116 Clinical Trials for Various Conditions
About 10 people with cystic fibrosis (CF) and persistent Nontuberculosis mycobacteria (NTM) infection despite treatment will be screened to find out if their NTM infection has at least one mycobacteriophage that is effective in killing the mycobacteria. Individuals who are found to have at least one phage will be offered assistance in pursuing FDA approval for treatment via expanded-access Individual New Drug (IND) for compassionate-use. They will receive phage treatment for 1 year along with their guideline-based antibiotics for NTM. Individuals who are not identified as having a phage match will be followed as they continue to receive guideline based antibiotic therapy for 1 year. All subjects, including those who do not have a phage match will continue to be observed for the duration of the study, or about 1 year.
The goal of this observational study is to facilitate standardized nontuberculous mycobacteria (NTM) outbreak investigations in healthcare centers. The main questions it aims to answer are: * Are respiratory NTM isolates identified as having membership in a suspected healthcare outbreak highly related based on whole genome sequencing? * Does epidemiologic investigation support healthcare-associated patient-to-patient NTM transmission? * Does healthcare environmental sampling support healthcare-associated NTM acquisition? If healthcare-associated NTM outbreaks are suspected, participants identified as having membership in a cluster of highly-related NTM infections will complete a demographic questionnaire.
The proposed clinical trial will confirm the therapeutic absorption of glutathione following topical Glutaryl application in increasing blood GSH levels without an invasive procedure. GOAL: Confirm therapeutic level of glutathione following topical transdermal application. HYPOTHESIS: The hypothesis of the proposed study is that the glutathione administration will increase RBC levels of glutathione above 80%. AIM: Determine a non-invasive way to increase glutathione levels in the plasma and blood cells. This aim will be accomplished as follows: STEP 1: We will recruit eligible healthy participants in the two study groups who are not currently taking any glutathione or N-acetyl cysteine (NAC) supplementation. STEP 2: Determine baseline levels of GSH, free radicals and cytokines through analysis of venipuncture blood draws. STEP 3: Study subjects will be asked to spray themselves with either placebo or Glutaryl four times twice a day for three days on the ventral part of the abdomen. Measure the levels of GSH, free radicals and cytokines after 1 hour, 4 hour and 72 hours.
Pulmonary NTM infection is recognized as one of the most challenging infections to treat among people with cystic fibrosis (PwCF), notable for prolonged treatment courses and often poor response to therapy. Positive cultures for NTM occur in about 20% of children and adults with cystic fibrosis (CF). However, the source of NTM infection, modes of transmission, and exposure risks are poorly understood. It is thought that NTM is primarily acquired from environmental sites including soil and water as well as water supply systems to homes, hospitals, and clinics and from aerosols generated by flowing water from taps, showers, and fountains. Nonetheless, no direct molecular link has been established between environmental NTM and respiratory CF NTM. Healthcare-associated transmission of NTM among CF patients has been suspected and is of growing concern for CF Centers worldwide. Widespread global transmission of NTM, potentially via person-to-person transmission of fomites and aerosols has been reported. The parent HALT NTM study developed and published a standardized epidemiologic outbreak toolkit for investigation of healthcare-associated NTM outbreaks in CF Care Centers. We are now moving to a prospective investigation, with the long-term goal of real-time early identification and mitigation of potential NTM outbreak investigations coupled with healthcare environmental sampling and home of residence watershed analysis of PwCF identified as belonging to an NTM cluster and receiving care at a single CF Care Center.
The purpose of this study is to evaluate the efficacy, safety and tolerability of oral omadacycline as compared to placebo in the treatment of adults with Nontuberculous Mycobacterial (NTM) pulmonary disease caused by Mycobacterium abscessus complex (MABc)
The main objective of this study is to evaluate the efficacy of ALIS (amikacin liposome inhalation suspension) + background regimen (azithromycin \[AZI\] + ethambutol \[ETH\]) compared to the ELC (empty liposome control) + background regimen on participant-reported respiratory symptoms at Month 13.
The primary objective of this study is to generate evidence demonstrating the domain specification (via modern psychometric methods), reliability, validity, and responsiveness (within-subject meaningful change) of the Patient-Reported Outcome (PRO) endpoints.
A 2-part multi-center, Phase 3, randomized, double-blind, placebo-controlled, parallel group study to evaluate the efficacy and safety of RHB-204 in adult subjects with underlying nodular bronchiectasis and documented MAC lung infection.
