72 Clinical Trials for Various Conditions
The aim of this study is to evaluate the safety, reactogenicity and immunogenicity of the Flu Pandemic messenger RNA (mRNA) vaccine (including dose-finding and dose-confirmation) administered in healthy adults 18 to 85 years of age.
This is a Phase 2, randomized, multi-center study in approximately 300 adults who received 2 doses of aH5N1c or placebo in and completed the parent study V89_18 in the \<65 years of age cohort. The study investigates whether two priming doses of MF59-adjuvanted H5N1 cell culture-derived vaccine (aH5N1c) followed by one or two booster vaccinations with a MF59-adjuvanted H5N6 cell culture derived vaccine (aH5N6c) 3 weeks apart elicit immune responses to the antigens used for priming (H5N1) and boosting (H5N6) after first and second heterologous booster vaccination. Eligible subjects, who received 2 doses of aH5N1c in the parent study V89_18 are randomized in a 1:1 ratio to receive either two aH5N6c vaccinations, 3 weeks apart (group 1) or an aH5N6c vaccination on Day 1 and saline placebo on Day 22 (group 2). Eligible subjects, who received placebo in the parent study will receive two aH5N6c vaccinations, 3 weeks apart (group 3). After the second vaccine administration, subjects are monitored for approximately 6 months for safety and antibody persistence. The total study duration will be approximately 7 months per subject.
The purpose of this study is to evaluate the immunogenicity and safety of inactivated subunit H5N1 influenza vaccine in individuals who have previously received live attenuated H2N2, H6N1, or H9N2 influenza vaccine, as well as in individuals who have never previously received H5N1 or other pandemic live attenuated influenza vaccines.
Evaluate Safety, Tolerability and Immune response of adjuvanted H5N1 cell culture derived influenza vaccine in children.
Evaluate Safety, Tolerability and Immune Response of Adjuvanted H5N1 Cell Culture Derived Influenza Vaccine in Adult Subjects.
Evaluate Safety, Tolerability and Immune response of adjuvanted H5N1 cell culture derived influenza vaccine in elderly subjects
The purpose of this study is to test an investigational vaccine known as "VAX161C." An "investigational" vaccine is one that is not licensed for commercial use in the by the United States (US) by the US Food and Drug Administration (FDA). VAX161C is a vaccine for the influenza A virus subtype H5N1 avian influenza virus (bird flu). In this study, the subject will receive the VAX161C vaccine at one of six doses to see which dose is the best. VaxInnate wants to find out how safe these doses of vaccines are and how well they are tolerated by people who receive them. To measure how effective each type of the vaccine is, VaxInnate will test the ability of the body to develop an immune response, which means how the body recognizes and defends itself against the influenza virus.
This study will evaluate the safety and immunogenicity of VAX161B \[STF2.HA5 H5N1\], a recombinant, inactivated, subunit influenza vaccine given as a two dose regimen at a range of doses.
H5N1 is an influenza virus that has the potential to cause an influenza pandemic. This study will evaluate the safety and immune response to an H5N1 influenza vaccine in people who have previously received one of two versions of an H5N1 vaccine or have previously received an H7N3 vaccine and in people who have not previously received any live attenuated influenza vaccine (LAIV).
This is a double-blind, placebo controlled, safety and immunogenicity study of GelVac™ nasal powder H5N1 influenza vaccine. Healthy male and female subjects between 18 and 49 years of age who are eligible for study participation will be enrolled in the trial. It is expected that 10 subjects will be screened to obtain 7 subjects who will be eligible for study participation. The primary objective is to determine the frequency and severity of local and systemic adverse events of vaccine. The secondary objective is to assess the immunogenicity of the vaccine based on geometric mean titers (GMT) of serum HAI, serum neutralizing, and nasal wash IgA antibodies.
The aim of the present dose ranging study is to evaluate the safety, tolerability and immunogenicity of two doses of twelve different formulations of a Cell Culture-Derived H5N1 Subunit Influenza Virus Vaccine, adjuvanted with MF59 or non-adjuvanted, given three weeks apart and followed by a booster dose after 12 months in healthy adults 18 to 40 years of age.
