View clinical trials related to Immunogenicity.
Filter by:Primary Immunogenicity Objective:Cohort 1: GMTs of SARS-CoV-2 Omicron and related strain neutralizing antibody levels for SWIM816.Cohort 2: To demonstrate the non- inferiority of neutralizing antibody response in terms of geometric mean titers (GMT) of COVID-19 mRNA vaccine(SWIM816) compare with mRNA COVID-19 vaccine(Pfizer Bivalent vaccine) 14 days post dose. Primary Safety Objective:To assess the reactogenicity and safety of a booster dose in a heterologous vaccination regimen in subjects previously immunized with 2/3 doses of COVID-19 vaccine with or without previously diagnosed with COVID-19. Secondary Immunogenicity Objectives:To describe the neutralizing antibody response at D29, D91 and D181.To describe binding antibody profile at D01, D15, D29, D91 and D181 of each study group. Secondary Safety Objective:To assess the reactogenicity and safety of third or fourth booster dose in a heterologous vaccination regimen in subjects previously immunized with 2/3 COVID-19 vaccine doses. Exploratory Objective:1.Documented confirmed SARS-CoV-2 symptomatic infection;2.Todemonstrate the cellular immune response profile at study group (30 subjects per each group for cellular immune testing).
Primary#Objectives #Immunogenicity:To demonstrate the non-inferiority of binding antibody response in terms of geometric mean titers (GMT) of mRNA vaccine compare with mRNA COVID-19 vaccine(Pfizer) 14 days post dose. Secondary#Immunogenicity: 1. To describe binding antibody profile at D01, D29 and D181 of each study group. 2. To describe the neutralizing antibody profile at D15, D29 and D181 of each study intervention group. Secondary#Safety: To assess the reactogenicity and safety of a booster dose in a heterologous vaccination regimen in subjects previously immunized with two Sinopharm doses. Exploratory#Cell-mediated immunity: To describe the cellular immune response profile at D01, D08, D15, in a subset of 30 participants for each study group. Exploratory#Efficacy: To describe theoccurrence ofvirologically-confirmedCOVID-19 like illness and serologicallyconfirmed SARS-CoV-2 infection.
Primary:Objectives :SafetyTo describe the safetyprofile of all participants in each group up to 6months post-dose.Immunogenicity:To demonstrate the superiorityof neutralizing antibodyresponse in terms of geometric mean titers (GMT) of mRNA vaccine compare with inactive vaccine28 days post dose. Secondary:Immunogenicity 1. To describe binding antibodyprofile at D01,D08, D15, D29,D91 and D181 of eachstudy group. 2. To describe the neutralizing antibody profile atD08,D15,D91 and D181of 600 participants for each studyintervention group. Exploratory:Cell-mediated immunity To describe the cellular immuneresponse profile at D01, D08, D15and D29, in a subset of 30 participants for each study group. Efficacy:To describe the occurrence of virologically-confirmed COVID-19 like illness and serologically confirmed SARS-CoV-2 infection.
Under protocol versions 1.01-1.06: The five recently emerged SARS-CoV2 variants that were designated as VOCs are the Alpha variant, Beta variant, Gamma variant, Delta variant and the Omicron variant. The current dominant Omicron variant was designated a VOC by WHO on Nov 26, 2021, and was found to comprise 85% of reported variants in late January 2022. Studies have shown that the prevalent Omicron mutations in the S1 subunit RBD region and NTD region could dramatically change the antigenic features of the viral spike, leading to significantly reduced neutralization Omicron harbors 30 signature mutations (>50% prevalence) of which 15 are in the S1 subunit RBD region and 8 are in the S1 subunit NTD region. Omicron is a highly contagious variant with threatening immune evasion capabilities even despite robust immune response. Initial modeling showed the Omicron variant being 2.8 times more infectious than the Delta variant. While current vaccines are losing protection against Omicron with respect to infection and mild disease, there is still considerable protection from hospitalisation and severe COVID-19, especially after a booster dose. The International Coalition of Medicines Regulatory Authorities (ICMRA) COVID-19 Omicron Variant Workshop encouraged the international scientific community and vaccine developers to look at alternative approaches to monovalent vaccines. In ICMRA's view, companies should also explore the feasibility of developing bivalent or multivalent variant vaccines to determine if they offer advantages to monovalent vaccines. As advised by ICMRA, the investigated vaccine, mRNA-1273.214 is a bivalent vaccine containing the ancestral SARS-CoV-2 and the Omicron variant spike sequences that will be evaluated as a heterologous boost. Under protocol version 1.07:The study will also investigate the safety, reactogenicity and immune response of the mRNA-1273.222 administered as a boost vaccine after primary series vaccination comprising 3 doses of an mRNA vaccine . This study hypothesizes that the peak level of antibodies against SARS CoV-2, will be at two weeks after the first study dose is administered, which is similar to other recent findings (Anderson et al., 2022).2.2.1. The bivalent mRNA-1273.222 vaccine contains mRNA encoding for the spike protein of BA.4/BA.5 as well as mRNA encoding for the original (ancestral Wuhan-Hu-1) strain of the SARS-CoV-2 virus.
Vaccination is the best way to mitigate the coronavirus disease 2019 (COVID-19) pandemic, but the vaccine immunogenicity may be quite variable from person to person. There is increasing evidence suggesting that the gut microbiome is a major determinant of vaccine immunogenicity. Thus, the investigators investigated the relationship between gut microbiota and humoral immune response after COVID-19 vaccination.
The PLAN-V Study is an Ontario-based prospective, longitudinal study that will consist of extensive biosampling and detailed data collection from pregnant women/individuals, who have received the COVID-19 vaccine during their pregnancy, and their infants across the antenatal, delivery and postpartum periods.
