View clinical trials related to Inflammation.
Filter by:Study to enroll up to 90 individuals, those with an alcohol use disorder (AUD) (up to n=60) and non-dependent healthy volunteers (HV) (up to n=30). PET/CT imaging will be used to evaluate brain and whole-body inflammation using the investigational radiotracer [18F]NOS. All participants will have one [18F]NOS positron emission tomography/ computed tomography (PET/CT) scan performed.
The objective of this clinical study is to demonstrate efficacy and feasibility of a long-term dietary intervention to modify intestinal inflammation in high-risk patient cohorts. To this end a 78 weeks wheat protein-free diet will be administered in patients with inflammatory bowel disease (IBD) with and without associated primary sclerosing cholangitis (PSC-IBD).
Diet can influence the body's healing and repair mechanisms. A dietary imbalance obviously cannot trigger periodontal disease in the absence of a primum movens, which is bacterial plaque. However, it can condition its severity and extent by altering the permeability of the oral mucosa, the effectiveness of the immune response and the reparative potential of the gingival tissues. Nutraceuticals is the science that studies the effects of the so-called food-drug, i.e. those foods that contain substances capable of performing a pharmacological function, modifying the functions of the organism. In particular, some molecules that are assimilated through various foods are able to penetrate the cell nucleus and influence, through an epigenetic mechanism, the expression or otherwise of some genes. The aim of our controlled study is to understand whether a vegetarian/vegan diet can be considered as protective for periodontal health compared to an omnivorous diet. For this purpose, we used a test group of 22 omnivorous subjects and a control group of 22 vegetarian/vegan patients in which experimental gingivitis was induced.
This is a self-controlled cohort study to evaluate the efficacy and safety of comprehensive treatment in patients with inflammation-associated rapidly-progressive coronary artery disease (IR-CAD) by comparing the study endpoints before treatment with those after treatment in the same group of patients.
A experimental interventional prospective study will include patients with squamocellular carcinoma of the larynx surgically treated at the tertiary referral center. Clinical and demographic characteristics of the patients would be noted. The visual analog scale (VAS), Brief Pain Inventory questionnaire, Diagnosing Neuropathic Pain 4 (DN4) and Pain Detect Questionnaire were used for pain assessment. Questionnaire Quality of Life in Head and Neck Cancer Patients (QLQ - H&N35) was used to assess the quality of life in patients with surgically treated laryngeal carcinoma. The type and consumption of analgesics used after surgery was monitored. The analgesics were used according to WHO Ladder. Blood samples ware taken from the patients for the analysis of oxidative stress parameters and inflammation parameters before the operative treatment and after the operative treatment (1-2 postoperative day and 9-10 postoperative day). The concentrations of interleukin 1 (IL-1) and 6 (IL-6), glutathione peroxidase 1 (GPX1), superoxide dismutase 1 (SOD1) and malondialdehyde (MDA) in the serum were determined. The aim of the study will be to assess concentrations of inflammatory biomarkers (IL-1, IL-6) and oxidative stress factors (MDA, SOD, GPKS1) in postoperative course in surgically treated patients with laryngeal carcinoma and in possible complication occurrence. Also, their correlation to type and dosage of used analgesics, to pain assessment questionnaire scores and QOL questionnaire scores in surgically treated patients with laryngeal carcinoma will be assessed.
Background: The lung is a privileged organ; blood does not reflect most lung processes well, if at all. Therefore, for population scale diagnostics, the investigator team is developing non-invasive portals to the lung, for eventual early detection/risk assessment and diagnostic purposes. However, large macromolecules are not likely suspended nor readily detected in the breath. In particular, genomic DNA in the breath condensate (EBC) is very sparse, and where present, generally highly fragmented, not readily amenable to sequencing based assessments of DNA somatic mutation burden or distribution. Because gDNA (and protein) is challenging to obtain non-invasively from EBC, the study team considered alternative surrogate lower airway specimens. Cough capture is rarely done, and the investigator team is in the process of optimizing its collection. Importantly, the team will be evaluating how much of coughed material is from saliva contamination. Additionally, analyzing material that is target captured by capturing deep lung extracellular vesicles (EVs) using immobilized CCSP/SFTPC antibodies targeting EVs from distal bronchiole Club and alveolar type 2 cells could circumvent the mouth contamination problem, leaving a non-invasive portal to the deep lung suitable for large molecules, and in turn suitable for myriad epidemiologic and clinical applications. Proposal: The investigator team proposes (Aim 1) to pursue optimizing cough collection, and testing the efficacy and practicality of partitioning cough specimen for deep-lung specific extra-cellular vesicles (EVs). This cough specimen will be compared to that from invasively collected deep lung samples BAL/bronchial brushings, and to the potential contaminating mouthrinse, all from the same individuals. (Aim 2) The study team initially proposes to examine these cough specimens for somatic mutations by SMM bulk sequencing for single nucleotide variation, developed in the Vijg/Maslov labs. Finally, the investigator team will (Aim 3) test all airway specimens (cough, mouthwash and BAL) for lung surrogacy of cough, using proteins known to be specific for lung, as opposed to oral cavity/saliva, in the Sidoli/proteomics core. Impact: The investigator team envisions that the translational impact of non-invasively obtained DNA or protein markers could allow for more rapid acute clinical diagnoses, and facilitate precision prevention and/or early detection of many acute and chronic respiratory disorders, including lung cancer, asthma and COPD, acute and chronic infectious diseases, and indeed systemic disorders of inflammation and metabolism.
