View clinical trials related to Vaccination; Infection.
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The goal of this cluster randomized controlled trial is to evaluate the effect of health education interventions on influenza vaccination rates and health literacy in primary school students in the city of Dongguan in China. Individuals aged 7 to 12 years who are in grades 4-5 in primary schools in Dongguan will be enrolled. 20 primary schools will be randomly selected, with half designated as intervention group schools and the remaining half as control group schools. The intervention group will receive a monthly health education intervention focused on influenza vaccination for 5 months, while the control group will continue with their routine school health education for 5 months. Researchers will compare the differences in influenza vaccination rates and influenza vaccination health literacy levels between the intervention and control groups after 5 months to see if health education can promote influenza vaccination health literacy among primary school students.
The purpose of this study is to compare the immunogenicity and safety of recombinant zoster vaccine according to CD4+ T-cell count and age in people living with HIV, and to provide evidence to guide immunization of people living with HIV.
The concept of trained immunity defines the long-term functional reprogramming of innate immune cells, which is evoked by exogenous or endogenous insults and leads to an altered response towards a second challenge after return to a non-activated state and is characterized by several markers, such as specific cytokines, activation markers of innate immune cells and epigenetic modifications, e.g. H3K4me3. Vaccinations have been shown to induce trained immunity and to have heterologous effects on other infections or vaccinations. A recent article showed, that individuals who had received recombinant adjuvanted zoster vaccine (RZV) before the pandemic had a 16% lower risk of COVID-19 diagnosis and a 32% lower risk of hospitalization suggesting a protective heterologous effect of RVZ on COVID19 infections. So far, the mechanisms behind these add-on benefits of RZV vaccination are on the hypothetical level and need further experimental evidence. Therefore, we aim to investigate the specific humoral and cellular immune response towards COVID-19 vaccine in healthy individuals who were exposed to RZV 1 to 12 months before COVID-19 vaccination compared to individuals who did not receive RZV before. Particular emphasis is layed on COVID-19 vaccine non-responders and individuals with breakthrough infections indicating lower vaccine efficacy compared to those who had no breakthrough infection. The primary objective is the cytokine profile of spike protein-stimulated T, NK and NKT cells. Spike protein stimulated T, NK and NKT cells are characterized by cell surface markers, transcription factor expression, chemokine receptor expression, activation and proliferation markers and by their lineage-specific cytokine pattern. CD14+ monocytes are magnetically isolated and further characterized by cell-culture experiments imitating a training and resting period after stimulation. Epigenetic modifications by methylation of CpG regions are assessed at promoter, enhancer and regulatory gene regions of immune cell characteristic transcription factors by bisulfite conversion and pyrosequencing. Chromatin immunoprecipitation and ChIP-seq will be performed for analysis H3K4me3 associated with trained immunity. Humoral and cellular reactivity to spike protein is analyzed by adapted ELISA and neutralisation assays and by ELISpot and flow cytometry, respectively, and correlated. From our findings we expect to learn about the role of previous RZV on immunogenicity and efficacy of COVID-19 vaccination and whether mechanisms of trained immunity play a role for better responses towards COVID-19 vaccination.
Previous clinical trials have already demonstrated the safety of the candidate vaccine in adults as well as in children, in good health or infected with schistosomiasis. Regarding the induced immune response, more than 80% of vaccinated subjects were seroconverted after three vaccine injections. The induced immune response was substantial but transient. In order to obtain a more lasting immune response, the investigator will experiment with a new vaccination schedule (2 injections 1-month interval and the 3rd injection 5 months after the first dose), versus the vaccine schedule initially used (3 injections at 1-month interval). This trial will be the last phase 2 before testing the efficacy of the rSm14 vaccine candidate.
