View clinical trials related to Influenza A Virus, H5N1 Subtype.
Filter by:The main purpose of this study is to assess the ability of H5 influenza virus vaccines and adjuvants present in the National Pre-Pandemic Influenza Vaccine Stockpile (NPIVS) to generate an immune response to homologous and to antigenically distant heterologous H5 influenza virus strains. The study is designed to evaluate the safety and immunogenicity of vaccination strategies with homologous or antigenically distant heterologous H5 influenza virus vaccines administered with AS03 or MF59 adjuvant.
Evaluate the safety, immune response and reactogenicity of aH5N1 vaccination in adult (18 through 60 years of age) and elderly (≥61 years of age) subjects with and without immunosuppressive conditions.
This study will compare the different immune responses to Influenza A (H5N1) Virus Monovalent Vaccine with and without the AS03 adjuvant. The Influenza A (H5N1) Virus Monovalent Vaccine with AS03 adjuvant vaccine is approved for use for adults to protect against flu caused by the A/H5N1 "bird flu" virus in Europe but none of the vaccines to be used in the study are approved for use in the United States. The results of this study will help researchers learn about better ways to vaccinate people against the H5N1 flu.
Background: - New vaccines against avian influenza, also known as "bird flu," are being developed and require testing to determine if they are safe and effective and whether they have any side effects. Researchers are interested in testing two experimental avian influenza vaccines to see whether they are safe, if there are any side effects from the vaccines, and how the body's immune response differs in response to different vaccination schedules. One vaccine is an inactivated vaccine (made with killed or weakened influenza) and one is a DNA vaccine that allows the body to use vaccine to make an immune system response to a specific part of an avian influenza protein. Objectives: - To determine the safety and potential side effects of two experimental vaccines against avian influenza. - To evaluate whether the time between the two experimental vaccine injections affects the immune response to the vaccine. Eligibility: - Healthy individuals between 18 and 60 years of age. Design: - Participants will be randomly divided (by chance) into six groups to receive two injections of vaccine at different intervals. One group will receive only the inactivated vaccine, while the other groups will receive the DNA vaccine followed by the inactivated vaccine at different intervals (e.g., 4 weeks, 8 weeks, 12 weeks, 16 weeks or 24 weeks later). - Participants will remain at the clinical center for at least 30 minutes after each vaccination. A few days after each injection, participants will contact staff by telephone or have a clinic visit. Participants will also be asked to complete a diary card at home for 5 days to keep track of temperature changes, injection site skin changes, and other effects. - Four weeks after the first injection, participants will return for a clinic visit and to provide blood samples for testing. - Two weeks after the second injection, participants will return for a clinic visit and provide blood samples (collected through apheresis) to provide information on immune response to the vaccine.
The identification and characterization of susceptibility loci for H5N1 infection in humans could have profound implications. The detection of host genetic factors may shed light on key pathogenic interactions between H5N1 and human cells, assisting in identifying the viral characteristics determining pandemic potential. In addition, the identification and verification of susceptibility loci would be followed by functional studies which might point the way to new therapeutic and preventive options. The objective of this study is to investigate if host genetic factors are associated with susceptibility to influenza H5N1 illness
This study will evaluate the safety and effectiveness of a vaccine to prevent avian influenza (bird flu). About 25 to 50 million cases of influenza occur a year in the U.S., leading to 150,000 hospitalizations and 30,000 to 40,000 deaths. Globally, a pandemic influenza may be 1 billion flu cases, with 3 to 5 million cases of severe illness and up to half a million deaths annually. There is potential threat of a pandemic from emerging virus strains for which the population has little or no preexisting immunity. Avian influenza A (H5N1) viruses causing serious disease have emerged recently, affecting domestic and wild bird populations. Patients ages 18 to 60 who are in good health and not pregnant or breast feeding may be eligible for this study. The study will be done at the NIH Clinical Center by staff of the Vaccine Research Center. It will last about 32 weeks for each person. A traditional needle or a needle-free device called Biojector 2000 will be used. Intramuscular (in the muscle) and subcutaneous (in fat below the skin) delivery of vaccine via Biojector is cleared for use by the Food and Drug Administration and is not considered investigational. Intradermal (in the skin) delivery of vaccine by Biojector in this study is deemed investigational but has been evaluated in humans before, and found safe and well tolerated in other trials. There will be about 10 clinic visits in this study, and it is important to stay on schedule. Visits are about 2 hours, though on injection days, visits are about 4 hours. Injections are given on day 0 and at weeks 4 and 8. The vaccine is given by injections in the skin on the upper arms. Clinic staff will observe patients for 30 minutes after each vaccination. One to 2 days after the first injection, there will be a clinic visit. One to 3 days after the second and third injections, patients need to telephone clinic staff to report on how they are doing. Patients will complete a diary card at home, recording temperature and symptoms, and looking at the injection site daily for 5 days. Patients should report any side effects to one of the study physicians or nurses as soon as possible. They will return to the clinic 2 weeks after each injection. A needle-free system uses the pressure of carbon dioxide, instead of a needle, to inject the vaccine into the skin. Discomfort can result from either the needle-free device or the needle. There may be stinging, pain, soreness, swelling, bruising, or a small cut in the skin.
This study will determine if an experimental avian flu (bird flu) vaccine is safe, whether it has side effects and if it can stimulate an immune response in people. The vaccine being tested in this study is made from DNA (genetic material) that codes for an influenza protein called hemagglutinin 5 (H5), which is based on the protein from the bird flu virus. The study will determine if the body creates resistance or immunity to the H5 protein. The hope is that an immune response to this protein may protect against bird flu virus infection. Healthy people between 18 and 60 years old who have been vaccinated with the current season's influenza vaccine may be eligible for this study. Participants are randomly assigned to receive injections of one of the following: 1) study vaccine at 1 mg dose, 2) study vaccine at 4 mg dose, or 3) placebo (salt-water solution). They receive three injections about 4 weeks apart in the upper arm muscle. Participants record their temperature and symptoms at home for 5 days after each injection, either on a diary card or electronically using the Internet, and report any side effects to a study physician or nurse as soon as possible. They return to NIH for clinic visits every 2 weeks for the first 12 weeks, then at week 26 and at week 42 to check for health changes or problems. Blood is drawn at all visits and urine samples are collected through week 10. If a participant develops serious side effects, the study physician may decide that he or she should not receive any further injections. However, all participants are asked to continue the follow-up visits even if they do not get the full set of three injections.