View clinical trials related to Inflammation.
Filter by:To evaluate the efficacy and safety of fixed combination of azithromycin 1.5% + 0.5% Loteprednol eye drops for the treatment of ocular inflammation and infection associated bacterial blepharitis and / or keratitis and / or conjunctivitis compared with the individual administration of azithromycin 1.5% and 0.5% Loteprednol (separately).
Our study addresses the following research question: What is the role of obesity in modulating inflammation and innate immune function, as well as the overall responsiveness of innate immune cells (such as macrophages, neutrophils, and other peripheral leukocytes) in patients undergoing peritoneal dialysis? The investigators hypothesize that obesity will lead to increased inflammation in patients undergoing peritoneal dialysis.
The purpose of this study to determine whether Fish oil (Omega-3 Fatty Acid) supplementation has an impact on inflammation and lean body mass in older adults. The investigators expect that Fish oil supplementation will reduce inflammation and prevent the loss of lean mass compared to placebo.
Obesity is strongly associated with risk of cardiovascular disease (CVD). Data increasingly suggest that visceral adipose tissue (VAT) accumulation -- or increased abdominal fat -- is particularly deleterious to cardiovascular health, but further study is needed to test this idea. Increased abdominal fat may also be associated with lower secretion of a hormone called growth hormone (GH), which helps the body burn fat. The current study aims to carefully characterize relationships between abdominal fat and CVD. In addition, by using a medication called growth hormone releasing hormone, which is a strategy to reduce abdominal fat, the investigators will test the hypothesis that abdominal fat contributes uniquely to increased arterial inflammation. In the first part of this study, the investigators will investigate both lean (healthy weight) individuals and individuals with increased abdominal fat. The investigators will study their body composition, cardiovascular risk measures, insulin sensitivity, and growth hormone dynamics, with the hypothesis that abdominal fat, independent of general obesity, will be strongly associated with arterial wall thickening and atherosclerotic inflammation. The investigators will assess arterial wall thickness, plaque morphology, and atherosclerotic inflammation, and the investigators will determine associations between these variables and regional fat accumulation, with particular attention to abdominal fat. The second, treatment part of the study will be only for individuals with increased abdominal fat who are found to have low growth hormone secretion. In that part of the study, the investigators will test the effects of a growth hormone releasing hormone (GHRH) analogue to reduce abdominal fat and, consequently, reduce arterial inflammation. The investigators hypothesize that abdominal fat reduction, independent of changes in growth hormone, will reduce arterial inflammation and arterial wall thickness.
Objective of the research study: 1. To measure anterior chamber and vitreous ketorolac (Acuvail®) concentrations after topical administration in patients undergoing routine vitrectomy to determine the ability of the medication to penetrate into the anterior chamber and vitreous cavity, and to compare these levels to the IC50 for the cyclooxygenase-1 and -2 enzymes (COX-1 and COX-2) 2. To measure vitreous concentrations of prostaglandin subtypes (PGE, PGD, PGF) and other inflammatory mediators (Interleukin-1β [IL-1β], IL-6, IL-8, tumor necrosis factor [TNF]-α, VEGF) in both diabetic and nondiabetic patients undergoing vitrectomy 3. To determine if topical ketorolac (Acuvail®) can penetrate the anterior chamber and vitreous cavity sufficiently to decrease levels of intraocular inflammatory mediators that have been shown to be elevated in diabetic patients 4. To serve as a precursor to a 5-year longitudinal clinical trial to determine if chronically administered topical ketorolac (Acuvail®) can prevent, delay or slow diabetic retinopathy. Research hypothesis 1. Ketorolac (Acuvail®) will penetrate the anterior chamber and vitreous cavity sufficiently to achieve levels above the IC50 for COX-1 and COX-2 2. Prostaglandin and other inflammatory mediator levels in the anterior chamber and vitreous cavity will be significantly higher among diabetic patients than nondiabetic controls 3. Acuvail® can significantly lower anterior chamber and vitreous cavity levels of prostaglandins and other inflammatory mediators in diabetic patients
Pharmacology of Exenatide in Pediatric Sepsis, PEPS is a phase 1-2 research study that will examine drug safety, drug metabolism, drug action and preliminary drug clinical effects of four does of exenatide injected every 12 hours to children with shock from infection (septic shock). The investigators hypothesize that exenatide can be safely dosed to children with sepsis to achieve blood levels of drug similar to that achieved in teenagers with type 2 diabetes. The investigators further hypothesize that injection of exenatide to children with septic shock will normalize blood glucose levels and decrease levels of inflammation proteins in the blood during the early course of sepsis.