This is a prospective, single blinded randomized homologous/heterologous prime-boost vaccine clinical study, designed to assess the immunogenicity of heterologous prime-boost immunization with AZD1222 and MVC-COV1901 in adults. Participants will be healthy adults at the age of 20-70 years who have had their first dose of COVID-19 vaccine, AZD1222. All eligible participants of 2 prime-boost interval strata (28 to 42, 56 to 70 days) will be 1:1 randomly assigned to receive a single dose of either: - Homologous group: Intramuscular injection the same vaccine as their prime dose AZD1222 - Heterologous group: Medigen COVID-19 vaccine MVC-COV1901. The treatment phase of this study will be conducted in a single-blind fashion such that the subject will not know the identity of the subjects' study treatment assignment. After receiving the treatment, the participants will remain on study for 168 days following the boost vaccination. For the study primary objective, immunogenicity will be assessed during the duration of the study, including serologic neutralizing antibody titer against SARS-CoV-2, serological quantification of binding antibody to SARS-CoV-2 antigen, SARS-CoV-2 antigen specific B cell and T cell frequencies and cytokine levels. And Safety will be assessed during the duration of the study as follows: - Solicited adverse events (AEs; local and systemic) will be assessed for 7 days following each vaccination (Day 0 through Day 7 for the boost vaccination). - Unsolicited AEs will be recorded for 28 days following the boost vaccination. - Serious adverse events (SAEs) will be recorded from signing of the informed consent form through Day 168. - Adverse events of special interest (AESIs) will be recorded from the boost vaccination through Day 168. This study is going to be conducted in a single medical center in Taiwan. An appropriate number of participants will be screened to achieve approximately 44 evaluable participants for each group. Participants in each group will be divided into two subgroups according to the intervals, 28-42 days and 56-70 days, between the prime and booster doses.
ChAd0x1 nCoV-19 (AZD 1222) is the main vaccine that is planned to roll-out in Thailand and involve vaccinating people especially in high-risk categories. This vaccine is contained in the multiple-dose vial for vaccinating 10 recipients for 0.5 mL each. However, the additional volume of vaccine was overfilled to 6.5 mL per vial which the vaccination can be administered to more than 10 doses. The University Hospital Network (UHOSNET) and Faculty of Medicine Vajira Hospital, Navamindradhiraj University have jointly stipulated the preparation and vaccination of ChAdox1 - n CoV-19 vaccine with 12 doses per vial injection with traditional 21 or 24 G needle. Taken together, The investigators planned to investigate the immune response of participants after first dose of ChAd0x1 nCoV-19 vaccination with such technique
Covid-19 is associated with a mortality rate of 33-37% in patients with hematological malignancies. At present, the anti-SARS-CoV-2 vaccination represents the most effective strategy for the prevention of Covid-19. Patients with malignancies were excluded from the trials leading to the approval of Comirnaty, Moderna, Vaxzevria and Janssen vaccines. The immunogenicity of these vaccines in immunocompromised patients or with hematological malignancies is an unmet clinical need. The aim of the study is to evaluate the efficacy of vaccination in adult patients with hematological malignancies, who received vaccination according to Italian rules and were in treatment at the Hematology Unit of Varese, Italy Efficacy will be evaluated in terms of serological response, cellular-mediated immune response and prevention of Covid-19. The duration of the study will be 24 months.
Patients with chronic rheumatic diseases (such as systemic lupus erythematosus [SLE], rheumatoid arthritis [RA], ankylosing spondylitis [AS], juvenile idiopathic arthritis [JIA], poly/dermatomyositis [PM/DM], systemic sclerosis [SSc], systemic vasculitis, and primary Sjögren's syndrome [pSS]) are particularly susceptible to infectious diseases due to autoimmune disorder itself and its treatment (immunosuppressive therapies). Similarly, people living with HIV/AIDS (PLWHA) are predisposed to infections by different agents. The current 2019 Coronavirus Disease Pandemic-19 (COVID-19), caused by the SARS-CoV-2 (severe acute respiratory syndrome coronavirus 2) began in December 2019 in Wuhan, China, and quickly became a global health and economic emergency by taking to an unprecedented burden on health systems around the world. However, SARS-Cov-2 infection raised particular concern in patients with autoimmune rheumatic diseases (DRAI) since, due to chronic inflammatory immune dysregulation and the regular use of immunosuppressive drugs, these patients are considered to be at high risk of contracting SARS-CoV-2 and potentially evolving to a worse prognosis. The overlap between the COVID-19 pandemic and the HIV/AIDS pandemic also poses an additional challenge, as the impact of co-infection is not yet fully known. The response to vaccines for other agents, however, has already been described as compromised in PLWHA. Vaccination is the most effective preventive measure to control the spread of coronavirus and to reduce associated complications. Usually, live or attenuated vaccines are not recommended for patients with chronic rheumatic diseases using immunosuppressants. However, immunization with inactivated agents is strongly indicated, resulting, in general, in good immunogenicity and adequate vaccine safety, as well as without relevant deleterious effects on diseases. Vaccine efficacy studies are needed to verify the immunogenicity of the vaccine against COVID-19 in immunosuppressed patients with rheumatological disease and those with HIV-related disease considering the risk of greater severity. In addition, it is important to assess the safety of the vaccine in this population as well as the possibility of reactivating the rheumatological disease itself. The present study will evaluate the safety and immunogenicity of the CoronaVac (Coronavirus vaccine, Sinovac Biotech Ltd.) in patients with rheumatic diseases and PLWHA