Active clinical trials for "Immune System Diseases"

Effective therapy for human immunodeficiency virus (HIV) infection has markedly prolonged survival in infected individuals. As a result, other diseases are now becoming clinically significant. Approximately 30% of HIV infected patients are co-infected with hepatitis C virus (HCV) which is now the leading co-morbid disease in co-infected individuals. The histologic severity and natural history of HCV has been reported to be accelerated in those co-infected with HIV. It is hypothesized that 1) the severity and progression of HCV disease is related to the immune competence of the individual, 2) immune restoration associated with HIV therapy may further accelerate the progression of HCV disease which may explain the marked increase in HCV related morbidity and mortality observed in recent years, and 3) the virologic response to anti-HCV treatment is directly related to the degree of immunologic competence. The specific aims of the proposal are: 1) To obtain, through multi-disciplinary didactic teaching, the necessary skills of clinical research design, data collection, data analysis, and biostatistical methods and 2) To study the impact of HIV disease on HCV, the effect of the immune function and immune restoration during HIV therapy on the natural history of HCV, and the efficacy of HCV treatment in HIV co-infection.

This study will explore screening for immunodeficiency diseases (diseases that cause problems in fighting infections). There is no method at present to screen all babies at birth for immunodeficiency. However, babies with low numbers of T-cells-an important type of immune system cell-may be found by studying T-cell products called TRECs (T-cell receptor excision circles). This study will: Collect samples from children with several different immunodeficiencies to find out which disorders can be found by screening dried blood spots for TRECs. Try to develop screening tests based on other kinds of material derived from dried blood spots. Children with primary immunodeficiency and low numbers of T cells who have not had a bone marrow transplant may be eligible for this study. Participating children donate up to 5 ml (1 teaspoon) of blood. The sample may be collected when the child is having other blood tests. The liquid blood is analyzed to determine the number of T cells, and the rest of the blood is used to make dried blood spots on filter paper. The blood spots are used to develop screening tests for immunodeficiency. The blood spots and data about the child's age, diagnosis, and current medicines will be kept coded by diagnosis and a code number instead of the child's name.

The impact of the environment on human health is considerable. An important factor is the effect of temperature on the human body, where either the effects of short-term exposure to extreme temperatures (cryotherapy, sauna, etc.) or the long-term environmental impact are monitored. The study was focused on research of the long-term effect of repeated CWI on atherogenesis, lipid parameters and fat distribution.

Several drugs and chemotherapies seem to have an impact on the immune system. This study investigates reports of immune toxicities such as antiphospholipid syndrome, including the International classification of disease ICD-10 for treatments in the World Health Organization (WHO) global Individual Case Safety Report (ICSR) database (VigiBase).

In light of the current coronavirus disease 2019 (COVID-19) pandemic, the investigators want to better study the immunological characteristics of Severe Acute Respiratory Syndrome-Coronavirus 2 (SARS-CoV2) infections in adults. The investigators invite volunteers to participate in a clinical study to better understand what happens after an infection with SARS-CoV2. By collecting and analysing blood samples of people that were infected, the investigators want to evaluate whether or not the participants had an adaptive immune response with the producting of immunoglobulin. The investigators will evaluate the quality of the antibodies and their neutralising capacity. In a selected patient group with strong antibody response, the investigators will try to reproduce them in the lab after the collection of a larger blood sample (max 72 mL) of, in case of insufficient B-cells, a leucapheresis (after consent of the patient). These antibodies can be used in clinical trials to evaluate whether the investigators can cure patients faster or prevent disease by the utilisation of these antibodies. Aside from the aforementioned information the investigators will also collect clinical data such as: demographic information, medical history, routine lab results, radiographic imaging and medication use. After the completion of the study, the samples will be stored for 30 years with consent of the participants.

Early-onset Preeclampsia (PE) is a pregnancy disorder which may present with adverse pregnancy outcomes. Nectin-4 is an adhesion molecule mainly expressed in placenta. This study aimed to evaluate the relationship between early onset Preeclampsia and serum Nectin 4 levels.

The primary goal of this study is to provide additional data regarding B and T-cell mediated responses to COVID-19 vaccines in MS patients treated with OCR and to determine which clinical and paraclinical variables correlating with vaccine immunogenicity. B-cell mediated humoral responses and adaptive T-cell mediated cellular responses were measured in patients treated with OCR who received any of the available SARS-CoV-2 vaccines, 3-4 weeks after completion of vaccination.

The purpose of this study is to investigate the differences in the quality of life of patients and caregivers who are treated by general pediatricians versus pediatric dermatologists for eczema (atopic dermatitis or AD).

The primary purpose of the study is to describe by a prospective observational study the serious adverse events occurring in patients treated off-label by rituximab for various auto-immune diseases.

Background: - There are many types of immune disorders. These range from rare immune deficiencies to allergies to autoimmune disease like rheumatoid arthritis. Genes are the instructions our body uses to work and develop. A new technology called whole exome sequencing may help find the cause of these disorders. Whole exome sequencing is a way to look at many genes at once for errors. Researchers hope to find new gene changes that lead to immune disorders. Additionally, researchers are interested in finding the best way to manage unexpected but important findings by whole exome sequencing. Objectives: - To better understand genetic causes of immune system disorders. Also, to better understand people s thoughts and feelings about immune system disorders and new genomic testing. Eligibility: - People ages 0 100 with an immune disorder or a relative with an immune disorder. People must be at least 2 to be evaluated at the NIH clinical center. People must be at least 12 to do the survey/interview portion of the study. Design: Participants will have their genes sequenced. They may be asked for a new sample of blood. If participants cannot come for a study visit, they can have a blood sample collected by their local lab or doctor and sent by mail. Researchers may or may not find the cause of the participant s immune disorder. Participants will learn that information. Some participants may be asked to return to NIH to get results and have more tests. Researchers may share information with other studies. The data will be anonymous. For the survey part of the study, participants will answer questions about their or their relative s immune disorder. They will also answer about their thoughts and feelings about genomic testing. Some participants will be asked for a brief interview to ask more about the survey topics. There may be more follow-up after several months.