Sources of NTM infection and modes of transmission among CF patients are poorly understood. Healthcare-associated transmission of NTM among CF patients has been suspected and is of growing concern for CF Centers. There is a need for a systematic evidence-based approach to investigating potential episodes of healthcare-associated transmission. Clusters of highly similar strains of NTM in CF patients cared for at the same CF Center may arise from healthcare sources including patient-to-patient transmission and/or acquisition from water sources within a healthcare setting. The primary objective of the study is to facilitate a standardized process by which CF Centers may perform data abstraction on patients identified with highly similar NTM isolates and determine if clustered NTM strains are related to strains isolated from healthcare setting water biofilm sources. HALT NTM is available to the entire CF Foundation Care Network, under a collaborative agreement, to initiate a standardized, independent, confidential, internal NTM outbreak investigation. Patients that are identified by whole genome sequencing as having highly similar NTM strains and receiving care in the same CF Care Center are eligible. The study's primary endpoint is to identify potential modes and sources of healthcare-associated acquisition of CF NTM, thereby revealing risk factors for NTM acquisition.
The purpose of this study is to evaluate the efficacy and safety of open-label exposure of gNO in patients with NTM lung disease. Subjects will receive the study drug by inhaling through a nasal mask. Subjects will be treated for 3 weeks (5 days per week) and followed monthly for 3 months.
NTM therapy consists of a multi-drug macrolide based regimen for 18-24 months. Treated patients frequently experience debilitating side effects, and many patients delay the start of antibiotic treatment due to these risks. Common side effects include nausea, diarrhea, and fatigue, and rare but serious toxicities include ocular toxicity, hearing loss, and hematologic toxicity. To date, most of the evidence underlying the current treatment recommendations has come from observational studies in which either a macrolide has been combined with rifampin and ethambutol, or in some cases combined with ethambutol alone. The proposed study will answer whether a third drug is necessary or whether taking two drugs can increase tolerability without a substantial loss of efficacy.
A study to evaluate the efficacy of inhaled molgramostim administered open-label to adult cystic fibrosis (CF) subjects with chronic pulmonary nontuberculous mycobacterial (NTM) infection, with or without ongoing antimycobacterial guideline based combination therapy.
Treatment of adults with chronic Mycobacterium avium-intracellulare complex lung infections who have failed or are intolerant of rifampin. Rifabutin may be a reasonable alternative agent in patients who fail rifampin or or intolerant of rifampin.
The proposed study will assess the efficacy, safety and tolerability of once daily dosing of Liposomal-Amikacin for Inhalation (LAI) 590 mg for 12 months plus standard of care (SOC) mycobacterial multi-drug regimen in accordance with the 2007 ATS/ IDSA guidelines, for treatment of mycobacterium abscessus lung disease.
The purpose of this study is to determine antimycobacterial drug pharmacokinetics (PK) and pharmacodynamics (PD) in patients with cystic fibrosis (CF) to improve treatment of nontuberculous mycobacterial (NTM) lung disease.
Background: Tuberculosis (TB) is a severe disease and a major cause of death in many people worldwide. It is caused by a bacteria that enters through the lungs and can spread elsewhere in the body. People with latent TB have the bacteria that lie dormant but can become active and cause disease. These people are offered treatment to prevent development of active TB. Worldwide, a lot of people with LTBI also have a parasitic worm called a helminth that can stay in the gut or the blood. These parasites can affect the immune system and cause diseases like TB to become worse. Researchers want to see how helminth infection makes it harder for people to fight TB infection. Objectives: - To study how the immune system of people with latent tuberculosis infection (LTBI) acts to prevent development of active TB. Also, to study how helminth infection might affect this immune response. Eligibility: * Adults age 18 70 with LTBI as defined by an approved blood test called QuantiFERON TB Gold. * No evidence of infections like Hepatitis or HIV * Pregnant subjects and subjects taking medications that suppress the immune system are not eligible. * Have not received prior treatment for LTBI. Participants might be still eligible if prior treatment for active TB has been received Design: Screening phase: - Participants will be screened with medical history, physical exam, and blood tests for other infections/conditions which might affect the immune system. They will have testing for active TB i.e. blood testing as well as testing of their spit, scans and X-rays. Baseline phase: * Only eligible participants will be entered into the study. * Participants will have interviews, medical history, and physical exam. * Blood will be drawn from an arm vein for testing. * Participants will collect stool samples at home for 3 days in a row to test for helminth infection.. * Participants may have apheresis. Blood cells are removed by needle. They pass through a separator machine which returns everything but the cells back to the participant. * Participants may have procedures at the start and end of the study that let researchers look into the lungs and collect cells. Study phase, about 2 years: * All participants will be offered treatment for LTBI which lasts 6-9 months. * Participants being treated for LTBI will have about 11 study visits. They will visit monthly for 9 months while on treatment, then 6 and 12 months after treatment. * Participants not eligible/refusing treatment for LTBI will be made aware of active TB, then have 3 other visits, about 6, 12, and 24 months after the baseline visit. * Participants who have helminth infection will receive appropriate treatment. * All participants will have blood drawn at each visit.
