View clinical trials related to Inflammation.
Filter by:This study will test the efficacy and safety of IBI-10090 for the reduction of ocular inflammation after cataract surgery.
In the elderly a chronic basal systemic inflammation prevails - which is evident by enhanced CRP or IL-6 plasma concentrations - and by compromised defense mechanisms against invading microbes. These alterations belong to the physiological ageing process of the immune system (immunosenescence) and are regarded as an inflammatory response towards lifelong antigen stress ("inflammatory/pathogen burden"). This lifelong antigen stress evokes an age-dependent basal inflammatory activation of innate immunity as well as a wasting of specific immunity: it is supposed that in the course of life-time due to a multitude of infectious/inflammatory events ("multiple hits") an inflammatory stress prevails or "inflammatory/pathogen burden" accumulates, which substantially contributes to an enhancement of the inflammatory parameters of natural immune response. Such enhanced inflammatory parameters characterize persons at increased risk of degenerative diseases like atherosclerosis or coronary heart disease. The risk is the higher, the higher the "pathogen burden". An impact of the inflammatory load on cardiac ageing has not yet been described. "CARDIAC AGEING", REFLECTED BY A NARROWING OF HEART RATE VARIABILITY: The physiological ageing process of the heart goes along with a narrowing of heart rate variability as shown by various groups, including our own. Arguments in favour of a causal relationship between inflammation and cardiac ageing come from an experimental study with healthy human volunteers who had received a low dose of endotoxin: such a proinflammatory stimulus leads to a reversible narrowing of heart rate variability (7). Also in senescence heart rate variability steadily declines, paralleled by a steady increase of basal inflammatory activity. The reduction of heart rate variability also is regarded as a sensitive parameter of autonomic dysfunction, which contributes to the compromise of cardiac reserve in old age. Apart from typical morphological features and functional deterioration, e.g. diastolic dysfunction, the senescent heart is typically characterized by a narrowed heart rate variability. Efforts have been made to estimate the cardiac age of an individual by this compromised heart rate variability, which may be divergent to the biological age. In recent years diverse approaches were proposed to measure cardiac age on the basis of heart rate variability. The published mathematical formulae were mostly validated with small patient groups and have presently not entered clinical practice. Still heart rate variability is an accepted surrogate parameter of cardiac ageing and is amenable by therapeutic measures, e.g. beta-blockade. The interaction between autonomic nervous system and inflammation is bilateral: thus vagal stimulation can improve heart rate variability and at the same time evoke anti-inflammatory action: this "cholinergic anti-inflammatory" reflex could make the basis for pharmacological interventions to confine overwhelming inflammatory response syndromes. The afferent vagal nerve, on the other hand, can be stimulated by inflammatory mediators and toxins (endotoxin, Interleukin-1), thus activating the efferent vagus to release acetylcholine, which can bind to a nicotinergic acetylcholine receptor on macrophages and thus interrupt cytokine release and limit the rise in the blood levels of proinflammatory cytokines (TNF, IL-6). The biological meaning of this reflex is to localise inflammatory reactions in the organism and prevent a spill of cytokines to the circulation. A functioning autonomic nervous system is thus mandatory to prevent overshooting of inflammatory response to infection and non-infectious stimuli. The link between cardiac ageing and autonomic dysfunction gives another argument in favour of the notion that autonomic dysfunction and pathogen/inflammatory load could be factors promoting cardiac ageing. This, on the other hand, implies the chance of slowing down the cardiac ageing process by successfully modulating the extent of autonomic dysfunction and the scope of "pathogen/inflammatory burden". THE NEED FOR A TRIAL: A possible causal relationship between basal inflammatory activation and cardiac ageing has not been established. This is the issue of the project proposal. In this trial the investigators strive to lower the "pathogen/ inflammatory load" by simple and safe measures. The investigators therefore chose treatment with statins, standardised physical training (both parameters of heart function and heart rate variability could thus be improved) and vaccinations against influenza and pneumococci to prevent a further enhanced "pathogen/ inflammatory burden".
