Safety and Immunogenicity of Live Influenza A Vaccine for Avian Influenza H7N7



Status:Recruiting
Conditions:Influenza
Therapuetic Areas:Immunology / Infectious Diseases
Healthy:No
Age Range:Any
Updated:2/4/2013
Start Date:July 2010
Contact:John Treanor, MD
Phone:585-275-7504

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Phase 1 Inpatient Study of the Safety and Immunogenicity of Live Influenza A Vaccine H7N7 (6-2) AA ca Recombinant (A/Netherlands/219/03 (H7N7) x A/Ann Arbor/ 6/60 ca), a Live Attenuated Virus Vaccine Candidate for Prevention of Avian Influenza H7N7 Infection in the Event of a Pandemic


Every year the human population suffers from seasonal outbreaks of influenza resulting in
both illness and death. However, the rates of illness and death from seasonal outbreaks are
significantly lower than those suffered during times of influenza pandemic, such as those
experienced in 1918, 1957, and 1968. The reason for this difference lies in presence of
immunity within a population. With seasonal outbreaks of influenza most people have some
immunity to the circulating strain and usually only those with weakened immune systems
experience serious complications. Influenza pandemics, in contrast, are the result of a
completely new viral subtype to which nobody possesses an immunity, leaving everyone
vulnerable to the most serious of complications.

It has been estimated that the next flu pandemic could cause over 200,000 deaths and over
700,000 hospitalizations in the US alone. The need for an effective viral vaccine is high.
The purpose of this study is to test the safety and immunogenicity of a live influenza A
strain vaccine, which would be able to combat an influenza pandemic.


Influenza, also called the flu, is an RNA virus belonging to the family Orthomyxoviridae
that consists of 4 genera: influenza A, influenza B, influenza C, and Thogoto viruses. This
vaccine study focuses on influenza A. Influenza A viruses are widely distributed in nature
and can infect a wide variety of birds and mammals, including humans. Influenza viral
infections affect the respiratory system and are particularly dangerous for those with
weakened immune systems.

Within the influenza A genus, there are several viral subtypes classified by the ability to
produce an immune response of their surface glycoproteins, hemagglutinin (HA) and
neuraminidase (NA). In contrast to other species, influenza A has relatively few subtypes
capable of triggering outbreaks within the human population. Only viruses bearing both H1,
H2, or H3 HA genes, and N1 or N2 NA genes have circulated among the human population
throughout the 20th century. The years 1918, 1957, and 1968 were all marked by extremely
high rates of morbidity and mortality related to influenza. These were also the years in
which novel subtypes of influenza had begun to circulate among the population. Because the
human immune system had not yet created antibodies for these viruses, the population easily
succumbed to a flu outbreak which consequently left thousands dead or impaired. It has been
estimated that the next flu pandemic could cause upwards of 200,000 deaths and possibly over
700,000 hospitalizations.

Transmission of influenza subtypes through waterfowl, known as avian influenzas (AI), is of
particularly great concern to the human population because it has the potential to cause a
human influenza pandemic. In the last decade, it has been the AI viruses which have claimed
the lives of hundreds during outbreaks.

At the start of a pandemic, all humans are immunologically naïve if the nascent virus
contains antigenically novel HA and NA subtypes. In the event of a pandemic, the need for an
effective vaccine is unequivocal. This study will test the safety, infectivity, and
immunogenicity of a live-attenuated pandemic virus vaccine. The study will be an open-label,
inpatient trial that will be initiated between April 1st and December 20th of each calendar
year, when wild-type influenza virus is unlikely to be circulating in the community.
Eligible participants will attend a study screening, which includes medical history,
physical examination, hematology testing, liver and renal function testing, H7N7 antibody
titer, HIV and Hepatitis B and C screening, urine dipstick testing (with possible urinalysis
in the event of an abnormal urine dipstick result), and urine drug toxicology testing.
Female participants of child-bearing age may also have a pregnancy test.