Little is known about the disease caused by the nontuberculous or environmental mycobacteria (NTM) and only limited data are available showing treatment outcome. This project will study the patients with nontuberculous mycobacterial (NTM) diseases in the University of Illinois Hospital \& Health Sciences System (UIMC). The aim of study is finding treatment outcome and risk factors that are associated with treatment failure in NTM patients. This is a retrospective, observational study for collecting data on patients with NTM in UIMC. The study initially involves populating the study of NTM patients seen at UIMC during the study period. This will add our knowledge about current treatment outcome of patients with NTM diseases and will be of interest to physicians, and public health authorities.
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 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.
Background: - Pulmonary nontuberculous mycobacterial infection is a respiratory infection that is sometimes difficult to diagnose. Proper diagnosis depends on accurate collection of respiratory secretions, but these secretions may be contaminated by bacteria present in the mouth at the time of collection. In addition, some individuals may have difficulty providing respiratory secretions, because the infection affects lung function and sputum production. By collecting new samples from individuals who have already been diagnosed with this infection, and comparing the methods of collection, researchers hope to better understand and improve the ability to accurately diagnose and treat the infection at an early stage. Objectives: - To compare throat cultures and coughed-up and induced phlegm or sputum in individuals with pulmonary nontuberculous mycobacterial infection and inflammation. Eligibility: - Individuals between 18 and 79 years of age who have been diagnosed with pulmonary nontuberculous mycobacterial infection and are currently participating in selected NIH protocols on this infection. Design: * The study will require a single 90-minute visit to provide research specimens. * Participants must not eat or drink for 2 hours prior to the collection of the early morning respiratory specimens. Blood pressure, temperature, pulse, breathing rate, and oxygen saturation level readings will be taken on the day of collection to ensure that participants may safely provide the specimens. * Participants will provide the following samples: * Blood sample: Participants will provide a blood sample to measure indicators of inflammation in the blood. * Throat swab: Participants will brush their teeth thoroughly before allowing researchers to swab the inside of their throat with a sterile swab. * Sputum collection (regular and induced): Participants will brush their teeth thoroughly and then provide both a regular sputum sample (produced normally) and an induced sputum sample (produced after using a nebulizer to stimulate sputum production). * No treatment will be provided as part of this protocol.
Use of oral clarithromycin for treatment of chronic lung disease due to Mycobacterium avium-intracellulare and other non-tuberculous Mycobacteria
This study will examine how the immune system responds to infection with Mycobacterium tuberculosis bacteria (bacteria that cause tuberculosis) in order to better understand how the germ produces infection and how the immune response might work to control the infection. Only about one in 10 people infected by M. tuberculosis become sick, sometimes years or even decades after exposure. It is not known why some people become sick and most do not, but the immune system of people who never develop disease may be better able to control the bacteria. This study will evaluate the latent form of M. tuberculosis infection to further the understanding of the immune mechanisms - particularly the role of certain white blood cells - involved in the disease process. Healthy volunteers 18 years of age and older may be eligible for this study. Candidates are screened with a medical history, family history of medical conditions, sexual history, history of drug use, physical examination and blood tests, including a test for HIV. People in Mali, West Africa, and in local health clinics in the United States may participate. At the start of the study, participants have blood tests and a tuberculin skin test (PPD test), which indicates whether a person has been exposed to tuberculosis bacteria. For the PPD, a tiny amount of liquid containing dead tuberculosis antigen is put under the skin of the forearm with a needle. The antigen cannot cause infection or disease. After 3 days, participants have another blood test and the site of the tuberculin test is examined for swelling that would indicate a positive result. Participants with a positive PPD have a chest x-ray to check for tuberculosis disease. Those whose x-ray is also positive are withdrawn from the study and referred to their doctor for evaluation and treatment. Those whose x-ray is negative return to the clinic within 3 weeks of the tuberculin test to give another blood sample. Participants whose PPD is negative have a second tuberculin test 10 to 21 days later and return 3 