The objectives of this study are to assess the dose-related safety and immunogenicity of six different dose levels of inactivated, Vero cell-derived reverse genetic reassortant A/H5N1/Indonesia/05/2005 influenza vaccine in a healthy young adult population. Subjects will receive 2 vaccinations (21 days apart) at the dose to which they were assigned. Blood will be drawn from all subjects for serum antibody determination on Days 0, 21, 42 and 180. Body temperature will be measured daily for 6 days following vaccination. Injection site reactions and systemic reactions will be monitored throughout the entire 180 days of the study. Safety data obtained at 7 days after the first vaccination for all dose levels in Cohort 1 will be reviewed by a Data Monitoring Committee and a recommendation will be obtained whether to proceed to the second vaccination of Cohort 1 and to the first vaccination of Cohort 2.
The main purpose of this study is to assess the usability of long-term stored H5N1 antigen and adjuvant. The study is designed to assist in stockpile management by assessing the safety, reactogenicity, and immunogenicity long-term stored influenza A/Vietnam/H5N1 vaccine when administered with or without MF59® adjuvant.
This is a Phase 1 randomized, single center, dose-escalation study designed to evaluate the safety and immunogenicity of live, replication competent recombinant Adenovirus type 4-H5N1Influenza Vietnam 1194 Hemagglutinin (HA) (Ad4-H5-Vtn). Determining the optimal route and dose for this recombinant platform will greatly accelerate investigations of this vector as an influenza vaccine and an HIV vaccine platform. Intranasal and tonsillar administration of the vaccine will be separately assessed. The oral enteric-coated capsule will also be assessed in 10 outpatients using similar blood sampling for comparison. The Ad4-H5-Vtn orally administered as enteric-coated capsules has already been evaluated in an ascending dose Phase 1 study, in dosages as high as 10(11) viral particles (vp). The primary goal of this study is to evaluate safety of ascending dosages of the Ad4-H5-Vtn vaccine following intranasal and tonsillar administration. A dosage or dosages will be selected to further evaluate the humoral, cellular, and mucosal immune responses against both the vector and the inserted gene. The Ad4-H5-Vtn will be initiated at 10(3) vp. Once safety is established at the initial dose, a second round of testing will begin at the next ten-fold higher dose. The Ad4-H5-Vtn vaccine will be assessed in three participants at each dosage level. The maximum viral dose administered by the tonsillar route will be 10(8) vp. In addition to clinical and laboratory monitoring of safety, the principal assessments will be shedding of the Ad4-H5-Vtn virus in rectal, cervicovaginal, throat, and nasal swabs, and assessment of the antibody (mucosal and systemic) response to the HA and to the Ad4 virus. When safety has been confirmed in all three participants at a given dosage level, the next higher dose group is enrolled. If one grade 3 or greater toxicity (or pre-specified Grade 2 toxicity, see Section 3.4) attributable to the vaccine is observed, the group will be expanded at that dose. If a second attributable grade 3 or greater toxicity (or pre-specified Grade 2 toxicity, see Section 3.4) is observed, the dose will be reduced one level and the group will be expanded. Up to 25 Ad4-seronegative individuals will be enrolled at the maximum tolerated dose to fully evaluate safety and immunogenicity in the protocol. All participants will be followed for 28 days following immunization, and again at 8 and 26 weeks to evaluate any long-term toxicity and persistence of immunity. Tonsillar Participants will receive a booster dose of vaccine \[SK1\]at the 26-week visit and be seen for follow-up visits at Weeks 30 and 34. Household and intimate contacts will also be enrolled and monitored for Adenovirus and HAI antibodies.
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.
The purpose of this research study is to study the safety and effectiveness of vaccinating individuals who have previously received an avian influenza vaccine derived from one type of H5N1 virus with a vaccine derived from a different type of avian influenza virus. A second reason for this study is to compare responses in people who have received two different but similar types of H5N1 vaccine to the responses in subjects who receive 2 doses of only the H5N1 vaccine used in this study. The information obtained may provide important information into the usefulness of a pre-pandemic vaccination. Participants will include 600 healthy adult volunteers, ages 19 and older, in the United States. Study procedures include: physical exams, vaccination with either a low dose (15 micrograms) or high dose (90 micrograms) of vaccine, blood samples, and maintaining a memory aid to record oral temperatures and side effects. Study participation will be approximately 7 months.
