View clinical trials related to Mycobacterium Infections.
Filter by:To determine the safety and efficacy of azithromycin in the treatment of lung infection with M.avium complex and M. abscessus lung disease.
To determine the safety and efficacy of azithromycin, rifabutin and ethambutol given three times weekly in the treatment of lung infection with M. avium complex(MAC)
To determine the safety and tolerance of clarithromycin given three times per week in combination with multiple drugs including rifabutin three times per week
This study proposed the comparison the overall survival, hematological toxicity, pain reduction score,PSA levels, tumor response, quality of life in two arms of HRPC patients from different parts of India.
The purpose of this study is to determine the pharmacokinetics (how a drug is absorbed, distributed, and eliminated by the body) of moxifloxacin alone versus moxifloxacin given with rifapentine. Researchers believe that understanding how these tuberculosis drugs interact when given together may help to determine the best drug treatment plan for use in future studies. Volunteers will take moxifloxacin daily by mouth for the first part of the study and then moxifloxacin in combination with rifapentine during the second part of the study. Sixteen healthy men and women will be recruited from Johns Hopkins University School of Medicine to volunteer for this study. They will be required to stay in the inpatient unit twice, each time for 84 hours. Study procedures will include having a tube placed in a vein to draw several blood samples over time. Volunteers will participate in the study for a maximum of 48 days, including screening and follow-up visits.
This study will test a method of detecting tuberculosis-causing bacteria that are resistant to current medication treatments. Blood samples will be collected from patients from 3 sites and 3 mainly Hispanic populations in Texas, Mexico, and Colombia. Up to 780 males and females, ages 18-85 years, will participate. The study population will consist of 390 people with any of 3 forms of tuberculosis (TB) and 390 people who are either healthy or with a disease initially thought to be one of these 3 forms of TB but then ruled out. Volunteers will only be contacted, invited to participate and interviewed at the beginning of their evaluation for possible TB.The study team will follow up with the health department to determine if the volunteer was indeed diagnosed with TB, and with the laboratory to determine the results of TB tests at diagnosis and during the course of treatment.
The purpose of the study is to see if one plan for identifying and treating tuberculosis (TB) works better than another in reducing new cases of TB. The first plan is the DOTS program, which provides free TB treatment to people seeking it. The second plan provides free TB treatment to people seeking it and involves program staff going door-to-door in communities to identify new cases of TB, DOTS plus active case-finding program (ACF). Researchers believe that by detecting TB cases earlier and supervising treatment it will help to prevent spreading and decrease TB in these areas. The study population will be 200,000 people in 6 communities of Santa Cruz and 14 communities of Northeast Rio de Janeiro, Brazil, receiving DOTS or DOTS plus ACF. Individuals in the DOTS plus ACF part of the study will be interviewed 2-4 times during a 9 month period. Patients with symptoms will provide a sputum specimen. Patients identified as having TB will begin treatment and be observed for 6.
Healthy volunteers and patients with diseases that involve problems clearing mucus from the lungs will be examined and tested to better understand the reasons for recurring lung infections in these patients and to try to develop better ways to diagnose and treat them. The study will also try to identify the genes responsible for these diseases. Healthy volunteers 18 years of age and older and patients 2 years of age or older with suspected primary ciliary dyskinesia (PCD), variant cystic fibrosis (CF) or pseudohypoaldosteronism (PHA) may be eligible for this study. Patients enrolled in the Natural History Study of Nontuberculous Mycobacteria at NIH or other NIH natural history protocols may also be enrolled. Participants undergo the following tests and procedures during a 1-day visit at the NIH Clinical Center, as follows: All patients and normal volunteers have the following procedures: - Physical examination and review of medical and genetic history and family genetic history. - Lung function test and measurement of oxygen saturation level. - Nitric oxide measurement to measure the amount of nitric oxide production in the nose: A small tube is placed in the nose while the subject breathes through the mouth into a cardboard tube. All patients have the following additional procedures: - Blood tests for liver and kidney function, blood count, immunoglobulins and pregnancy test (where appropriate). - Blood test or buccal scrape (brushing the inside of the cheek) to obtain DNA to look for gene mutations that cause PCD, CF or PHA. - Scrape biopsy of cell lining the inside of the nose: A small toothpick-sized plastic stick with a tiny cup on the end is used to get nasal lining cells to look at the cilia (hair-like structures that move mucus). - Semen analysis (in some men) to test sperm tail function or structure. Patients suspected of having a variant of CF or PHA, including nontuberculous mycobacterial lung disease, have the following additional procedures: - Sweat chloride test: A medicine is placed on the arm to produce sweat; then, a very low level of electric current is applied for 5 to 12 minutes. Sweat is collected in a plastic tube and tested for salt content. - Blood draw for CF genetic testing, if necessary, and to measure levels of the enzyme trypsin. - Saliva collection to measure sodium and chloride content. - Nasal potential difference to measure the electrical activity of the cells lining the inside of the nose: A soft plastic tube filled with a salt solution is passed into the nasal passage and a sterile needle is placed under the skin of the arm. This test provides information about how the lining of the nose is able to get used to changes in temperature and humidity. (Normal volunteers also have this test.)