The purpose of this 10-week, double-blind, placebo-controlled study is to determine whether inflammation impacts reward and motor neural circuitry to contribute to depressive symptoms like anhedonia and psychomotor slowing in people with Human Immunodeficiency Virus (HIV) and depression. Sixty male and female patients with HIV who have depression, anhedonia and high inflammation and are stable on effective treatment for their HIV will be randomized to receive either the anti-inflammatory drug baricitinib or a placebo for 10 weeks. Participants will complete lab tests, medical and psychiatric assessments, neurocognitive testing, functional MRI (fMRI) scans, and optional spinal taps as part of the study. The total length of participation is about 5 months.
Benralizumab is a relatively new treatment that is approved by NICE (National Institute for Health and Care Excellence, https://www.nice.org.uk/) for patients with severe asthma who have ongoing eosinophilic inflammation that remains poorly controlled despite high dose inhaled glucocorticosteroid medication. Eosinophils are a type of white blood cell that are linked to allergy and inflammation and are raised in people with severe asthma. Severe asthma is associated with a type-2 (T2) inflammation phenotype characterised by increased T2 cytokines (IL-13, IL-4, IL-5). Increased levels of eosinophils can cause inflammation in the lungs, increasing the risk of asthma attacks. The standard treatment for asthma involves taking inhaled glucocorticosteroid medication which primarily work by suppressing eosinophilic inflammation in the lungs. Benralizumab is a monoclonal antibody that targets a receptor on the surface of eosinophils called interleukin-5 receptor-α (IL-5Rα) leading to the rapid death of these cells and consequently a reduction in airways inflammation. In clinical trials, benralizumab has been shown to reduce both symptoms and the number of asthma attacks suffered by those with severe eosinophilic asthma. However, it remains unclear whether this clinical efficacy relates purely to the removal of the eosinophil, or additionally to the impact of this on other parts of the immune system. The BEUTI study will examine the structure and function of airway cells in patients with severe eosinophilic asthma. Particularly how the immune function of these cells changes with treatment and whether benralizumab leads to a reduction in T2 mediators and/or activation in airway cells. The aim is to take samples of cells from the airways during a bronchoscopy (a camera test looking into the lungs) before starting benralizumab and after 12 weeks of treatment. These investigations will allow us to better understand how benralizumab affects the cells within the airways and the pathways involved.
Chronic inflammation in polycystic ovary syndrome (PCOS) may be the result of dysregulation of cytokine production (due to insulin resistance, excess visceral fat and hyperandrogenemia), i.e., overproduction of pro-inflammatory factors (e.g. TNF, IL-1, IL-6) in relation to anti-inflammatory ones (IL-10). This condition may be an important link between obesity and insulin resistance, which is crucial in the etiopathogenesis of the syndrome. However, it is not known whether it results from the tendency to accumulate adipose tissue or is a feature of the syndrome itself. Concomitant endocrinopathies, i.e. obesity, dyslipidemia, insulin resistance, diabetes and thyroid diseases, may additionally influence the activity of chronic inflammation. There is no data indicating the relationship between chronic inflammation and PCOS phenotypes, the severity of metabolic disorders, ovarian reserve and the influence of thyroid function on its activity in PCOS.
The purpose of the study is to compare the effect of consuming full-fat (regular) and fat-free (skim) milk, as well as full-fat and fat-free yogurt (a fermented dairy product), on microorganisms in your gut as well as the products produced by the gut microbes. We will also determine whether consuming these dairy products affects risk factors for heart disease.The findings of the study will help us determine if heart disease risk factors are modified by the fat content and fermentation of milk. The results may facilitate refinement of public health dietary guidance for cardiovascular disease risk reduction.