Evidence thus suggests that steroid administration, tight glucose control, and avoidance of deep anesthesia may decrease perioperative morbidity by reducing the inflammatory response to surgery. Using a three-way factorial approach, the investigators thus propose to test the primary hypotheses that major perioperative morbidity is reduced by: 1) low-dose dexamethasone; 2) intensive perioperative glucose control; and 3) lighter anesthesia. Secondary hypotheses include that each intervention reduces circulating concentrations of the inflammatory marker CRP, and that there is a correlation between C-reactive protein (CRP) and post-operative complications. Anesthetic sensitivity predicts major and minor complications, and delirium Other secondary hypotheses are that each intervention, reduces minor surgical complications, reduces postoperative nausea and vomiting (PONV), reduces postoperative delirium, speeds hospital discharge, improves quality of life (SF-12v2 Health Survey, Christensen's VAS fatigue score), and reduces all-cause one-year mortality.
There is much evidence that localized low grade inflammatory processes may contribute to the microvascular complications of type 1 and type 2 diabetes mellitus including sight-threatening diabetic retinopathy. Some biomarkers for inflammation have been found to be elevated in diabetes patients and correlations between those biomarkers and the severity of diabetic complications have been found in the last years. The relation between this low grade inflammation and the microvascular changes observed in diabetic retinopathy is, however, not well characterized. In the present study patients with different stages of non-proliferative diabetic retinopathy will be included. Several markers of inflammation will be measured from blood samples. These markers will be related to vascular factors including flicker-induced vasodilatation as a marker of endothelial dysfunction and perifoveal leukocyte velocity and density as measured with the blue field entoptic phenomenon. In addition, the ophthalmologic status of the patients will be assessed according to the Modified Airlie House classification. A multiple regression model will be employed to study the association between the different methods.
Aims: 1. Does inflammation contribute importantly to concurrent defects in vascular and metabolic dysfunction in human pre-diabetic obesity? 2. Are there benefits of anti-inflammatory treatment strategies in pre-diabetic obesity in the context of existing treatment with metformin? 3. Are there benefits of anti-inflammatory treatment strategies in pre-diabetic obesity in the context of existing treatment with lisinopril?
The overall aim is to validate the current use of FDG PET/CT for the diagnosis of infection and inflammation and examine the usefulness of PET/CT applying also other tracers. The results should allow us to confirm our primary hypothesis: "FDG-PET/CT is better than established methods to confirm or exclude the diagnosis of infection/inflammation".
T-PA release is impaired in obese subjects. In order to have a better mechanistic understanding of t-PA release, we will compare t-PA release to Flow Mediated Vasodilation, Radial Artery Tonometry, and other markers of endothelial function and oxidative stress.
This project seeks to determine the effect of prehospital resuscitation with hypertonic saline vs. conventional crystalloids on the inflammatory response after injury. The leading cause of late mortality following injury is multiple organ dysfunction syndrome (MODS), which results from a dysfunctional inflammatory response after injury. Previous studies suggest that hypertonic saline may be beneficial by modulating this initial response and decreasing subsequent organ injury. This project takes advantage of a unique opportunity, afforded by an NIH-funded multi-center clinical trial of hypertonic resuscitation (conducted by the Resuscitation Outcomes Consortium), to obtain blood samples from patients enrolled in this trial to analyze inflammatory responses early after hypertonic vs. conventional resuscitation. This study was an ancillary study to the main randomized clinical trial and thus prospective observational in nature The proposed study will be carried out in experiments grouped in three Specific Aims: Aim 1 provides a thorough investigation of the immunomodulatory response following hypertonic resuscitation with regard to neutrophil, monocyte, and T cell responses at serial time points after injury and resuscitation. Aim 2 comprises experiments to investigate the mechanisms by which hypertonicity may alter inflammatory cell signaling. Aim 3 seeks to correlate the laboratory findings with clinical endpoints reflective of immune dysfunction including inflammation, organ failure, nosocomial infection, and sepsis. The investigators hypothesize that hypertonic resuscitation will be associated with modulation of the excessive inflammatory response seen after injury and thus will result in reduced rates of inflammatory organ injury.
The purpose of this study is to examine the link between low testosterone and insulin resistance/diabetes in men undergoing androgen deprivation therapy for prostate cancer. The study will also evaluate other cardiovascular risk factors in these men.
The primary goal of this post-marketing surveillance study is to assess whether surgical turbinate reduction performed using a Coblation® device is associated with reduced nasal obstruction symptoms.