COVID-19 vaccines are limited in supply, especially in low- and middle-income countries, leading to substantial morbidity and mortality. Despite the COVID-19 Vaccines Global Access (COVAX) Facility initiated by the WHO to provide vaccine access for low-income countries, probably 80% of the vaccine needs of participating countries will not be met soon. In addition, there is an increasing demand for revaccination of the population globally, because of waning immunity which will further limit vaccine supplies. Exploring dose-sparing techniques, could therefore provide the solution to immunise more people with the same vaccine stockpile. The intramuscular injection (IM) is the standard inoculation route of vaccines. However, the skin (dermis) is much richer in antigen presenting dendritic cells than muscle. As a consequence, a fractional vaccine dose introduced directly into the dermis (intradermal administration, ID) might be as effective as the intramuscular administration of the full standard dose to achieve a protective immune response. This principle has recently been demonstrated for the ID dermal delivery of one-fifth fractional dose mRNA-1273 (Spikevax, Moderna) vaccine. However, needle-based immunisation has several limitations. Fear of needles makes immunisation a stressful event. In addition, needle stick injuries, as well as unsafe injection practices carry serious health risks. Therefore, the development of needle-free delivery has been identified as an important goal in global health care. The WHO reported that microneedle vaccine delivery is top priority and requires additional research to explore the benefits in more detail. A big advantage of intradermal delivery via a solid needle patch is not only the absence of needles and pain since no nerves are at the proximity where the needles are presented, but also the local delivery close to immune cells as with the above mentioned intradermal injection enables a much lower dose as compared to IM dosing. And since with the patch a larger skin surface is involved as compared to intradermal injection, even lower doses are possibly still immunogenic. In this study, we will investigate the immunogenicity and safety in healthy volunteers of the needle-free intradermal delivery of a single fractional dose of 20µg mRNA-1273 LNP vaccine (Spikevax, Moderna) more than 3 months after primary vaccination with Comirnaty (Pfizer) vaccine and/or after having contracted COVID-19.
The present study is part of ORCHESTRA project, a three-year international research project aimed at tackling the coronavirus pandemic. ORCHESTRA provides an innovative approach to learn from the pandemic SARS-CoV-2 crisis, derive recommendations to further management of COVID-19 and be prepared for the possible future pandemic waves. The ORCHESTRA project aims to deliver sound scientific evidence for the prevention and treatment of the infections caused by SARS-CoV-2 assessing epidemiological, clinical, microbiological, and genotypic aspects of population, environment and socio-economic features. The project builds upon existing, and new largescale population cohorts in Europe (France, Germany, Spain, Italy, Belgium, Romania, Netherlands, Luxemburg, and Slovakia) and non-European countries (India, Perú, Ecuador, Colombia, Venezuela, Argentina, Brazil and Gabon) including SARS-CoV-2 infected and non-infected individuals of all ages and conditions. The primary aim of ORCHESTRA is the creation of a new pan European cohort applying homogenous protocols for data collection, data sharing, sampling, and follow-up, which can rapidly advance the knowledge on the control and management of the COVID-19. ORCHESTRA will include SARS-CoV-2-negative individuals and thereby enable a prospective follow-up and an analysis of vaccination response. The cohort will involve four different populations: general population, COVID-19 patients, fragile individuals (children, elderly, transplanted, oncological, HIV infected, and those with Parkinson disease), and health-care workers. Each of these "perpetual" cohorts can answer different research questions and vaccine strategies. Within the ORCHESTRA project, the Work Package 4 (WP4) will focus on the cohort of fragile patients including pregnant women/new-born, children, patients with HIV infection, patients with autoimmune disease, solid organ transplant recipients, patients with oncological and hematological diseases, patients with cystic fibrosis, patients with Parkinson Disease and rheumatological diseases from from 14 countries (5 European and 9 non-European countries), with approximately 20000 subjects.
Many patients develop autoimmune diseases after covid-19 vaccination, whether related to the vaccination or not, is still under study. This study will describe potential flare of ARD after COVID-19 vaccination, whether it leads to activity or new MSK manifestations development.
This prospective cohort study aims to provide the evidence-based clinical guide to help decide the revaccination doses of hepatitis B vaccine that the high-risk young adults without hepatitis B seroprotective antibodies (anti-HBs titer<10 mIU/mL) need to take.
The study investigates the immune response after vaccination in individuals with and without pre-existing immunity to Coronavirus disease (COVID) -19. The participants are followed and sampled up to 4 years after vaccination. Blood samples are collected at different timepoints to analyze immune response. The aim is to investigate the level of specific antibodies to Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) yearly, up to 4 years after vaccination.