View clinical trials related to Mycobacterium Infections.
Filter by:A study to evaluate the effectiveness of Liposomal Amikacin for Inhalation (LAI) 590 mg administered once daily (QD) when added to multi-drug regimen (MDR) in participants with Nontuberculous Mycobacterial (NTM) lung infection caused by Mycobacterium Avium Complex (MAC) that were refractory to treatment. Participants were randomized 2:1 to LAI 590 mg administered QD + MDR or MDR alone.
The aim of this study was to elucidate the accuracy and inter-rater agreement of diagnosis of nontuberculous mycobacterial lung disease based on chest computed tomography findings.
96 TB subjects and 96 non-TB subjects with lung disease who all meet the standard are divided into different groups through a randomized, blind methods.Every subject inject intradermally ESAT6-CFP10 and TB-PPD in different arms of the same person.Specific γ- IFN(gamma interferon) detection is needed before the injection.Evaluate the sensitivity (positive coincidence rate) ,the specificity (negative coincidence rate) and the coincidence rate of ESAT6-CFP10 in the tuberculosis patients and non-tuberculosis patients with lung diseases, and determine the optimal dose of ESAT6-CFP10 for clinical auxiliary diagnosis of tuberculosis.
To determine the prevalence of nontuberculous mycobacterial infection (NTM) in pediatric patients with cystic fibrosis in the State fo Florida. HYPOTHESIS: There is high prevalence of NTM in CF pediatric population in the State of Florida, and likely higher than in the rest of the country.
Background: - Pulmonary nontuberculous mycobacterial (PNTM) infection is caused by a common type of bacteria in the environment. Although PNTM infection is most common in people with lung diseases, it can also affect healthy people. It can be difficult to treat, and affects parts of the body other than the lungs. For example, PNTM may affect the cilia, the hair-like structures inside the nose and lungs that help move dirt and debris out of the body. - Ciliary beat frequency (CBF) is a measurement of how fast cilia move. People with PNTM infection have a lower CBF than healthy people. Nitric oxide (NO) is a gas in the body that may affect CBF. People with PNTM infection produce lower amounts of NO in their noses than healthy people. Researchers want to see if a drug called sildenafil can increase NO production and CBF. If sildenafil can improve these measurements, it may be a useful treatment for PNTM infection. Objectives: - To study the effect of sildenafil on CBF and NO levels in people with PNTM infection. Eligibility: - Individuals at least 18 years of age who have PNTM infection. - Participants must be enrolled in a related National Institutes of Health study on bacterial infections. The study is Natural History, Genetics, Phenotype and Treatment of Mycobacterial Infections. Design: - Participants will be screened with a physical exam and medical history. They will also have heart and lung function tests, as well as tests of NO production in the nose. They will provide samples of sputum and cells from inside the nose. - Before the first study visit, participants will collect sputum samples for 24 hours. They will bring the samples to the study visit. - At the first study visit, participants will have heart and lung function tests, as well as tests of NO production in the nose. They will provide blood, urine, sputum, and nasal cell samples. They will also receive sildenafil tablets to take at home. - Participants will take sildenafil tablets three times a day. - The second study visit will be 7 days after the first one. The tests from the first visit will be repeated. Participants will receive more sildenafil tablets to take on the same schedule as before. - The third and final study visit will be 30 days after the first one. The tests from the first visit will be repeated. Participants will stop taking sildenafil at this visit. - A follow-up phone call will be made about 2 weeks after the final study visit. This call will ask questions about quality of life and any symptoms or side effects of the study.
Prospective data collection of all patients with microbiologically proven mycobacteria tuberculosis infection treated at Singapore General Hospital.
Background: - Lymphatic filariasis is an infection that is caused by small, thread-like worms. It is spread by mosquitoes, and causes fever, chills, and headaches. If untreated, it can also cause elephantiasis, a condition that leads to swelling of the arms, legs, breasts, and scrotum. Treatment can eliminate the worms from the blood and reduce the risk of developing elephantiasis. Researchers want to study people with latent tuberculosis (TB) who may or may not be infected with filariasis. This study will look at the way that people with latent TB fight infection with these worms. Objectives: - To study how the immune systems of people with latent TB react to filarial infection. Eligibility: - Individuals between 18 and 65 years of age who have latent TB and may or may not have filarial infection. Design: - Participants will be screened with a physical exam and medical history. They will provide a blood and stool sample to test for infection. - Participants who do not have lymphatic filariasis but have another kind of intestinal worm will be treated for the parasite. This will be their last study visit. - Participants who have latent TB and lymphatic filariasis will be treated with the standard treatment for the disease. They will come back for a second visit 6 months later, and will provide another blood sample.
SUMMARY Rationale: Buruli ulcer, caused by Mycobacterium ulcerans, is an ulcerative disease endemic in West Africa. It often leads to functional limitations. Treatment was by extensive surgery, until in 2005 gradually antibiotic treatment for eight weeks with rifampicin and streptomycin was added. Observation of Buruli ulcer lesions of limited size during antibiotic treatment showed that during treatment there is a paradoxical increase of the lesion, with a decrease of the lesion after week 14. Current WHO protocols advise to decide whether surgery is needed four weeks after the start of antibiotics. This might be too early in the healing process. The investigators hypothesize that delay in surgery is safe, and that it results in a reduction of the number of surgical interventions. Objectives: Primary Objective of this study is to compare the need for surgical treatment in standard timing of surgery at the end of eight weeks antimicrobial treatment with a policy to postpone surgical treatment until week 14. Secondary Objectives are to study whether postponing surgery leads to less extensive surgery and a change in frequency of functional limitations; Study design: Patients will be randomized for surgery at week 8 after start of antibiotic treatment and week 14 after start of treatment. Reasons for treating doctors to decide to intervene with surgery will be according to current clinical practice and will be clearly defined in this protocol. Standard care of eight weeks of rifampicin and streptomycin will be given. All patients will be followed and lesional size using acetate sheet recordings will be used during follow-up. Study population: Patients with a clinical picture of Buruli ulcer disease confirmed by diagnostic tests in the districts covered by the Buruli ulcer centers in Lalo and Allada, Benin. Patients who are pregnant, have a contraindication for general anaesthesia and children below three years old will be excluded. 130 Patients in each treatment arm will be included to detect a difference in percentage of patients needing surgery of 20 percent. Main study parameters/endpoints: Primary outcome measure is the number of patients healed without surgery. Secondary outcome measures are the extent of surgery by measurement of lesional size, functional limitations after the end of treatment and one year after the start of treatment and the duration of admission.
The purpose of this study is to evaluate the efficacy, safety and tolerability of 84 days of daily dosing of 590 mg of LAI versus placebo in patients with treatment refractory NTM lung disease. The first part of the study is the 84-day double-blind phase to evaluate the primary and secondary endpoints.
The purpose of this study is to determine the 6-months sputum conversion rate with a clarithromycin or moxifloxacin containing regimen in patients with a M. xenopi pulmonary infection.