days after the test to determine if it is still negative or if it is positive. (Some people who are negative after the first test may test positive after the second procedure.) Those whose test is still negative end their participation in the study at that time. Participants whose second PPD is positive have a chest x-ray as described above, and those with a negative chest x-ray return in 3 weeks to donate one last blood sample. The purpose of the present study is to evaluate the latent form of this infection, the prevalence of which worldwide exceeds that of active disease. Our hypothesis is that in latent tuberculosis antigen specific effector memory CD4+ T cells are responsible for the generation of clinically measurable delayed type hypersensitivity and that central memory CD4+T cells are not directly involved in this process. We base this idea on the assumption that latent tuberculosis is a state of antigen persistence and that effector memory T cells should be maintained as long as antigen/infection is present. We propose to conduct this study in Mali, West Africa and local clinics in the U.S. Tuberculosis affects 593/100,000(2) individuals in Mali and most have been exposed to the disease. Additionally it would be important to evaluate the same parameters locally as latent infection is one of the major factors for reactivation tuberculosis in this country. Patients would be enrolled in 4 major groups: HIV-/TST- (Group A), HIV-/TST+ (Group B), HIV+/TST+(G roup C) and HIV+/TST- (Group D). To evaluate this hypothesis we plan to enroll between 100 - 300 patients over the course of 2 years from both countries. Blood samples before and at predetermined time points after the application of Purified Protein Derivative (PPD) will be obtained to determine the fraction of CD4+ T cells which produce interferon gamma in response to stimulation with PPD with a 16hr antigen stimulation assay. Appropriate staining will be done to ascertain the phenotype as well as cytokine production (Interferon gamma,( IFN gamma), Interleukin 2 (IL2) and Tumour Necrosis Factor ( TNF)). Additionally lymphocyte proliferation will be studied using 5-(and-6)-carboxyflouorescein diacetate succinimidyl ester (CFSE.) In conducting this study we hope to further the understanding of the immune mechanisms involved, particularly mechanisms of T cell memory, which would provide insights into TB and HIV pathogenesis. We also believe that understanding these mechanisms could lead towards establishment of surrogates for immunity in TB vaccine studies, which could enhance vaccine trial design. It might also help in understanding better the immunological dynamics of tuberculosis co-infection in individuals with HIV infection.
Mycobacterium avium complex (MAC) are ubiquitous organisms that cause isolated pulmonary disease in otherwise healthy patients with yet undefined susceptibilities. Patients typically present with a history of chronic cough, eventually progressing to hemoptysis, fever, and hypoxia. With half or more of all patients failing standard three-drug therapy, this is an insidious disease with a poor prognosis. Under the natural history protocol of nontuberculous mycobacterial infection (NTM; #01-I-0202), 46 patients with diagnosed pulmonary MAC disease are being studied. Numerous studies have suggested that a dysregulation in cytokine production may make these patients susceptible to mycobacterial infection. Cytokines are particularly important in the activaction of macrophages, which help to clear mycobacterial infection. Interferon gamma 1b (Actimmune) and GM-CSF (Leukine) are two cytokine therapies that have been approved in the treatment of chronic granulomatous disease and post-transplantation hematopoietic reconstitution, respectively. A number of in vitro studies suggest that either or both of these therapies may help to clear MAC infection. Given the poor outcomes of therapy and the persistent, debilitating nature of the disease, new therapies are desperately needed, and many are being tried without benefit of scientific foundation. Currently, there are no prospective trials that show any effect of these drugs in the lung delivered subcutaneously. This protocol proposes to perform a pilot study to evaluate the effects, if any, of these macrophage stimulating cytokines in the context of ongoing pulmonary MAC infection. Aims: To determine the local and systemic effect, if any, of adjuvant IFN gamma and GM-CSF in pulmonary MAC patients. Methods: Fifteen patients will be randomized into three treatment groups of five patients each. The first group will receive a standard drug regimen, based on the 1997 ATS guidelines. The second and third groups, in addition to receiving the standard therapy, will also receive three months of (IFN{gamma}) and GM-CSF, respectively. All patients will undergo bronchoscopy with bronchoalveolar lavage (BAL) at the beginning of the study, after three months, and at six months. In addition to obtaining traditional subjective and objective clinical measures, both proteomic and genomic analysis of the BAL will be performed to determine if cytokine therapy effects any detectable change in the lungs. In vitro studies on typ...
