View clinical trials related to Sarcoidosis, Pulmonary.
Filter by:The goal of this observational study is to elucidate the role of serum amyloid A (SAA) in the diagnosis and follow-up of sarcoidosis, including its prognostic value. The main questions it aims to answer are: - Whether, at the time of diagnosis, SAA is in correlation with other serum markers of granulomatous inflammation, interstitial disease and pulmonary fibrosis, lung function and radiologic characteristics of intrathoracic sarcoidosis, - Whether increased serum concentrations of SAA at the time of diagnosis act as a prognostic marker of progressive granulomatous inflammation and pulmonary interstitial disease. Patients will undergo standard diagnostic procedures for intrathoracic sarcoidosis, according to WASOG (World association of sarcoidosis and other granulomatous disorders) criteria. Two additional vials of blood will be taken at diagnosis and one vial at follow-up for serum processing and biomarker analysis. Healthy blood donors will represent our group of healthy controls.
Airway involvement in sarcoidosis was demonstrated in a meaningful, albeit variable, proportion of patients through biopsy of the central, endoscopically visible airways. Ideally, biopsy of peripheral airways, nowadays possible with the introduction in the market of ultrathin bronchoscopes, might be associated with an increased diagnostic yield for the detection of granulomas.
In the diagnosis of patients with sarcoidosis, there is paucity of literature on the diagnostic yield of the endobronchial biopsies obtained with narrow band imaging (NBI) bronchoscopy. The present study aims to compare the diagnostic yield of endobronchial biopsyperformed under direct narrow band imaging or white light bronchoscopy guidance in suspected sarcoidosis.We hypothesize that the use of NBI will improve the yield of endobronchial biopsy in patients with sarcoidosis.
This prospective interventional study was done between May and September 2020. We included 20 patients from the chest department, Alexandria Main University Hospital (AMUH) with the inclusion criteria of having suspected pulmonary sarcoidosis (based on clinical and radiological presentation) and being ≥18 years of age. The bronchoscopy procedure was done under local anesthesia. Endobronchial biopsies and bronchoalveolar lavage were obtained.
Interstitial lung disease (ILD) is a restrictive lung disease characterized by impaired lung function, exercise limitation and skeletal muscle dysfunction. There is limited data on skeletal muscle function in ILD, most of which are focused on the lower limb muscles. The aim of this study were to evaluated the change of pectoralis muscle strength and relationship of pulmonary function with pectoralis muscle strength.
Sarcoidosis is a chronic condition which predominantly affects the lungs and lymph glands within the chest, however, may affect any organ within the body. At the present time, very little is known as to the exact cause of sarcoidosis and it is widely believed that the condition arises due to overreaction of the immune system to an unknown trigger in the environment such as an infection. Alongside this, the clinical course and progression of the condition varies considerably; some patients have a very mild form which does require any specific treatment, where as other patients develop a more severe form which can lead to permanent scarring (fibrosis) of the lungs if left untreated. At the present time it is difficult to predict how a patient will be affected by their sarcoidosis as there is a distinct lack of clinically useful markers which help predict prognosis and identify people at risk of disease progression or those who require treatment. The main aims of this study are to use a technique which captures and analyses breath samples to provide a profile of the chemicals known as volatile organic compounds (VOCs) which are present in the exhaled breath of patients with sarcoidosis. Specifically the study would look to see if these VOCs are different in patients with sarcoidosis compared to people who do not have sarcoidosis or any lung conditions. In addition, the study would look to see how these breath profiles relate to potential infections, change over time or in response to treatment with steroids. The study will involve a total of 80 patients presenting with suspected sarcoidosis and involve a total of four study visits over the course of twelve months. During each study visit a sample of breath will be collected alongside a blood test to look for markers of disease activity as well as completion of two questionnaires relating to a patients degree of breathlessness and quality of life. At the start of the study an additional questionnaire will be completed to identify possible risk factors for the development of sarcoidosis as well as the option of providing a sample of blood for genetic testing (which is voluntary). In patients undergoing a bronchoscopy or endobronchial ultrasound (EBUS), a sample of fluid which naturally lines the airways (bronchoalveolar lavage) will also be taken and used for metagenomic sequencing to try and identify any microbes which might be present within the lung and airways.
This is an educational work. Thirty patients with pulmonary sarcoidosis will be included in the study and randomly selected into two training groups.One group will receive home inspiratory muscle training (IMT) for 15 minutes, twice a day, 7 days a week with the resh Threshold IMT 'device. In the IMT group, the initial training intensity will be determined by measuring the maximal inspiratory muscle strength (MIP) with the intraoral pressure measuring device, 30% of the measured (MIP) value will be started at the first evaluation and the new training intensity will be determined by calculating 30% of the measured value by repeating the MIP measurement every week. The other group will perform upper extremity and trunk exercises combined with respiratory exercises at home for 7 days, twice a day for 15 minutes.Patients will be evaluated before the training program and 8 weeks after the training. In the first evaluation, demographic information and clinical characteristics of the patients will be noted.In this study, upper and lower extremity exercise capacity, respiratory functions, peripheral muscle strength, dyspnea, fatigue, sleep quality, cognitive function, daily living activities, physical activity level, anxiety, depression, upper extremity and trunk exercises combined with inspiratory muscle training in patients with sarcoidosis and the impact on quality of life.
The purpose of this proof of concept study is to determine whether CMK389 displays the safety and efficacy profile to support further development in chronic pulmonary sarcoidosis.
Patients with sarcoidosis need treatment options that effectively control their disease without causing undesirable side effects. An appealing strategy is to repurpose existing drugs which possess beneficial immune modulating activity and are safe for long-term use. Recently, increased activity of the mTOR intracellular signalling pathway in inflammatory cells has emerged as a key driver of granulomatous inflammation in mouse models and patients with sarcoidosis. The macrolide antibiotic azithromycin directly inhibits mTOR activity in inflammatory cells, making it a prime target for drug repurposing in sarcoidosis. Azithromycin has an acceptable tolerability profile when used for long-term treatment of other chronic respiratory disease Single centre open label clinical trial of oral azithromycin 250 mg once daily for 3 months in 20-30 patients with pulmonary sarcoidosis. The Investigator have opted for an open label study because this will be the first study of azithromycin in sarcoidosis. Trial assessments will be performed according to standards of Good Clinical Practice with assessments at baseline, 1, and 3 months. All other clinical care, investigations, and treatment (if indicated) will remain the responsibility of the treating physician and based on clinical MDT consensus decisions.
This randomized, double-blind, placebo matched to efzofitimod-controlled, study will evaluate the safety, tolerability, immunogenicity, pharmacokinetic (PK), and preliminary efficacy of multiple ascending doses of IV efzofitimod in participants with pulmonary sarcoidosis undergoing a protocol-guided oral corticosteroid (OCS) tapering regimen.This study will consist of 3 staggered multiple dose cohorts. Each eligible participant will participate in only one cohort during the study. Within each cohort, 12 participants will be randomized 2:1 to efzofitimod (N=8) or placebo matched to efzofitimod (N=4).