that addresses critical individual level factors which are potential mechanisms that underlie health disparities in completing TBI treatment among the predominantly minority homeless. The study hypothesis is that improving these conditions, and promoting health by focused screening for TBI, and early detection and treatment for these vulnerable adults will improve TB treatment completion and prevent future TB disease. The proposed theoretically-based health promotion intervention focuses on: 1) completion of TBI treatment, 2) reducing substance use; 3) improving mental health; and 4) improving critical social determinants of TB risk (unstable housing and poor health care access) among homeless adults in the highest TB prevalence area in Los Angeles. A total of 76 homeless adults with TBI will receive this program which includes culturally-sensitive education, case management, and directly observed therapy (DOT) delivery of medication among patients who have been prescribed 3HP (12 weeks treatment for latent TB infection) by a medical provider. This study will determine whether this intervention can achieve higher completion rates than the 65% completion rate among homeless persons reported by previous TB programs.
This study is a U.S.-based, 1 site (with 4 clinical settings), randomized controlled trial (with funding from the Centers for Disease Control and Prevention's (CDC) Antibiotic Resistance Solutions Initiative) that will be implemented to evaluate traditional directly observed therapy (DOT) and electronic forms of DOT (eDOT) for tuberculosis (TB) treatment. The trial will assess whether eDOT that employs electronic communication methods, such as video via computer or cellphone, is a non-inferior approach to monitor TB treatment adherence, compared to traditional in-person DOT (ipDOT), in which a trained person is in the physical presence of patients as anti-TB drugs are ingested. ipDOT is the single best intervention proven to be successful when it comes to TB patients' adherence to therapy (which reduces risk of acquired drug resistance). However, ipDOT is resource intensive and many times challenging to facilitate in-person. If eDOT is found to be non-inferior to ipDOT, health departments and other clinicians might be able to provide eDOT to certain populations of TB patients in a more flexible and potentially cost-saving manner.
The purpose of this pilot study is to determine whether regularly scheduled medication reminder text messages (SMS) are effective in increasing latent tuberculosis infection (LTBI) treatment completion.
To compare the positivity rate of the investigational assay to the currently approved QuantiFERON-TB Gold In-Tube assay.
Background: Many people around the world get tuberculosis (TB) and non-tuberculous mycobacteria (NTM) infections. Sometimes medicine that treats these infections does not get to where the bacteria are in the lungs. Researchers want to find a way to tell if enough medicine is getting to where it is needed in the lungs. They will look at how much medicine is in your sputum (what you cough up) compared to how much is in your blood. They will also investigate a new test to quickly figure out what medicines are likely to treat TB effectively. Objective: To determine the relationship between the concentration of TB drugs in plasma and sputum over time. Eligibility: People ages 18 and older who have TB or NTM infection that is suspected to be drug resistant. They must be taking TB or NTM medicines. Design: Participants will be screened with medical history. Participants will be in the study for 2 8 days. Participants will give 3 or more sputum samples over at least 2 different days. They will cough sputum into a cup. Participants will have blood drawn 4 times a day on 2 different days.
To compare the results of the investigational test to the currently approved QuantiFERON-TB Gold In-Tube test.
To compare the results of the investigational test to the currently approved QuantiFERON-TB Gold In-Tube test.
To compare the results of the investigational test to the currently approved QuantiFERON-TB Gold In-Tube test.
The goal of this study is to understand the effects of vitamin D supplementation on immunological outcomes among patients with tuberculosis.
This is a Phase I open-label, dose escalation trial to evaluate the use of Tice® BCG as a challenge for future assessment of in vivo TB immunity. Subjects will be recruited from the target population reflecting the community at 2 VTEU sites. Enrollment will occur over 14 months. Subjects who provide informed consent will be screened, and up to 120 eligible, HIV and TB uninfected subjects, 18-45 years, inclusive, will be enrolled for study interventions and sequentially assigned to 1 of 4 dose groups. Doses of Tice BCG from 2 to 16x10\^6 cfu will be delivered ID in a dose escalation format to 4 groups of 30 subjects per dose group. Primary Objectives: 1) Evaluate the safety of different doses of ID Tice BCG for use as a human challenge model for TB infection. 2) Examine shedding from ID challenge sites after administration of different doses of Tice BCG in TB naive healthy subjects. 3) Evaluate the reproducibility of BCG shedding over time with both quantitative PCR and culture.
This is a prospective cohort study of persons tested for latent tuberculosis infection at either high risk for exposure to Mycobacterium tuberculosis or high risk for progression to tuberculosis disease. The study will assess the relative performance and cost of three diagnostic tests for latent tuberculosis infection (tuberculin skin test, QuantiFERON-TB Gold In-Tube, and T-SPOT.TB) and will examine the rates of positive results among the cohort. This study will also determine the risk and rate of progression to active TB disease, overall and by the results of the three tests.
The study is an open label, multicenter, randomized (three arms: DOT (standard control), SAT, SAT with SMS reminders) controlled clinical trial. The trial is conducted in patients diagnosed with latent tuberculosis infection (LTBI) who are recommended for treatment. The primary objective is to evaluate adherence to a three-month (12-dose) regimen of weekly rifapentine and isoniazid (3RPT/INH) given by directly observed therapy (DOT) compared to self-administered therapy (SAT). The secondary objectives: * To compare the treatment completion rates between participants randomized to SAT without reminders versus SAT with weekly SMS reminders * To evaluate the timing of doses and patterns of adherence to once weekly RPT/INH among participants who complete treatment and those who discontinue therapy prior to completion. * To determine the availability and acceptability of using SMS reminders among all patients consenting to participate in the study. * To determine the toxicity and tolerability by comparing the rates of any drug-related grade 3 or 4 adverse events or death between the DOT arm and the SAT arms (both combined and individually) * To compare the frequency, timing, and causes for failure to complete treatment between the DOT arm and the SAT arms * To collect patient-specific cost data related to the 3 treatment arms * To describe the pattern of antituberculosis drug resistance among Mycobacterium tuberculosis strains cultured from participants who develop active TB.
The purpose of this study is to evaluate the potential of high doses of rifampin (RIF) to shorten treatment for tuberculosis (TB) without causing more adverse events. The hypotheses are that higher doses of RIF will result in higher blood concentrations of RIF; higher blood concentrations will result in tuberculosis bugs being killed more quickly; and, both of these will happen without more adverse events. Patients with active, infectious, drug-susceptible TB who agree to participate will be randomly assigned to 1 of 3 doses of RIF. All patients will also receive standard doses of regular (3) companion drugs for 2 months of daily, supervised therapy. The study will assess the following among the 3 study arms (oral doses of RIF 10, 15 \& 20 mg/kg/day) during the initial 8 weeks of treatment: 1) the amount of RIF in the blood after at least 14 days of treatment; 2) the difference in the number of tuberculosis bugs killed; 3) the frequency of adverse events.
HIV-infected people have an increased risk of developing active tuberculosis (TB). At the time the study was designed, the standard course of treatment for TB was 6 to 9 months of isoniazid (INH).This study compared the safety and effectiveness of a 4-week regimen of rifapentine (RPT) plus INH versus a standard 9-month regimen of INH in HIV-infected people who are at risk of developing active TB.