Polio Clinical Trial
Official title:
Phase I Evaluation of the Safety, Reactogenicity and Immunogenicity of Fractional-dose Inactivated Polio Vaccine (fIPV) Given Intradermally With Double Mutant [LT(R192G/L211A)] Enterotoxigenic Escherichia Coli Heat Labile Toxin (dmLT) Adjuvant
Verified date | August 2020 |
Source | University of Vermont |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
Polio is a serious disease that can cause paralysis and death. It is caused by a virus and
can be prevented by vaccine. The World Health Organization's (WHO) Global Polio Eradication
Initiative is trying to get rid of all polio disease around the world. Researchers want to
help by testing a new vaccine.
In many countries, people are vaccinated with oral polio vaccine (OPV) given by mouth during
childhood. OPV is good at giving immunity (protection from polio) in the body and the
gastrointestinal (GI) tract. Immunity in the GI tract is called mucosal immunity. The
downsides of using OPV are that it can be shed into the environment in people's feces after
vaccination where it can infect people who are not vaccinated, and it can cause paralysis in
2-4 of every one million children vaccinated with OPV. The United States (U.S.) stopped
giving any OPV to people for vaccinations in the 1990's. Since then, a polio vaccine called
inactivated polio vaccine (IPV) is given as an injection for routine childhood immunizations
in the U.S. You cannot get polio infection from IPV and it will not be shed into the
environment.
In 2016, the WHO started a plan to help other countries gradually get rid of OPV. The
downside of using IPV by itself is that, unlike OPV, it doesn't give enough mucosal immunity
to protect people living in places where there is still polio. There are also supply
shortages of IPV, which is a problem if there are outbreaks of polio. For the supply of IPV
to help more people, it is safe and effective to use a tiny dose of IPV injected under the
top layer of skin (intradermal or ID injection) rather than getting the full dose in the
muscle. This is called a fractional dose of IPV, or fIPV.
To help stop using OPV globally, a better fIPV vaccine is needed. fIPV vaccine needs a
substance to help stimulate a mucosal immune response. dmLT is a substance that has been
shown to stimulate a mucosal immune response. It has been shown to be safe and effective in
both humans and animals, both by itself and when given with other vaccines.
This study will test a mixture of fIPV-dmLT given intradermally (under the outer layer of the
skin). This is the first study done in humans to give this combination intradermally. The IPV
vaccine has already been approved by the FDA. The fIPV-dmLT vaccine has not been approved by
the FDA.
Status | Completed |
Enrollment | 29 |
Est. completion date | June 4, 2020 |
Est. primary completion date | July 18, 2019 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 18 Years to 45 Years |
Eligibility |
Inclusion Criteria: 1. Adult male or female age 18-45 years, inclusive 2. Signed informed consent form prior to initiation of any study activity 3. Good general health as determined by review of medical history and physical exam 4. Agrees to complete all study visits and procedures for the duration of the study 5. Receipt of childhood vaccine series of Inactivated Polio Vaccine with verification of immunization record. American College of Immunization Practices (AICP) required that OPV use be discontinued by January 2000. Therefore, polio vaccines given after January 2000 in the U.S. are known to be IPV. If the documentation is unclear of the type of polio vaccine given between 1998 and 2000, additional confirmation of the type should be attempted to determine eligibility. 6. Agrees to storage of specimens for future research 7. Females of child bearing potential only: willing to use effective contraception from the following reliable methods through the first 28 days of the study: hormonal birth control, condoms with spermicide, diaphragm with spermicide, surgical sterilization, and intrauterine device. All female subjects will be considered as having childbearing potential except for those who have had a hysterectomy or tubal ligation or have no internal female organs. Transgender men who have internal female organs will be considered of childbearing potential and should be willing to use effective contraception during the trial. Exception: females who have sex with females (exclusively) and have no intention of conceiving a child during the study will not be required to use contraception. Exclusion Criteria: 1. History of receipt of any oral polio vaccine. Subjects will be required to present their childhood immunization record during the screening process. Subjects will be excluded if the immunization record indicates receipt of any dose of oral polio vaccine or if only 'polio vaccine' is listed on the record without specifying whether oral or inactivated polio vaccine was administered. 2. Currently lactating, breastfeeding or pregnant. 3. Clinical laboratory values = Grade 2 on hematology or comprehensive metabolic panel, as defined in this protocol. 4. Febrile illness (=38.0°C (100.4°F) or acute gastroenteritis within 48 hours prior to administration of IP 5. History of antimicrobial treatment in the 2 weeks before administration of IP 6. Receipt of a live vaccine within 28 days or a killed vaccine within 14 days prior to inoculation, or anticipated receipt of any vaccine during the 28 days following inoculation. 7. History of a severe allergic reaction or anaphylaxis 8. History of Guillian-Barre Syndrome 9. Known history of hypersensitivity to any component of IPV to include: 2-phenoxyethanol, formaldehyde, neomycin, streptomycin, and polymyxin B 10. Self-reported or suspected immunodeficiency, or receipt of immunosuppressive therapy within the preceding 6 months, or long-term systemic corticosteroid therapy. An immunosuppressive dose of corticosteroids (excluding topical or nasal) is defined as >10 mg of prednisone equivalent per day for >14 days. 11. Asplenia 12. Receipt of blood products within the past 6 months, including transfusions or immunoglobulin, or anticipated receipt of any blood products or immunoglobulins during the 28 days following inoculation 13. Anticipated receipt of any investigational agent in the 28 days before or after receipt of investigational product 14. Abnormal routine bowel habits as defined by fewer than three stools per week in the past 6 months 15. Regular use (weekly or more often) of laxatives, anti-diarrheal, anti-constipation, or antacid therapy 16. Evidence of clinically significant neurologic, cardiac, pulmonary, hepatic, rheumatologic, autoimmune, or renal disease based on history and physical exam. This includes any chronic medical condition (examples include diabetes mellitus, hypertension, autoimmune disorders, cardiovascular and renal diseases). 17. Behavioral, cognitive, or psychiatric disease that, in the opinion of the investigator, affects the subject's ability to understand and cooperative with the requirements of the study protocol. 18. Any other condition that, in the opinion of the study clinician, would jeopardize the safety or rights of a subject participating |
Country | Name | City | State |
---|---|---|---|
United States | University of Vermont | Burlington | Vermont |
Lead Sponsor | Collaborator |
---|---|
University of Vermont |
United States,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | frequency of systemic and local injection (safety and reactogenicity) | frequency of systemic and local injection site adverse reactions (ARs) defined as vaccine-related adverse events (AEs), graded by severity | Events occuring within 28 days of dosing | |
Secondary | percentage of subjects with at least one serious adverse event (secondary-safety) | percentage of subjects with at least one serious adverse event (SAE) occurring within 28 days of dosing will be summarized with severity, relationship to vaccine, and outcome | Events occuring within 28 days of dosing | |
Secondary | Systemic immunogenicity | Proportion of participants showing at least a 4-fold boost in polio-specific serum neutralizing antibodies compared to baseline (Day 0) in fIPV-dmLT recipients vs. fIPV alone | Any timepoint up to day 28 post-vaccination |
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