The purpose of this research is to study side effects and safety of a new H5N1 flu (bird flu) vaccine and to look at how well people's immune systems make antibodies to fight infection after they get the vaccine. Up to 300 healthy people who are working at Aventis Pasteur H5N1 virus vaccine production facility in Swiftwater, PA, during the flu season are being asked to participate. It is important for vaccine production workers to receive the vaccine in order to minimize the risk of this bird flu virus combining with the regular flu virus. Volunteers in this study will have a medical screening, 2 vaccinations a month apart, 2 blood sample collections (1 before and 1 after the vaccinations to compare), 5 clinic visits, and follow-up over 6 months. They will also complete a diary card and to write down their temperature once a day and any symptoms they have every day during the week after they get their second shot. They will also be asked to write down any drugs or medicines they take.
This randomized, controlled, double-blinded, dose-ranging, Phase I-II study in 600 healthy adults, 18 to 49 years old, is designed to investigate the safety, reactogenicity, and dose-related immunogenicity of an investigational inactivated influenza A/H5N1 virus vaccine when given alone or combined with aluminum hydroxide. A secondary goal is to guide selection of vaccine dosage levels for expanded Phase II trials based on reactogenicity and immunogenicity profiles. This dose optimization will be applied to both younger and older subject populations in subsequent studies. Subjects who meet the entry criteria for the study will be enrolled at one of 4 study sites and will be randomized into one of 8 groups to receive 2 doses of influenza A/H5N1 vaccine containing 3.75, 7.5, 15, or 45 mcg of HA with or without aluminum hydroxide adjuvant by intramuscular injection. Participants may be involved in study related procedures for up to 8 months.
The purpose of this study is to compare how the body reacts to different strengths of the new A/H5N1 flu vaccine when given with the addition of aluminum hydroxide adjuvant and provide dosing information. How the body's immune system responds to the new H5N1vaccine with aluminum hydroxide approximately 1 month following receipt of 2 doses of vaccine will also be evaluated. The vaccine is given as an injection or shot in the arm. Volunteer participants in this study will be 600 healthy elderly adults, aged 65 years and older. Participants will be randomly assigned to 4 different dosage groups of vaccine, either with or without adjuvant, for a total of 8 different groups. Volunteers will participate in the study for 7 months. Each individual will receive two vaccinations, the second 28 days after the first. In addition to visits for these vaccinations, subjects will return to the clinic for physical evaluations and blood sample collection 6 times during the course of this study.
This study is will gather critical information on the safety, tolerability, and the immunogenicity (capability of causing an immune response) of A/H5N1 (Bird flu) virus vaccine in healthy adults. Up to 400 healthy adults, aged 18 to 64, will participate. Each subject will participate for about 7 months and will be randomly placed in one of several different study groups receiving a different dose of vaccine or placebo. All subjects will receive two injections of their assigned study product, about 28 days apart, in the muscle. Subjects will keep a journal of their temperature and any adverse effects between study visits. A small amount of blood will also be drawn before the first injection, 7 days after each injection, 1 month after the first injection, and 1 and 6 months after the second injection.
The purposes of this study are: to make sure that there are no serious side effects of an experimental inactivated influenza A/H5N1 vaccine in children; and to see how the body's immune system reacts to the vaccine. To look at the side effects, researchers will follow children closely after vaccination. To look at immune system responses, researchers will test the children's blood before and a number of times after vaccination. Participants will include up to 130 healthy children ages 2-9 years. Participants will be assigned to receive 2, up to 3 doses of vaccine, or placebo (inactive substance). Subjects will receive at least 2 doses of vaccine approximately 28 days apart. If data shows an enhanced immune response from a third vaccination, children will be offered a third dose of the vaccine. Participants will be involved in study related procedures for up to 13 months, including up to 6 study visits, plus a number of telephone calls.
The purpose of this research study is to compare how the body reacts to different strengths of the new H5N1 flu vaccine. The study will also look at how antibodies are made after a subject receives the H5N1 flu vaccine. The vaccine will be given as a shot in the arm. Participants will be randomly assigned to receive 1 of 4 different dosages of the vaccine or a placebo (dummy) dose of the vaccine. Study procedures will include a physical exam, a urine pregnancy test for women, and blood samples. Participants will be asked to complete a diary to record temperatures, medications taken, and side effects from the vaccine. Volunteers will be involved with study procedures for approximately 7 months. The study will enroll about 450-470 healthy participants, ages 18-64.