This study will test the safety and effectiveness of inhaled interferon gamma-1b and oral antibiotics for treating mycobacterium avium complex (MAC) infection of the lungs. Patients 18 years of age or older with MAC infection of the lungs who 1) have been previously treated for MAC, or 2) have moderate or severe lung disease due to MAC that has not been previously treated may be eligible for this study. Participants will be randomly assigned to one of two treatment groups. Group 1 will receive 500 micrograms of interferon gamma-1b 3 times a week for 48 weeks by inhalation. Group 2 will inhale a placebo (inactive substance) according to the same regimen. In addition, all patients will receive standard MAC treatment with three antibiotics-clarithromycin or azithromycin, ethambutol and rifampin or rifabutin-taken by mouth times a week. Patients will come to the clinic for a screening visit, baseline visit, 1 month after beginning treatment, and at 3-month intervals thereafter until the end of the study. During these various visits, they will undergo the following tests and procedures: * Medical history and physical examination, including height and weight measurements, heart rate, breathing rate, blood pressure and temperature * Possibly computed tomography (CT) and X-ray of the lungs * Sputum sample * Pulmonary function studies * Blood and urine tests Patients' eyes will be examined monthly to check for side effects of ethambutol, and hearing and balance will be tested to check for side effects of clarithromycin or azithromycin. At the baseline visit, the patient or caretaker will be trained to use a nebulizer (a special breathing device) to take the study medication.
This study will examine the symptoms, course of disease and treatment of non-tuberculous mycobacterial (NTM) infections, as well as the genetics involved in these infections. Patients with NTM have recurrent lung infections and sometimes infections of the skin and other organs as well. They may also have curvature of the spine, barrel chest, and heart valve weakness. The study will compare the features of NTM with those of Job syndrome and cystic fibrosis, other diseases involving recurrent infections of the lungs and possibly other organs. Patients with diagnosed or suspected non-tuberculous mycobacterial infection, cystic fibrosis or Job syndrome may be eligible for this study. All participants will have a medical and family history, blood and urine tests, imaging studies that may include X-rays, computed tomography (CT) or magnetic resonance imaging (MRI) scans, and DNA and other genetic studies. In addition, all patients with Job syndrome and cystic fibrosis, and patients with NTM who have lung disease undergo the following procedures: * Scoliosis survey X-rays of the spine to look for curvature or other abnormalities of the spinal column * Echocardiography imaging test that uses sound waves to examine the heart chambers and valves * Electrocardiogram measurement of the electrical activity of the heart * Pulmonary function tests breathing tests to measure how much air the patient can move into and out of the lungs * Body measurements measurements of height, weight, arm span, finger length, etc. * Joint function assessment of joint mobility using different maneuvers to test flexibility of joints and ligaments * Examination of physical features that might be associated with NTM, such as high arched palate of the mouth, flat feet, or certain skin features * Dermatology (skin) examination for reactive skin conditions or other skin problems and possibly a skin biopsy (surgical removal of a small skin tissue sample for microscopic examination) * Interview with genetics specialist These tests may require several days to complete. Patients with NTM will also be examined by a cystic fibrosis specialist and may have a sweat test. In addition, NTM patients will be asked to return to NIH every year for 5 years for follow-up tests, if medically indicated, including CT of the chest, scoliosis survey and examination by other specialists.
To optimize Mycobacterium avium Complex (MAC) prophylaxis in AIDS patients by measuring serum rifabutin levels and adjusting the dose accordingly. To combine rifabutin with ethambutol to examine the effect of combination therapy in preventing or delaying the incidence of MAC bacteremia in this patient population.
To determine whether clarithromycin is safe and effective in preventing disseminated Mycobacterium avium Complex in HIV-infected patients with CD4 counts \<= 100 cells/mm3.
To evaluate the efficacy and safety of azithromycin administered once a week in the prevention of disseminated Mycobacterium avium complex (MAC) in severely immunocompromised HIV-infected patients with a CD4 count \< 100 cells/mm3.
The primary objective of this trial is to assess the safety and the relative benefit of rifabutin monotherapy in preventing or delaying the incidence of Mycobacterium avium complex (MAC) bacteremia in AIDS patients with CD4 counts less than or equal to 200, as compared to placebo, and to assess if survival is prolonged in patients who receive rifabutin prophylaxis.
To determine the antimicrobial activity and tolerability of rifapentine alone and in combination therapy in patients with AIDS and disseminated Mycobacterium avium complex (MAC) bacteremia. To determine the pharmacokinetics of rifapentine and its metabolite, 25-desacetyl, alone and in combination therapy. To determine the pharmacokinetics of azithromycin and clarithromycin (and its 14-OH metabolite) in combination therapy.