View clinical trials related to Inflammation.
Filter by:This research will investigate the hypothesis that resveratrol when given orally to healthy adult smokers induces a decrease in the inflammatory and oxidative mediators which characterize the low-grade systemic inflammatory state and the oxidants-antioxidants imbalance of tobacco users.
This study will determine if a comprehensive antioxidant/anti-inflammatory dietary supplement pack can offer protection against a decline in lung function and increase in inflammation and oxidative stress following acute exposure to particulate matter air pollution with a diameter <2.5 µm (PM2.5). The investigators hypothesis is a follows: Compared to an appropriate control, supplementation with a comprehensive antioxidant/anti-inflammatory dietary supplement pack for 18 weeks will: 1) reduce the decline in lung function following acute exposure to naturally occurring elevations in PM2.5 levels as measured by exhaled nitric oxide levels and forced vital lung capacity; and 2) reduce changes in pro-inflammatory cytokines following acute exposure to naturally occurring elevations in PM2.5 levels as measured by plasma levels of C-reactive protein.
Air pollution is linked to respiratory and cardiovascular disease. Wood smoke is a common air in many parts of the world and previous studies indicate that wood smoke induce oxidative stress in the respiratory tract. It is not determined how different types of biomass combustion affect human health. In this study the investigators plan to investigate how inhalation of wood smoke and pellets smoke affect respiratory and cardiovascular health.
Despite decades of research, the mortality in acute lung injury remains very high and treatment options are very limited. Given these facts, the best treatment modality may be in prevention of this lethal syndrome. Historically, imaging has played a crucial role in understanding ALI. The appearance of chest radiography is one of the consensus criteria in defining ALI, and commuted tomography (CT) scans further advanced the understanding of the pathoanatomy of ALI. While valuable, these imaging modalities are nonspecific and do not incorporate functional cellular physiology. PET imaging measures concentrations of radioisotopes in the body. By embedding in, but not altering molecules, the natural fate of these tracers can be studied with PET imaging. Advances in the understanding of ALI include blood flow distribution, as well as the response to alveolar recruitment maneuvers and prone positioning. Not all patients who are receiving mechanical ventilation develop ALI. Inflammation in the lungs is known to play a key early role in the development and progression of ALI. Secondary to inflammation, the lungs develop edema and do not exchange oxygen as well. This early inflammation is in part driven by a specific type of immune cell called the neutrophil. These cells seem to travel and become sequestered in the lung- they are "recruited" to the lung during this inflammatory stage. When there, these neutrophils release inflammatory substances which are integral in the development of ALI. Neutrophils use primarily glucose as a fuel source. The radio isotope [18F]Fluorodeoxyglucose (FDG)is a glucose analog and therefore taken up/ingested by the neutrophils as a part of their normal metabolism. Because of this fact, positron emission tomography (PET) using the radio isotope [18F]FDG is a highly sensitive marker to look at the recruitment of neutrophils to the lung, therefore quantifying the degree of pulmonary inflammation prior to the development of ALI. The investigators seek to examine the relationship of pulmonary inflammation in patients at risk for ALI, but without clinical evidence of the syndrome. The investigators seek to enroll ten patients in a pilot trial.
This will be a single center study of asthmatic subjects and healthy controls which will investigate mechanisms of asthma through detailed molecular analysis of airway tissues and fluids. The primary goal will be investigate the role of microRNAs in Th2-driven inflammation in asthma. The investigators hypothesize that asthma is associated with abnormal expression of miRNAs in T cells which favors differentiation into Th2-cells. The investigators further hypothesize that asthma is heterogeneous based on the presence and absence of Th2-driven inflammation and that abnormalities in T cell miRNA expression will be most prominent in a subgroup with high levels of Th2-driven inflammation (as assessed using molecular markers that the investigators have previously established). Finally, the investigators hypothesize that inhaled corticosteroids will normalize the T-cell miRNA abnormalities observed in asthma, as corticosteroids treat Th2-driven inflammation. The samples collected will also facilitate the pursuit of secondary analyses designed to investigate mechanisms of inflammation and remodeling in asthma as well as molecular phenotypes of asthma.
In the planned study, 60 patients with mild cystic fibrosis (CF) with and without the involvement of small airways (small airway disease - SAD) are to be compared with a historical control group matched in age and gender. During the first study visit subjects are asked to perform a pulmonary function test (spirometry, body plethysmography with helium, determination of "Trapped Air") and exhaled nitric oxide (eNO) and exhaled carbon monoxide (eCO) measurements will be done in exhaled air. In addition, a blood sample is drawn to describe inflammatory status. Sputum is induced as well. During the second study visit, a non-specific bronchial provocation test(methacholine PD20 FEV1) is performed. The aim of the study is to get a characterization of the bronchial and systemic inflammation (IL-1ß, IL-6, IL-8, IL-17, TNF-α, NFKB, and recognition structures like TLR2 and TLR4) in CF patients with and without the involvement of the small airways, which may point to new treatment strategies.
The purpose of this study is to determine whether use of lead free ammunitions cause more respiratory problems than use of lead containing ammunitions.
Chronic, low-grade adipose tissue inflammation is a major risk factor for type 2 diabetes mellitus. The cause of adipose tissue inflammation has remained largely unclear. We hypothesize that vitamin D deficiency predisposes individuals to the development of adipose tissue inflammation, and that treatment of vitamin D deficient subjects with high dose vitamin D will reduce adipose tissue inflammation.
The investigators investigate the impact of an encapsulated fruit, berry and vegetable juice powder concentrate on oxidative stress, inflammation and blood flow before and post exercise in overweight, middle-aged, women. Main hypotheses (H1): - The nutraceutical has an impact on oxidative stress reduction. - The nutraceutical has an impact on inflammation. - The nutraceutical has an impact on blood flow and microcirculation. - Walking exercise for 30 minutes has an impact on oxidative stress- and inflammation markers. - Walking exercise for 30 minutes has an impact on blood flow and microcirculation - The combination of nutraceutical supplementation + walking exercise for 30 minutes has an impact on oxidative stress- and inflammation markers, and on blood flow/microcirculation.
The objective of this study is to compare the efficacy and safety for the treatment of postoperative inflammation following ocular surgery for childhood cataract.