13 Clinical Trials for Various Conditions
This study will determine what dose of recombinant interferon-gamma is safe and effective for treating multiple drug-resistant tuberculosis. Recombinant interferon-gamma is a genetically engineered form of a substance normally produced by the body and is used to boost immune function. Patients 5 years of age and older with multiply drug-resistant tuberculosis may be eligible for this study. Participants will be admitted to either the NIH Clinical Center in Bethesda, Maryland, the Texas Center for Infectious Diseases in San Antonio or the South Texas Hospital or Valley Baptist Hospital, both in Harlingen, Texas. On admission, patients will have a medical history, physical examination, blood and urine tests, sputum culture, X-rays, pulmonary function tests and a computed tomography (CT) scan. CT produces 3-dimensional images of body tissues and organs in small sections. For the procedure, the patient lies still on a table surrounded by the scanner. All patients will continue treatment with anti-tuberculosis antibiotics during and after the study period and may elect whether or not to take gamma interferon in addition to the antibiotic. Five patients will receive only antibiotic treatment, and 5 each will receive one of 3 doses (0.025, 0.05 or 0.1 milligrams per square meter of body surface area) of interferon-gamma injected under the skin 3 times a week. The patient or caregiver will be taught to give the injections, which are similar to insulin injections for diabetes. Patients will be in isolation in the hospital from the start of therapy until sputum samples show no evidence of tuberculosis for 3 consecutive weeks. Following that, they will repeat the tests done on admission (except CT) during follow-up visits (1- to 2-day hospitalizations) at 3, 6, 9, 12, 15, 18 and 24 months after the start of therapy. Patients taking interferon gamma will have blood drawn more frequently (monthly) for the first 6 months, and patients with lung infection will have sputum samples collected more frequently-weekly for the first 3 months or until three consecutive negative samples are obtained and then monthly throughout the course of therapy. Patients with lung infection will also have repeat CT scans at 6 and 12 months while on interferon gamma. In one or two patients on the drug, blood will be drawn frequently following one injection of gamma interferon (just before the injection and again at 0.25, 0.5, 1, 6, 12, 18, 24 and 48 hours after it) to see if a difference in blood levels of the drug can be detected.
This is a single-dose, open-label, randomized, four-period, four-treatment, crossover study in healthy adult subjects.
The purpose of this study is to describe the medical indication and utilization of expert medical consultation among participants treated with bedaquiline (BDQ), BDQ susceptibility based on minimum inhibitory concentrations (MICs) reported for baseline and subsequent isolates, BDQ drug utilization data to include dose, duration, past treatment history, past medical history, concomitant medications, and health care site of treatment, drug distribution mechanisms used in the administration of BDQ, patient outcomes (clinical and microbiologic) and adverse events among BDQ-treated participants, including deaths.
A Phase 1, Drug-Drug Interaction Study to Evaluate the Safety, Tolerability, and the Induction Potential of TBAJ-876 on CYP3A4 and P-glycoprotein and the Inhibition Potential of TBAJ-876 on P-glycoprotein in Healthy Adult Subjects
A Phase 1, Partially Blind, Placebo Controlled, Randomized, Combined Single Ascending Dose (SAD) with a Food Effect Cohort (Part 1), Multiple Ascending Dose (MAD) (Part 2), and Relative Bioavailability (rBA) (Part 3) Study to Evaluate the Safety, Tolerability, and Pharmacokinetics of TBAJ-876 in Healthy Adult Subjects
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.
