Environmental Risk Factors for the Anti-synthetase Syndrome
- Like other complex diseases, autoimmune diseases are the result of numerous causes, including genetic and environmental factors. Some researchers believe that people who are susceptible to autoimmune disorders develop them when the body reacts to environmental or other factors by creating white blood cells that attack the body s own tissues, which then progresses to autoimmune diseases. These immune-triggered disorders can overlap with one another to some extent, but most autoimmune diseases have certain distinct triggers.
- The autoimmune disorder myositis weakens the muscles and may cause other health problems. Environmental exposures associated with myositis include ultraviolet radiation, stressful life events and muscle overexertion, collagen implants, infections such as retroviruses and streptococci bacteria, and certain drugs and chemicals. Some individuals with myositis also produce proteins in the blood called autoantibodies that react with certain parts of the person s own cells, called synthetases, which are involved in making new proteins. A syndrome called the anti-synthetase syndrome, which includes myositis and lung disease, is associated with having the anti-synthetase autoantibodies. Researchers are interested in studying differences in environmental exposures in individuals with myositis. This study is being conducted to determine if persons with the anti-synthetase syndrome have had different environmental exposures before disease onset compared with other patients with myositis who do not have this syndrome and also compared with healthy volunteers.
- To determine whether selected infectious and noninfectious environmental exposures are more common in individuals who have myositis with the anti-synthetase syndrome, compared with healthy volunteers.
- Individuals who have been diagnosed with myositis (with or without anti-synthetase autoantibodies), and healthy volunteers without autoimmune disorders.
- Participants will be screened with a full medical history and physical examination, and will provide blood, urine and house dust samples.
- Participants will complete questionnaires about their medical history and the types of exposures they have had at work, at home, and elsewhere. Participants who have myositis will also be asked about certain infections, heavy exercise or physical exertion, sun exposure, tobacco and alcohol use, and stressful events prior to being diagnosed with the disease. Healthy volunteers will be asked about the same exposures before the date of diagnosis of disease of the myositis subject to which they have been matched.
- Participants will receive a kit that contains instructions and a filter to be put onto their vacuum cleaner to collect house dust in the bedroom. This dust will be kept for possible future analyses of infectious or toxic agents based on the other results from the study.
- Individuals with myositis will have other tests as clinically indicated, including lung function tests and imaging studies.
|Study Design:||Time Perspective: Other|
|Official Title:||Environmental Risk Factors for the Anti-Synthetase Syndrome|
- To determine whether selected noninfectious environmental exposures are more common prior to disease in recent-onset pts. w/anti-sythetase syndrome compared w/controls w/o autoimmune disease (1:1 matched with the pts.) and compared w/recent-onse... [ Time Frame: Ongoing ]
|Study Start Date:||January 5, 2011|
Most autoimmune diseases are thought to develop as a result of chronic immune activation and dysregulation after selected environmental exposures in genetically susceptible individuals. Based on prior studies suggesting roles for noninfectious and infectious agents in the development of myositis, as well as the known clinical, epidemiologic and genetic differences among phenotypes, we hypothesize that different myositis phenotypes are triggered by different environmental exposures in genetically susceptible individuals. One phenotype that is particularly well-defined clinically and genetically, and for which environmental triggers are likely, is myositis associated with anti-synthetase autoantibodies (defined as the anti-synthetase syndrome). These patients have an acute myositis onset in the spring of the year and also tend to develop fevers, elevated white blood cell counts, arthritis and interstitial lung disease. Although these features are consistent with an environmental trigger for the anti-synthetase syndrome, and although case reports and animal models suggest infectious or noninfectious agents may play a role, no study has systematically assessed environmental agents in this population.
In collaboration with multiple centers, we plan to test the hypothesis that certain environmental exposures are associated with the anti-synthetase syndrome and differ from those seen in matched controls and in myositis patients without the anti-synthetase syndrome. The specific aims of this study are to: 1) determine whether selected noninfectious environmental exposures are more common preceding disease onset in 150 recent-onset (defined as within 24 months of meeting criteria for possible, probable or definite myositis) myositis patients with the anti-synthetase syndrome, compared with 150 control subjects without autoimmune disease (1:1 matched with the patients), and compared with 150 recent-onset myositis patients without the anti-synthetase syndrome; and 2) determine whether selected infectious agents can be detected more frequently in blood samples of recent-onset anti-synthetase syndrome patients compared with matched controls, and in blood or biopsy samples from recent-onset anti-synthetase myositis patients compared with recent-onset myositis patients without the anti-synthetase syndrome.
Medical histories, concurrent conditions and environmental questionnaire information will be collected from all participants. Subjects will undergo a clinical, laboratory and immunologic assessment to document current diagnoses, disease manifestations and severity. A chest x-ray, high resolution computed tomography (HRCT) of the chest, pulmonary function tests, bronchoalveolar lavage, and muscle and lung biopsies will be performed as clinically indicated. Blood DNA and RNA sera, biopsy and house dust repositories will be created for current and future investigations.
Please refer to this study by its ClinicalTrials.gov identifier: NCT01276470
|Contact: Jessica K Michael||(301) email@example.com|
|Contact: Frederick W Miller, M.D.||(301) firstname.lastname@example.org|
|United States, Florida|
|University of Miami||Recruiting|
|Miami, Florida, United States, 33101|
|United States, Maryland|
|Johns Hopkins University||Recruiting|
|Baltimore, Maryland, United States, 21205|
|Mid-Atlantic Kaiser Permanente-||Recruiting|
|Rockville, Maryland, United States|
|United States, Massachusetts|
|Brigham and Women's Hospital||Recruiting|
|Boston, Massachusetts, United States, 02115|
|United States, Minnesota|
|Mayo Clinic, Rochester||Recruiting|
|Rochester, Minnesota, United States, 55905|
|United States, North Carolina|
|NIEHS Clinical Research Unit (CRU)||Recruiting|
|Research Triangle Park, North Carolina, United States|
|United States, Pennsylvania|
|University of Pittsburgh||Recruiting|
|Pittsburgh, Pennsylvania, United States, 15261|
|Principal Investigator:||Frederick W Miller, M.D.||National Institute of Environmental Health Sciences (NIEHS)|