This Phase 3 study evaluates the safety, immunogenicity and lot-to lot consistency of 3 lots of aH5N1c vaccine for pandemic avian influenza, in approximately 2394 healthy adults ≥18 years of age receiving the vaccine and 797 healthy adults receiving placebo. Subjects were randomized in a 3:1 ratio to receive either aH5N1c vaccine or saline placebo. Enrollment was stratified by age: 18 to \<65 years of age and ≥65 years of age, to allow adequate safety assessment of the entire age spectrum.
DNA vaccines consist of small pieces of DNA also known as plasmids, and have several potential advantages over traditional vaccines. Thus far, DNA vaccines appear to be well tolerated in humans. The investigators have developed a DNA vaccine, VGX-3400X, which includes plasmids targeting the proteins of the H5N1 avian influenza virus. The vaccine will be delivered via electroporation (EP) which uses the CELLECTRA constant current device to deliver a small electric charge following injection, since animal studies have shown that this delivery method increases the immune response to vaccine. The vaccine will be given to 30 healthy adult subjects. It is hypothesized that VGX-3400X + EP will be well tolerated and immunogenic.
This will be a randomized, open-label, pilot feasibility study of four 2-dose vaccine regimens in healthy volunteers using two commercially available seasonal influenza vaccines to compare immune responses and in vitro cross-reactivity against H5N1. Vaccine doses will be spaced by approximately 8 weeks to allow for optimal prime boost conditions. Humoral, cellular and secretory immune responses will be measured 2 and 4 weeks after each vaccine dose and compared with baseline values.
The purpose of this study is to compare the safety and immunogenicity over a 9-month period of five different dosages of Ad4-H5-Vtn in volunteers (Vaccinees) who receive three doses of the study vaccine or placebo. In addition, transmission of Ad4-H5-Vtn will be evaluated in all Household Contacts residing with the vaccinated volunteers. Vaccinees also may participate in a substudy in which they receive a booster vaccination with the licensed Influenza Virus Vaccine, H5N1 (Sanofi Pasteur).
The purpose of this study is to determine whether drinking pasteurized milk (milk heated to kill harmful germs) that contains inactive particles of a flu virus called A(H5) could lead to the detection of the virus in the nose or throat. Inactive particles are not capable of causing disease. The results will help the Centers for Disease Control and Prevention (CDC) better understand how milk consumption could affect flu surveillance. Investigators also want to see if the body produces antibodies in response to this milk consumption.
Approximately 216, and up to 270, healthy males and non-pregnant females, 18 to 49 years old, inclusive, will be enrolled over a 5-month period into this multicenter, randomized, double-blinded, controlled Phase I study. Subjects who meet the entry criteria for the study and provide informed consent will be randomized 2:1 between adjuvanted and unadjuvanted vaccine and placed into one of 6 groups (see table) to receive two doses of an intramuscular subvirion inactivated monovalent influenza A/H5N1 virus vaccine at 3.75, 7.5, or 15 mcg given with the adjuvant MF59 or diluent (N=216, up to 270). All eligible subjects will receive 2 doses separated by approximately 21 days.
The purpose of the study is to evaluate safety and compare how the body reacts to 2 different strengths of the Clade (specific type of H5N1 virus) 2 H5N1 flu vaccine when given as a single vaccination with a high dose (90 mcg) or low dose (15 mcg) to volunteers who have received at least 2 doses of the Clade 1 H5N1 vaccine, in a previous National Institute of Health study or who have never received a H5N1 vaccine (naïve). Previously vaccinated subjects (in studies 04-0063, 05-0090, 05-0127) will receive either 15 or 90 mcg of H5N1 vaccine. Multiply boosted volunteers who participated study 05-0043 and received Clade 1 and 3 vaccines, will receive the same dose (15mcg). Vaccine naïve subjects will receive 2 doses of vaccine (15 or 90 mcg) separated by 28 days. Blood samples will be collected. 115 volunteers age 18-64 may participate in study related procedures for approximately 7 months.
This research will study safety and the body's immune (defense system) responses, including anti-H5 flu antibodies (the body's protective proteins found in the blood), to an inactivated influenza "H5" bird flu, virus vaccine. Participants will be assigned by chance to receive the vaccine injections with and without an adjuvant, (substance that can improve vaccine effectiveness so less vaccine may be used) MF59, or placebo (inactive substance). Five different vaccine dose strengths will be evaluated. About 735 healthy participants, ages 18-49 will be asked to take part in this study. Study procedures include physical exam, blood sampling, and use of a memory aid. Volunteers will participate for up to 13 months.