This study, conducted at the University of Mali in the capital city of Bamako, will investigate how the body reacts to infection with Mycobacterium tuberculosis (MTB), the organism that causes tuberculosis. Tuberculosis is a major global health problem whose solution requires development of an effective vaccine. However, incomplete understanding of how immunity to MTB is acquired and measured limits vaccine development. This study will focus on certain immune system cells - CD4+ T cells - that appear to be very important in fighting tuberculosis. Individuals 16 years of age and older who have or have not been exposed to either tuberculosis or HIV, or both, may be eligible for this study. Candidates will be screened with a medical history, physical examination, blood tests, review of medical records and laboratory tests, and, if medically indicated, a chest x-ray. Individuals whose medical records indicate a past history of tuberculosis or a positive test for exposure to tuberculosis will have a tuberculin skin test. For this test, a few drops of fluid are placed under the skin to see if the immune system reacts to the substance, indicating previous exposure to MTB. Participants will come to the University of Mali 10 times over a 1-year period - 7 times within the first 3 months of the study and then once every 3 months until 1 year after enrollment. At each study visit, they will be asked about their medical history and will donate 75 milliliters (about 1/3 cup) of blood, totaling 830 mL over the entire year. More blood may be requested if the participant's immune system reacts strongly to MTB in laboratory tests. No more than 450 mL (2 cups) of blood would be collected every 6 weeks; this amount is the Red Cross limit for regular blood donations every 6 weeks. The blood samples will be used for tests that measure the level of immunity to tuberculosis. Genetic tests may be performed on blood cells to help interpret special tests of immunity. Because HIV-infected people are included in the study, the findings may also provide information on how HIV renders vulnerability to opportunistic infections, including tuberculosis.
The standard for treatment Buruli ulcer disease (BUD) used to be surgery but the WHO now advises streptomycin (S, 15 mg/kg daily, intramuscularly) and rifampicin (R,10 mg/kg daily) along with surgery. This preliminary advice was based on observations in 21 patients with pre-ulcerative lesions of BUD, who were given daily SR treatment for varying periods of time. In patients treated with SR for at least 4 weeks, M. ulcerans could no longer be cultured from excised lesions. SR has been introduced without a formal evaluation or comparison with other treatments have been conducted or published, but the impression is that this treatment is beneficial and may cure BUD without additional surgical management. This study protocol evaluated the hypothesis that early, limited lesions of BUD(pre-ulcerative or ulcerated lesions, ≤ 10 cm maximum diameter), can be healed without recurrence using antimycobacterial drug therapy, without the need for debridement surgery. In endemic regions in Ghana, patients will be actively recruited and followed if ≥ 5 years of age, and with early (i.e., onset < 6 months) BUD. - consent by patients and / or care givers / legal representatives - clinical evaluation, and by - analysis of three 0.3 cm punch biopsies under local anaesthesia. - disease confirmation: dry reagent-based polymerase chain reaction (DRB-PCR IS2404) - randomization: either SR for 8 weeks, or 4 weeks of SR followed by R and clarithromycin (C) - stratification: ulcerative or pre-ulcerative lesions. Biopsies processed for histopathology, DRB-PCR-, microscopy, culture, genomic, and sensitivity tests. Lesions assessed regularly for progression or healing during treatment. Drug toxicity monitoring included blood cell counts, liver enzymes and renal tests; and ECG and audiographic tests. Primary endpoint: healing without recurrence at 12 months follow-up after start of treatment Secondary endpoint: reduction in lesion surface area and/or clinically assessed improvement on completion of treatment, averting the need for debridement surgery. Recurrences biopsied for confirmation, using PCR, histopathology, and culture. Sample size calculation: 2x74 fully evaluable patients; 80% power to detect a difference of 20 % in recurrence-free cure 12 months after start of treatment between the two groups (60 versus 80%). A Data Safety and Monitoring Board made interim analysis assessments.