Active forms of vitamin D and its analogs are used to treat elevated parathyroid hormone levels and bone disease in chronic kidney disease (CKD). More recent animal and human studies suggest that treatment with vitamin D may be associated with reduction of inflammation and urinary protein loss as well as reduction the activity of the renin angiotensin system (RAS) in addition to its effects on the bone metabolism. The investigators of this study have used the new technique of contrast enhanced ultrasound (CEU) to measure the flow of blood to the kidney in other human studies. In this study, the investigators will investigate if 3 month of treatment with an active form of vitamin D in individuals with kidney disease and high parathyroid hormone levels would reduce protein loss in the urine. The investigators will also look at the potential changes in blood flow to the kidney using CEU, kidney function (GFR), inflammation and activity of RAS in response to treatment with active form of vitamin D. Finally, they will examine the association between reduction of protein loss in the urine as shown in other studies with any of the other factors measured (e.g, change in blood flow or inflammation).
Exposure to noxious gases and particles is associated with an increased prevalence of respiratory and cardiovascular diseases. Thus, investigation of possible airway inflammation and/or systemic inflammation in workers exposed to high levels of dust is important. Silicon Carbide (SiC) Processing Inc. provides cutting fluid (slurry) for the production of solar cells and is at present the largest provider of slurry to the solar industry worldwide. In the production process, the recyclable materials (SiC), polyethylene glycol (PEG)) of the used slurry are recovered. The airborne exposure consists mainly of SiC (dust particles) and evaporation from the recycling of PEG. High levels of dust have been measured and, seventeen per cent of the measurements in the processing hall were equal to or higher than the Norwegian occupational exposure limit. Thus, assessment of possible systemic and airway effects of this exposure is of interest. A prospective design will be applied and the effects studied by means of registration of respiratory symptoms, spirometry, nitric oxide (NO) in exhaled air, induced sputum and blood sampling over a 3 year period. Exposed subjects will also be compare with non- or low exposed subjects (administrative/office workers). Efforts will be made to include all eligible subjects and to avoid drop-outs. If early signs of airway or systemic inflammation in workers or in cells are demonstrated in the study, it will be necessary to implement measures to reduce the exposure levels. The primary aim of the present study of workers exposed to Silicon Carbide dust in the workplace is to determine whether this exposure is associated with inflammatory changes in the lungs. The secondary aims are: - to examine possible changes in systemic inflammatory markers and - to examine changes in lung function among Silicon Carbide processing workers during a period of 3 years. Possible changes in lung function will be monitored by spirometry and gas diffusion measurements (study A). Airway inflammatory responses and changes in circulating inflammatory markers will be assessed by examination of the induced sputum samples and blood samples every 6th month in a subgroup of workers (study B).
Multicenter clinical trial, phase III, controlled by active medicine, open, randomized, enroll 962 children, 2 to 12 years old, that suffer acute inflammation upper airway characterized by non-productive cough, daytime/nighttime, with duration for at least 3 and no more than 5 consecutive days (without systemic/topic use of medication during this period) followed by nasal congestion, with or without associate other nasal symptoms (sneezing, runny nose, nasal itching and/or mouth breathing). The subjects will be allocated in 2 parallel groups, and will receive the medicines of study, according of the randomization.
Myocardial infarction (heart attack) is usually the consequence of rupture of a fatty 'plaque' in a heart artery. The presence of this fat and debris causes the propagation of a blood clot and blockage of the artery. The heart muscle normally supplied by the artery becomes deprived of oxygen and, if starved for long enough, this area of muscle dies. Much of the heart muscle damage is caused by overactivation of inflammatory cells. Whilst inflammation can be beneficial in healing processes, there is accumulating evidence that overactivation of inflammatory processes contributes to further muscle damage and cell death during myocardial infarction. We have recently developed a means of labelling human blood cells with 'nanoparticles' of iron oxide which can then safely be reinjected into the blood to allow the cells to be tracked and seen in the body using a conventional magnetic resonance scanner. In the proposed study we aim to recruit patients with recent heart attacks to perform similar cell labelling and reinjection of labelled cells into the same volunteer's blood stream via the arm to track the fate of the blood cells over the course of days to months. We think that the labelled inflammatory cells will 'home' to the site of the heart attack and will be visible using magnetic resonance imaging (MRI) of the heart. We aim not only to highlight the role of inflammatory cells in myocardial infarction, but also propose that, if successful, this technique could be used in the future to assess the effects of antiinflammatory treatments currently being developed for the treatment of patients with heart attacks. The technique could also be extended to allow labelling of other cell types, including stem cells, to let us further understand how these cells may contribute to repair of damaged organs including the heart.