Background: -Tuberculosis (TB) is an infection of the lungs caused by bacteria. In Mali, TB is diagnosed with a test that is fast and inexpensive but not always accurate. The purpose of this study is to test a new method for diagnosing TB, called the microscopic-observation drug-susceptibility (MODS) test. The MODS test takes 7 days to show results. The test also gives information on which drugs will work best in each case. Objective: -To test a new method for diagnosing tuberculosis called the microscopic observation drug susceptibility test. Eligibility: * Participants must be 12 years of age or older. * They must have a diagnosis of TB from a sputum smear, or have symptoms of TB and an x-ray indicating that TB is present. Design: * Participants will take part in the study from 6 months to 21 months and be assigned to one of three groups, depending on what type of TB they have. * At the first visit, researchers ask questions about general health and symptoms of TB. They check vital signs, draw blood, and ask for a sputum sample. The blood is used to check for HIV infection and for the number of CD4 cells, which measures the severity of the HIV infection. * The 2-, 5-, and 6-month visits are similar to the first. Those who do not have multidrug-resistant (MDR) TB will end their participation after the 6-month visit. MDR TB is tuberculosis that has not responded to isoniazid and rifampicin. Participants with MDR TB will remain in the study for 21 months. * No treatment is provided as part of this study.
Background: - Tuberculosis (TB) is an infectious disease that affects numerous people worldwide. Researchers are interested in actively recruiting individuals with TB for research and treatment studies. Objectives: - To collect blood and other samples to study the natural history of tuberculosis. Eligibility: - Individuals 2 years of age and older who have either active or latent tuberculosis. Design: * Latent TB patients: Participants will have a single study visit with a physical examination and medical history, and will provide blood samples for testing. * Active TB patients: Participants will have an initial visit with a physical examination and medical history, and will provide blood samples for testing. Participants will also provide sputum samples if required, and may have an optional skin punch biopsy to collect a sample of skin tissue for study. * Treatment for active TB will be provided as part of this protocol. * Active TB participants may be asked to return for study visits every 1-2 months while receiving treatment....
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).
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 determine the demographic, behavioral, clinical, and geographic risk factors associated with the occurrence of multidrug-resistant pulmonary tuberculosis (MDRTB). To evaluate the clinical and microbiological responses and overall survival of MDRTB patients who are treated with levofloxacin-containing multiple-drug regimens chosen from a hierarchical list. Per 9/28/94 amendment, to assess whether persistent or recurrent positive sputum cultures of patients who show failure or relapse are due to the same strain or reinfection with a new strain. Among TB patients, there has been an increase in progressive disease due to the emergence of antimycobacterial drug-resistant strains of Mycobacterium tuberculosis. Failure to identify patients at high risk for MDRTB increases the hazard for both treatment failure and development of resistance to additional therapeutic agents. Efforts to improve survival in patients with MDRTB will depend on improved methods of assessing the risk of acquisition of MDRTB and identifying drug susceptibility patterns in a timely fashion.
PRIMARY: To estimate the proportion of tuberculosis patients in the CPCRA who have drug-resistant tuberculosis (TB) and to describe the patterns of drug resistance. SECONDARY: To compare drug resistance data on the Mycobacterium tuberculosis isolates of HIV-infected patients to those of HIV-uninfected patients who are being followed in the CPCRA. To assess the relationship of resistance data with geographic, demographic, and HIV and TB risk factor information. Geographic areas and demographic subgroups affected by the TB epidemic appear to be congruent and associated with the concurrent HIV epidemic. The total number of CPCRA patients who will develop, or who have experienced, confirmed TB is unknown. It is critical to determine the depth and breadth of the current problem of drug-resistant TB.
The purposes of this study are to determine: how safe it is to take SQ109 (an experimental tuberculosis treatment) once a day by mouth for up to 2 weeks in 2 different dosages; how well the body accepts it; how SQ109 enters and leaves the body and blood tissues over time; the amounts that can be detected in the blood; and how long it stays in the body. The study involves 30 volunteers: 24 will receive SQ109 and 6 will receive placebo (inactive substance). Qualified participants will be admitted to the study unit within 28 days from the screening and stay as inpatient for approximately 2 weeks. During this period they will receive study drug and complete all scheduled procedures including multiple blood draws. After discharge, there is a 14 day follow up period. Total study participation is about 56 days.