Vaccine Response Clinical Trial
Official title:
Systems Biological Assessment of the Durability of Vaccine Responses
The ability of the vaccines today to generate a long-lasting protection against infections varies greatly from one vaccine to another. The yellow fever vaccine (YF-17D) is one of the most successful vaccines ever developed, having been administered to over 600 million people globally. A single vaccination is known to induce durable protection over several decades. In contrast, the quadrivalent influenza vaccine (QIV) generates an immunity that wanes quickly with no long-lasting protection. Currently, the duration of immune protection for new vaccines is difficult to predict during vaccine product development and can only be ascertained by a "wait and see" approach. This is due, in part, to the fact that some of the signals that activate a durable immune system protection remain unknown. This study aims to provide a better understanding of this problem by vaccinating willing participants with either the FDA-approved yellow fever vaccine or the quadrivalent influenza vaccine and collecting baseline and follow-up biologic samples to compare how the immune system reacts.
The ability of the vaccines today to generate a long-lasting protection against infections varies greatly from one vaccine to another. The yellow fever vaccine (YF-17D) is one of the most successful vaccines ever developed, having been administered to over 600 million people globally. A single vaccination is known to induce durable protection over several decades. In contrast, the influenza vaccine generates an immunity that wanes quickly with no long-lasting protection. Currently, the duration of immune protection for new vaccines is difficult to predict during vaccine product development and can only be ascertained by a "wait and see" approach. This is due, in part, to the fact that some of the signals that activate a durable immune system protection remain unknown. This study aims to provide a better understanding of this problem by vaccinating willing participants with either the FDA-approved yellow fever vaccine or the quadrivalent influenza vaccine and collecting baseline and follow-up biologic samples to compare how the immune system reacts. The biologic samples will be collected from the blood (where antibodies are), the lymph nodes (where immune cells that make antibodies are present), and from the bone marrow (where long-lived cells that secrete antibodies are found). This study will take place at the Hope Clinic of Emory University. The participants who express interest to ads for this research will be contacted by study staff who will provide further information about the study and conduct a primary evaluation of the eligibility criteria. If the participant is interested and verifies the eligibility criteria, a screening visit will be scheduled during which the study staff will go over the informed consent form with the participant. Other study procedures will be performed during this screening visit if the participant agrees to sign the informed consent form. This study will include a screening visit, a vaccination visit, tissue sampling visits and a series of follow-up visits. During the tissue sampling visits, one or two procedures will be performed: A) Lymph node sampling during which an expert, guided by imaging, will take fine needle aspirates/ core biopsies from a lymph node. B) Bone marrow aspirate during which an expert will aspirate a small amount of bone marrow. Lymph node sampling procedures will be performed no more than two times each and bone marrow aspirations will be performed no more than three times each on the same participant. Other study procedures include a collection of medical history and medications taken, a urine pregnancy test for participants who are biologically able to become pregnant, a recording of vital signs, and a collection of adverse events that the participant experiences during their participation in the study. An HIV test is obtained as well at screening. Memory Aid will be completed by each participant. The blood, lymph node, and bone marrow samples collected during this study will be stored and tested to evaluate how the immune system has responded to the vaccination over time. The remaining unused samples will be stored for use in future research. This research will help advance the knowledge the study team has of how the immune system reacts to different vaccines, which will in turn, enable to identification of the factors that help predict the extent of durability of protection gained from a specific vaccine. This will also have a major impact on the way future vaccines are developed to provide long-lasting immunity against infections. ;
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