View clinical trials related to Immune System Diseases.
Filter by:Supplements and functional foods are now readily available and usable by the general population. Many supplemnets are commonly used in poly-treated patients where interactions or adverse events may develop, therefore we evaluate in the rela life the use of nutraceuticals, their clinical effects and the development of adverse drug reactions
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.
Observational study of 160 patients with sex-chromosome abnormalities and 160 matched controls. Blood, fat, muscle, skin, buccal swaps, urine will be collected and analyzed for DNA, RNA and methylation patterns. The goal is to associated genotype and epigenetic changes with the phenotype of patients with sex-chromosome abnormalities. Patients participate in questionaries, dexa-scan of bones, fibroscan of liver, ultra sound of testicles and blood will be analyzed for organ specific blood work as well as immunological and coagulation components.
Determination of autoantibodies against fragments derived from neurons, glia, and myelin sheath is instrumental in aiding diagnosis, differential diagnosis, as well as determining disease status of neuromyelitis optica spectrum disorders (NMOSD), myelin oligodendrocyte glycoprotein antibody-associated disease (MOGAD), autoimmune encephalitis (AE). Cell based assay (CBA) has been frequently recommended to detect autoantibodies of neuroantigens in the aforementioned neurological disorders. However, antibodies with low abundance or low affinity often fall beyond the threshold of CBA and pose significant challenges in practice. To this end, the investigators adopted a tyramide signal amplification (TSA) technology with the basis of CBA to improve sensitivity. The preliminary results suggest that this TSA-CBA platform is superior to conventional CBA in registered signals of the titer autoantibodies. In elevating the sensitivity, TSA-CBA also preserves antigen confirmation. This prospective study is launched to compare the sensitivity, specificity, clinical correlation between CBA and CBA-TSA, in determining autoantibodies against aquaporin 4 (AQP4-IgG), myelin oligodendrocyte glycoprotein (MOG-IgG), N-methyl-D-aspartate receptor (NMDAR-IgG) in a multicenter, double-blind setting.
Background: Diseases involving blood, blood vessels, and immune systems are leading causes of death in the United States. Researchers studying these diseases need to compare blood samples from both healthy and sick individuals. Blood samples from healthy people are also used to establish what is normal when developing new tests for diseases and to make sure new testing equipment is working properly. Objective: This natural history study will collect blood samples from healthy people. The blood will be used for various kinds of research. Eligibility: Healthy adults aged 18 years or older. Pregnant or nursing women will be excluded. Design: Participants will have a telehealth visit or telephone call to review their medical history. They will come to the NIH Clinical Center. They will have a needle inserted into a vein in their arm or hand. About 10 tablespoons of blood will be drawn through the needle. Researchers may perform a complete blood count, a type of blood test that can help evaluate the participant s overall health. They may do a blood type test. The blood samples will also be used for genetic studies. Some blood samples may be stored for use in future research. Participants may choose to return for repeat visits for up to 10 years. Review of their medical history may also be repeated at later visits. They will receive $50 per blood collection visit. ...
Managing patients with renal failure requires an understanding of the molecular mechanisms that lead to its occurrence (i.e. upstream of the disease), its worsening and its persistence (i.e. downstream), while also specifying the risk of worsening renal failure (risk stratification, intolerance to the treatment or complications (infectious, metabolic, cardiovascular, cancer…). Nephrogene 2.0 aims to study these different components of kidney, immune and solid organ transplantation (SOT)-related diseases.
In this study the response to vaccination and development of the immune system in very preterm infants upon the current vaccination schedule will be compared to healthy term infants.
Immune checkpoint inhibitors (ICI) are among the most promising approaches to fighting cancer. However, a substantial percentage of patients experience off-target adverse effects in the form of mild to severe inflammation in different organs, commonly called immune-related adverse events (irAEs). irAEs can lead to treatment discontinuation, or can be life-threatening in extreme cases. The causes of irAEs are largely unknown and there are no reliable predictive biomarkers. The Montreal Immune-Related Adverse Events (MIRAE) study collects clinical information and biospecimens (blood, tissue, stool) from cancer patients treated with ICI to facilitate research on the identification of predictive biomarkers of irAEs, their causes, and the design of effective management strategies.
In the PRINCE study we recruit healthy but also diseased pregnant women into a cohort study, followed by the assessment of children´s health and immunity at birth and during the first 10 years of life. This unique cohort allows for testing the impact of prenatal challenges on children´s health.
Background: Immunosenescence is an aging-dependent phenomenon underlying age dependent deterioration in the function of the immune system, characterized by a decline in B and T cells with a relative increase in natural killer (NK) cells. Aging also promotes chronic inflammation accompanied by increased levels of pro-inflammatory cytokines. Both immunosenescence and inflammation contribute to frailty, which is a geriatric syndrome characterized by age-related deterioration in multiple physiological systems resulting in greater vulnerability to stressors and increased risk of poor outcomes including longer hospital stays, postoperative complications, poor responses to vaccination, functional decline, and death. Although pharmacological interventions could be developed to address immunosenescence, inflammation and frailty, a dietary intervention that does not cause weight or muscle loss may be a preferable option, particularly if it is periodic in nature and it only needs to be adopted for a few weeks per year. Hypothesis: We will test the hypothesis that a newly formulated and relatively high calorie fasting mimicking diet (FMD) to be administered to subjects age 65-80 once a month for 5 days for two to six cycles can partially reverse immunosenescence and inflammation, thus contributing to the reduction of frailty. Aims: This proposal is divided into 2 main tasks: Task 1: We will determine whether FMD cycles in mice: a) prevent frailty syndrome onset and symptoms B) delay or reverse age-related immunosenescence and inflammaging, C) improve the functionality of bone marrow cells, D) enhances the response to flu vaccination. Task 2: A )We will develop a special relatively high calorie FMD medical food for testing in humans, B) We will test the safety and efficacy of the FMD medical food in an aged and frail individuals (65-80 yr) for 2-5 day cycles preceding their annual influenza vaccination. Expected results: In mice, we expect that the FMD diet will reduce the clinical signs of frailty during aging, and in particular increase immune system influenza vaccine response by preventing immunesenescence. We expect that the FMD will reduce phosphorylation of mTOR and of its downstream targets, and induce autophagy and apoptosis in WBCs. These effects are anticipated to remove damaged cells and promote the activation of hematopoietic stem cells and the generation of new WBCs. We also expect that the transient increase in corticosteroids and removal of damage immune cells will be accompanied by a decrease in systemic inflammation. Increased performance on rotarod and other measures of frailty is also anticipated. In humans, we expect that the FMD will be well tolerated by the pre-frail elderly without major adverse events and that it will be possible to achieve high compliance to this diet. We also anticipate that elderly undergoing the FMD protocol followed by 30 days of a normal diet plus supplements will exhibit better functional status and better response to the flu vaccine as compared to patients from the control arm. An improvement in handgrip strength and in lean body mass, as detected by BIA, is also expected, at least in a fraction of the patients from the intervention arm. Impact: Frailty is a geriatric syndrome characterized by age-related deterioration in multiple physiological systems and homeostatic mechanisms, resulting in greater vulnerability to stressors and increased risk of poor outcomes including longer hospital stays, postoperative complications, poor responses to vaccination, functional decline, and death. Thus, the identification of a dietary strategy, potentially to be applied for only 10 days a year but able to rejuvenate the immune profile and function while reducing systemic inflammation could have a major impact on both healthspan and health-related expenses. Because older individuals are often taking multiple drugs, the dietary intervention being investigated here would also reduce the potential toxicity of an additional pharmacological intervention.