View clinical trials related to Inflammation.
Filter by:The adaptive immune response plays an important role in myocardial healing and remodeling after acute myocardial infarction in patients. Therefore, the involved lymphocytes represent a novel target for therapeutic interventions. However, there are no established blood-derived biomarkers to predict the quantity and quality of the adaptive immune response to cardiac injury. Multimodal imaging of the heart and immunologic organs might provide such information. Recent retrospective analysis of patients after MI revealed enlarged mediastinal lymph nodes associated with increased CXCR4 radiotracer accumulation, thereby indicating that CXCR4 PET-based lymph node imaging provides a non-invasive quantitative readout of the local adaptive immune response. These considerations are further fuelled by the fact that, within lymph nodes, CXCR4 is expressed almost exclusively on lymphocytes, whereas various other cell types express CXCR4 within the myocardium. This leads to the hypothesis that the size of mediastinal lymph nodes and their respective CXCR4 PET signals correlate with the adaptive immune response to cardiac injury and might provide predictive information for functional cardiac decline during follow-up. This prospective clinical study will use multimodal imaging to monitor chemokine receptor 4 (CXCR4) expression in the lymph nodes, myocardium, spleen, and bone marrow after acute MI. The combination of cardiac magnetic resonance (CMR), echocardiography, and positron emission tomography (PET) along with blood collection for immunophenotyping will allow to determine i) if the size of mediastinal lymph nodes and their respective PET-derived CXCR4 signals at baseline correlate with the adaptive immune response to acute cardiac injury; and ii) if they predict cardiac adverse remodelling during longitudinal follow-up.
A randomized, double blind, study of dronabinol as a palliative agent in the treatment of pain, inflammation, and other complications of sickle cell disease (SCD).
This trial will assess the effectiveness of the Aria Trio Complete Facial system in being able to reduce blemishes, lines, and wrinkles. This skincare system that has three different functions in association with three unique serums. It is hypothesized that this customized skincare system will improve skin quality, reduce wrinkles, and reduce other skin related issues.
Following brain injury, complex interactions between the nervous system and other organs are frequently encountered. Systemic effects may be induced by dysregulation of the hypothalamic-pituitary-adrenal axis and the autonomic nervous system. This observational study will investigate the link between clinical, physiological and biochemical expressions of dysautonomic reactions and physiological stress, and their relations to sympathetic activation in traumatic brain injury patients treated in the neurointensive care unit.
Type 2 diabetes mellitus (T2DM) is always accompanied with nonalcoholic fatty liver disease (NAFLD).This prospective study was designed to reveal the potential clinical application and underlying mechanisms of canagliflozin in the treatment of type 2 diabetes combined with nonalcoholic fatty liver disease.
The COcoa Supplement and Multivitamin Outcomes Study (COSMOS; NCT02422745) is a randomized clinical trial of cocoa extract supplement (containing a total of 500 mg/d flavanols, including 80 mg. (-)-epicatechins), and a standard multivitamin supplement to reduce the risk of cardiovascular disease and cancer among men aged 60 years and older and women aged 65 years and older. This ancillary study is being conducted among participants in COSMOS and will examine whether the cocoa extract supplement or the multivitamin supplement has an anti-aging effect (epigenetic aging and inflammaging) and examining these findings in the context of CVD risk factors and outcomes.
This phase II trial tests the safety, side effects, and best dose of TTI-621 or TTI-622 in combination with pembrolizumab in treating patients with diffuse large B-Cell lymphoma that has come back (relapsed). TTI-621 and TTI-622 are called fusion proteins. A fusion protein includes two specialized proteins that are joined together. In TTI-621 and TTI-622, one of the proteins binds with other proteins found on the surface of certain cells that are part of the immune system. The other protein targets and blocks a protein called CD47. CD47 is present on cancer cells and is used by those cells to hide from the body's immune system. By blocking CD47, TTI-621 and TTI-622 may help the immune system find and destroy cancer cells. Pembrolizumab is a monoclonal antibody directed against human cell surface receptor PD-1 (programmed death-1 or programmed cell death-1) that works by helping the body's immune system attack the cancer and may interfere with the ability of cancer cells to grow and spread. Giving TTI-621 or TTI-622 in combination with pembrolizumab may kill more cancer cells in patients with relapsed or refractory diffuse large B-cell lymphoma.
A phase 2, multicentre, randomized, double-blind, placebo-controlled, parallel group study to evaluate the effect of tezepelumab on airway inflammation in patients with COPD.
The investigator will study the origin of fungal translocation in HIV, its relationship to the mycobiome, and its relationship to lung function and inflammation. Supported by the preliminary data and published studies, this project is based on the premise that circulating BDG derived from microbial translocation stimulates inflammation and worsens lung function in PWH. Chronic obstructive pulmonary disease (COPD) is a significant public health problem with few therapies that modify disease trajectory. COPD is a leading cause of mortality in the United States associated with increased morbidity and healthcare costs. Long-acting bronchodilators and inhaled corticosteroids are mainstays of therapy that control symptoms and reduce acute exacerbation frequency, but do not have a significant impact on mortality or lung function trajectory. The National Heart, Lung, and Blood Institute's COPD National Action Plan focuses on the critical need for research to characterize COPD risk factors and disease mechanisms in order to improve the understanding of causes and progression of disease. The ultimate goal is to provide precision therapy to appropriate patient subgroups to preserve health or arrest disease progression. Microbial organisms in the gut may have a profound effect on lung disease. The role of the gut-lung axis, defined as the cross-talk between gut microbiota and the lungs, in the pathogenesis of chronic respiratory diseases is emerging as an area of interest. Perturbations of gut microbiota characterized by low microbial diversity and changes in microbiota abundance are linked to childhood asthma risk, airflow obstruction in adult asthma, and severe lung dysfunction in cystic fibrosis. Studies in animals show that both a high fiber diet that modulates gut microbiota and an abundance of beneficial bacterial strains attenuate inflammation, emphysema, and COPD development in response to cigarette smoke exposure in murine models. In humans, recent investigations show differences in the gut microbial communities between COPD patients and healthy individuals as well as shifts in the gut microbiome with acute exacerbations of COPD.
Acute myocardial inflammation is an heterogenic syndrome involving different clinical pathologies with different outcome. For the purpose of this study protocol, we focuse on three entities of this syndrome, namely the acute cellular cardiac allograft rejection (ACR), cardiac sarcoidosis (CS) and the immune checkpoint inhibitor induced myocarditis (ICIM), for which non-invasive diagnosis remains challenging. Since accurate diagnosis of myocardial inflammation in an early stage is crucial, this study aims to investigate the accuracy of [68Ga]Ga-PentixaFor as a marker of for the presence of inflammatory cells (T-lymphocytes and M1) in described patients. The identification of a correlation between [68Ga]Ga-PentixaFor myocardial accumulation with currently accepted diagnostic tools would open up new ways to non-invasively diagnose acute myocardial inflammation.