View clinical trials related to Infections.
Filter by:Even with current HIV treatments, HIV is still a lifelong disease because it hides in some long-lasting cells in the body. One of the strategies to find a cure for HIV works by finding the virus in these cells, making it visible, and then getting rid of it. This is called the 'shock and kill' approach. So far, the drugs tested can find the virus, but they don't get rid of it completely. That's why there need to be new drugs that can do this more effectively. The Erasmus MC HIV Eradication Group (EHEG) has been testing new drugs in the lab and found a drug called topiramate can wake up the virus without harming the cells. The aim of this study is to test topiramate in people living with HIV. Most of the people that participate in HIV cure studies are men, even though most people living with HIV around the world are women. Previous research has shown that men and women might respond differently to these treatments. So, in this study, topiramate will be investigated in both men and women. This could help us find a cure that works for everyone.
Acute respiratory infection (ARI) is the commonest reason for consulting in community care. Furthermore, new and re-emerging pathogens are often first noticed in primary care (PC). The POS-ARI-PC study is a long-term study, with the aim of describing the nature of ARI in adults and children presenting to PC across Europe. The POS-ARI-PC study will provide critically important data on the presentation and management of ARI, and build a research-ready infrastructure for studies related to the treatment, diagnosis, and prevention of ARI in primary care settings. Additional observational studies will be embedded and use the infrastructure developed in POS-ARI-PC.
The goal of this observational study is to determine the incidence and spectrum of opportunistic infections among Chinese HIV/AIDS patients at this stage, to find intervention targets, to construct an early warning prediction model, and to give an individualized program with integrated immune function to obtain salvage opportunities for patients.The main questions it aims to answer are: - Describe the populations and characteristics of pathogenic microorganisms involved in HIV co-infection, map the spatial and temporal changes in the infection system of pathogenic microorganisms, and evaluate their impact on disease regression. - Explore the mechanism of interaction between pathogenic microorganisms and host autoimmune deficiencies. - Discover early warning and predictive markers and immunological indicators of pathogenic microorganisms, and explore new technologies and programs to reduce the mortality rate of infection.
The goal of this observational study is to map the pathogen profile of secondary infections in liver transplant recipients, to correlate the basic immune status with the characteristics of the secondary infection pathogen profile, and to establish an early warning system for monitoring secondary infections, so as to explore safe and effective therapeutic modalities to further reduce the morbidity and mortality of liver failure. The main questions it aims to answer are: - Characterize the distribution of pathogenic bacteria infecting liver transplant recipients. - Establish a monitoring and early warning system for secondary infections.
The goal of this observational study is to expound the population and characteristics of pathogenic microorganisms with co-infection, draw the pedigree of pathogenic microorganisms, and evaluate its influence on disease outcome in patients with hepatic virus-caused cirrhosis. The main questions it aims to answer are: - Describe the populations and characteristics of pathogenic microorganisms responsible for co-infections in patients with hepatic virus-caused cirrhosis. - Map the spectrum of pathogenic microorganisms, and evaluate their impact on disease regression.