Two days prior to each vaccination, participants will be admitted to the isolation unit in
order to become familiar with unit procedures. There will be two vaccinations during the
course of the study. On the day of the first vaccination, a physical examination will be
performed and all female participants will have a urine pregnancy test. Only if the
participant is deemed healthy will a dose of vaccine in the form of nasal spray will be
administered.

Following vaccination, all participants will remain on the isolation unit for at least 9
days. Physical examination and test of NW for influenza virus culture will be performed
daily until discharge. They will be discharged once nasal wash (NW) specimens test negative
for influenza for at least 2 consecutive days beginning on or after Day 7. Physical
examination and NW for influenza virus culture will be performed daily until discharge.
Participants will return for inpatient treatment 26 days after receiving their first dose of
the vaccine. Two days later, or 28 days after the first vaccine, participants will receive a
second dose of the influenza vaccine. Participants will then follow the same procedures as
before, undergoing daily physical exams and testing of NW specimens. They will be eligible
for discharge after another 9 days, provided their NW specimens test negative for influenza
for 2 consecutive days.

All participants will undergo follow-up testing 56, 82, and 208 days after receiving the
first dose of the vaccine. This testing will include providing an interim history,
assessment for severe adverse events (SAEs), collection of a blood sample, completing a
nasal wash, and assessment for treatments that could potentially interfere with
vaccine-induced immunity.

Inclusion Criteria:

- Able to provide informed consent

- General good health, without significant medical illness, physical examination
findings, or significant laboratory abnormalities as determined by the investigator

- Available for the duration of the trial

- Female participants must agree to use effective birth control methods for the
duration of the study. More information on this criterion can be found in the study
protocol.

- Agrees to store blood specimens for future research

Exclusion Criteria:

- Pregnancy or breast-feeding

- Evidence of clinically significant neurologic, cardiac, pulmonary, hepatic,
rheumatologic, autoimmune, or renal disease by history, physical examination, and/or
laboratory studies including urine testing. Clinically significant ALT levels, as
determined by the Principal Investigator, will be exclusionary at baseline, prior to
vaccination.

- Behavioral or cognitive impairment or psychiatric disease that in the opinion of the
investigator affects the ability of the participant to understand and cooperate with
the study protocol

- Previous enrollment in an H7 influenza vaccine trial or in any study of an avian
influenza vaccine

- Seropositive to the H7N7 influenza A virus (serum HI titer greater than 1:8)

- Positive urine drug toxicology test indicating narcotic use or dependency

- Have medical, occupational, or family problems as a result of alcohol or illicit drug
use during the past 12 months

- Other condition that in the opinion of the investigator would jeopardize the safety
or rights of a participant participating in the trial or would render the participant
unable to comply with the protocol

- History of anaphylaxis

- Allergy to oseltamivir

- Diagnosis of asthma or reactive airway disease within the past 2 years

- History of Guillain-Barre Syndrome

- Positive ELISA and confirmatory Western blot tests for HIV-1

- Positive ELISA and confirmatory test (for example, recombinant immunoblot assay
[RIBA]) for hepatitis C virus (HCV)

- Positive test for hepatitis B virus surface antigen (HBsAg) by ELISA.

- Known immunodeficiency syndrome

- Use of corticosteroids (excluding topical preparations) or immunosuppressive drugs
within 30 days prior to vaccination

- Receipt of a live vaccine within 4 weeks or a killed vaccine within 2 weeks prior to
study vaccination

- History of a surgical splenectomy

- Receipt of blood or blood-derived products (including immunoglobulin) within 6 months
prior to study vaccination

- Current smoker unwilling to stop smoking for the duration of the study. More
information on this criterion can be found in the study protocol.

- Travel to the Southern Hemisphere within 14 days prior to study vaccination.

- Travel on a cruise ship within 14 days prior to study vaccination

- Current involvement with the poultry industry. This refers to direct contact with
poultry within the 14 days prior to the study or after the study completion.

- Receipt of another investigational vaccine or drug within 30 days prior to study
vaccination

- Allergy to eggs or egg products
We found this trial at
1
site
601 Elmwood Avenue
Rochester, New York 14642
(585) 275-2100
Univ of Rochester Medical Center One of the nation's top academic medical centers, the University...
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