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The goal of this study is to characterize the immune response, both innate and adaptive, as well as locally and systemic, to intradermal (ID) vaccination in healthy individuals. The intervention involves intradermal administration of an FDA-approved intramuscular seasonal influenza vaccine, using an FDA-approved device MicronJet. Investigators will measure antibody titers, cell subtypes, and multi-omic profiles, by collecting skin and peripheral blood at baseline and at several time points after vaccination. The primary objective is to identify baseline correlates of immune response in the skin and peripheral blood to the seasonal influenza vaccine. The investigators secondary goals are to describe the inflammatory response in the skin over time.
Vaccines have prevented countless infections but poor vaccine responses remain a major challenge in many scenarios. Hepatitis B vaccine nonresponses are common but immunologically not well-understood. This study aims to study the immunology of hepatitis B vaccine responses by comparing traditional HBV vaccine, which is associated with nonresponses in some patients, to CpG-adjuvanted HBV vaccine, which is associated with far fewer rates of nonresponses. This research will build upon prior studies of the human immune response to infection to gain a deeper understanding of the complexity of these responses. This information will be broadly useful as many vaccine candidates fail due to lack of immunogenicity, potentially enabling improved vaccine design and better protection.
A Phase 1, open label clinical study to evaluate the safety, immunogenicity, tolerability and efficacy of Plasmodium falciparum Malaria Protein 013 (FMP013) combined with (ALF with QS-21), saponin molecule derived from the bark of Quillaja species (ALFQ)) in healthy adult volunteers at different doses and dosing schedules.