Moesin deficiency was initially described in 7 male participants aged 4 to 69 years and is characterized by lymphopenia of the 3 lineages and moderate neutropenia. Genetically, 6 out of 7 participants had the same missense mutation in the moesin gene located on the X chromosome. The 7th patient has a mutation leading to the premature introduction of a STOP codon into the protein.Clinically the 7 participants with X-linked moesin-associated immunodeficiency all presented with recurrent bacterial infections of the respiratory, gastrointestinal or urinary tracts, and some had severe varicella.Therapeutically, in the absence of a molecular diagnosis and due to his SCID-like phenotype, one patient was treated with geno-identical hematopoietic stem cell transplantation . The remaining are untreated or treated with immunoglobulin substitution and/or prophylactic antibiotics. Since this study, the moesin gene has been integrated into DNA chips used for the molecular diagnosis of immune deficiencies in several countries. Physicians in Canada, the United States, Japan, South Africa and Europe have contacted us with a total of 16 known participants to date. Because of their very low severe, uncontrolled CMV infection and the absence of treatment recommendations, two 2 American participants were treated with allogeneic transplantation with severe post-transplant complications (1), and one of the participants died as a result of the transplant. Management of XMAID participants therefore varies widely from country to country, depending on age at diagnosis and clinical picture. It ranges from no treatment treatment (associated with recurrent infections and skin manifestations), IgIv substitution and/or antibiotic prophylaxis antibiotic prophylaxis, with low toxicity and apparent efficacy, and allogeneic transplantation, with all the risks risks involved (graft-related toxicity, graft versus host, disease, rejection, risk of infection). The Investigators therefore feel it is important to review the diagnosis, clinical presentation and management of X-MAID participants. The study the investigator propose will enable to understand the presentation of X-MAID participants, establish guidelines and provide the best treatment for each patient according to his or her clinical picture
There is no cure for cold or flu, most people recover in about within two weeks. Paracetamol may be used to reduce aches or treat fever, headache, or body aches. Antiviral solutions ranging from simple universal saline solutions to novel compounds have been proposed to provide a temporary barrier to prevent viral infection and propagation. The nasal spray "Humer Stop Virus" is indicated in patients presented with early symptoms of viral respiratory infection. This spray forms a protective barrier in the nasal mucosa which is the main entry of the upper air respiratory system viruses. The spray traps the viruses and helps the organism to eliminate them before they multiply themselves. This clinical investigation is conducted to assess the performance, clinical benefit and safety of this nasal spray in patients with early symptoms of acute respiratory disease whether or not infection is related to common cold, flu or COVID virus. Indeed, presence of early symptoms of acute respiratory infection does not always imply viral infectionAntigen self-tests are available to confirm viral infection with flu viruses or severe acute respiratory syndrome (SARS-CoV-2). However, influenza and other winter viruses are not systematically searched for in general population, because this is of neither collective nor individual interest. To be as pragmatic as possible, we chose to assess performance and safety of the nasal spray on intended users in real conditions. Patients with early symptoms of cold, flu or COVID, are enrolled regardless their PCR test positivity confirming viral infection at the time of enrollment. For study needs, the primary endpoint, which aims to assess the performance of the nasal spray in terms of stopping the viral infection, is assessed in a subgroup of patients with a positive PCR test with flu, COVID or common cold virus in the nasal sample collected at enrollment.
D8820C00001 is an exploratory, non-interventional, unblinded, observational study evaluating the acceptability, feasibility and performance of methods to collect, transport and test biospecimens in participants ≥ 18 years of age with an active CDI. Participants will also be monitored for recurring episodes of diarrhea and will need to complete validated PROs and study evaluation questionnaires
The purpose of the protocol is to study the pulmonary microbiome in patients who develop pneumonia.
Respiratory syncytial virus (RSV) is one of the most common causes of chest infection worldwide. Despite this, it remains an underappreciated health problem, with the first effective RSV vaccines only approved by the FDA in May 2023 and unlikely to be widely available for some time. Although RSV infection is most frequent in young children, most deaths occur in older adults, particularly in those with underlying heart and lung disease. This is believed to be due in part to the ageing immune system's reduced ability to protect against infection and symptomatic disease. However, little is known about the way human immune responses to RSV infection in older individuals differ from those of younger people. Further understanding of the mechanisms underlying immunity and potential impairments in these higher-risk people are therefore necessary. This project aims to study the factors that influence whether or not older people develop symptomatic RSV disease in healthy older volunteers after being given an RSV-induced common cold. Samples will be taken from the blood and nose in order to identify changes in the immune system associated with susceptibility or protection in older adults. Participants will be carefully screened to ensure there are no underlying health problems that might make them more at risk of severe disease and will be monitored closely throughout the course of infection. It is anticipated that differences in immune markers in the nose and/or blood of healthy older people will predict whether or not such individuals become infected or develop symptoms. By analysing the networks of genes that are switched on and off, the aim is to identify the pathways in the immune system responsible for these differences, to ultimately develop improved diagnostic tests, vaccines and treatments.