Polio Clinical Trial
Official title:
A Phase 4, Randomized, Open-Label Study to Assess Humoral and Intestinal Polio Immunity Following a Three-Dose Trivalent Inactivated Polio Vaccine Schedule Relative to Two Sequential Schedules of IPV/Bivalent Oral Polio Vaccines
The rationale for this study (IPV 002ABMG) is to evaluate and compare three doses of IPV,
two doses of IPV plus one bOPV, and one dose of IPV plus two doses of bOPV in order to
provide evidence for better immunization policy making in regions of the world that must
switch to use of IPV/bOPV schedules in the 2014-2015 time frame. The goal is to identify the
best option optimizing humoral immune responses, intestinal immunity and thereby prevent
community transmission as well as preventing VAPP. Specifically, the study seeks to show
that both of the sequential regimens are equivalent (not-inferior) to the 3-dose IPV regimen
in the seroconversion rates to both type 1 and type 3 poliovirus such that not more than 10%
of subjects fall below the 95% confidence interval observed for the 3-dose IPV alone regimen
and the geometric mean titers (GMTs) are no more than 2/3 logs less than those for the
3-dose IPV regimen. In addition, the study will evaluate by a novel method (poliovirus
shedding index), the adequacy of IPV vaccines in inducing intestinal immunity, specifically
by reducing the shedding of poliovirus type 2 after an OPV challenge. The hypotheses of the
study are:
- A 3-dose IPV/bOPV sequential schedule including 1 or 2 doses of bOPV is non-inferior in
terms of types 1 and 3 seroconversion rates and GMTs to a 3-dose IPV schedule.
- Two and possibly 1 IPV dose(s) provides significant seroconversion rates and GMTs to
type 2 poliovirus and sufficient priming to induce a rapid immune response in the
context of an oral challenge at 7 months of age.
- Three, 2, and possibly 1 dose of IPV will induce intestinal immunity to poliovirus type
2 as measured by a combination of quantity of virus in stools and duration of shedding
(shedding index).
In addition to these 3 hypotheses, the study will explore the following hypothesis:
• Co-administration of bOPV and rotavirus at 16 weeks of age (the second rotavirus dose)
provides similar antirotavirus IgA seroconversion rates and GMCs compared to subjects
receiving rotavirus vaccine together with IPV.
3.0 STUDY DESIGN This is a multicenter, randomized, unblinded study. Healthy infants
attending the well-child care at outpatient clinics and due for their first dose of polio
vaccines will be eligible for the study. Infants 8 wks ± 7 days of age will be randomized
and allocated to three treatment groups.
4.0 STUDY POPULATION The study will be conducted in up to 7 "vacunatorios" in Chile. Parents
or legal guardians of healthy infants, who are receiving well-child care at designated
outpatient clinics, will be approached to participate in the study.
5.0 TREATMENT OF SUBJECTS 5.1 Vaccines The vaccines to be used in this study include bOPV,
mOPV2, and IPV (see Section 14.2 for package inserts).
5.1.1 Bivalent Oral Polio Vaccine (bOPV) Produced by Sanofi Pasteur, Lyon, France, bivalent
OPV vaccine contains types 1 and 3 polioviruses and it is indicated for supplementary
immunization activities in children from 0 to 5 years of age to prevent or contain outbreaks
caused by these 2 serotypes. The vaccine contains at least 6.0 log CCID50 of LS c2ab live
attenuated polio virus type 1; and at least 5.8 log CCID50 Leon I2aIb strain of polio virus
type 3. The vaccine dose is 2 drops (0.1 mL) using a multi-dose dropper vial, given directly
into the mouth. The vaccine should be stored in a freezer at -20°C, and after thawing it can
be stored up to 6 months at refrigerated temperatures of +2 to +8°C.
5.1.2 Monovalent Oral Polio Vaccine Type 2 (mOPV2) Monovalent OPV type 2 live attenuated
poliomyelitis virus vaccine (mOPV2) is produced by Glaxo SmithKline, Rixensart, Belgium, as
a sterile suspension of poliovirus serotype 2 for oral administration. Each dose (0.1 mL)
contains not less than 105.0 CCID50 of the Sabin strain type 2 (P 712, Ch, 2ab). This will
be the challenge OPV strain used to assess intestinal shedding and immunity. The vaccine
should be stored in a freezer at -20°C, and after thawing it can be stored up to 6 months at
refrigerated temperatures of +2 to +8°C.
5.1.3 Inactivated Polio Vaccine (IPV) Inactivated poliovirus vaccine is produced by
Sanofi-Pasteur as a sterile suspension of 3 types of poliovirus. Each dose of vaccine (0.5
mL) contains 40 D antigen units of Mahoney strain (Type 1); 8 D antigen units of MEF-1
strain (Type 2); and 32 D antigen units of Saukett strain (Type 3). It also contains 0.5% of
2-phenoxyethanol and a maximum of 0.02% of formaldehyde as preservatives. It may also
contain 5 ng of neomycin, 200 ng of streptomycin, and 25 ng of polymixin B as residuals of
the vaccine production. The vaccine does not contain Thimerosal. The vaccine should be kept
refrigerated at +2 to +8°C, and should never be frozen. The dose of IPV vaccine should be
0.5 mL administered intramuscularly in the anterolateral aspect of the thigh.
5.2 Vaccine Intervals and Administration All polio vaccine doses should be administered at
least 4 weeks or more apart. For IPV, the administration site is restricted to the
anterolateral aspect of the left thigh.
- All other intramuscular (IM) EPI routine vaccines will be administered to the
anterolateral aspect of the right thigh (or the arm at 16 weeks when 3 vaccines are to
be administered including IPV, pentavalent combination vaccine, and S. pneumoniae).
These vaccines should not be injected in the gluteal area or areas where there may be a
major nerve damage.
- IPV will be administered IM at Week 8 (Group 1), Weeks 8 and 16 (Group 2), or Weeks 8,
16, and 24 (Group 3).
- Bivalent OPV will be administered as oral drops (2 drops for each vaccination) at Weeks
16 and 24 (Group 1) or Week 24 (Group 2).
- An oral challenge dose (2 drops) of mOPV2 will be administered at Week 28.
Prior to an injection of any vaccine, all known precautions should be taken to prevent
adverse reactions. This includes a review of the potential participant's history with
respect to possible allergic reactions to the vaccine or similar vaccines. Epinephrine
Injection (1:1000) and other appropriate agents should be available to control immediate
allergic reactions. Health-care providers should obtain the previous immunization history of
the subject, and inquire about the current health status of the subject.
Infants participating in the study will be provided the recommended vaccines aside from
polio vaccine as per the National Immunization Schedule of Chile (DTPw/HBV/Hib, S.
pneumoniae vaccine).
In addition, a 2-dose (RotarixTM) oral rotavirus vaccine will be offered during the study at
8 weeks and 16 weeks of age.
Serology Testing
Rational for each blood sample: After thorough discussions on the minimum number of serum
samples required to obtain valid answers to our hypothesis, the research group has arrived
to the following:
1. Baseline serum sample at 7-8 weeks to determine antibody titers to polioviruses (and
rotavirus) before any vaccination, required as a basis to detect seroconversion rates.
2. Post IPV dose 1 at 16 weeks (Group 1) or IPV 2 at 24 weeks (Groups 2 and 3) to
determine IPV/bOPV dose-dependent seroconversions for poliovirus 2 with the shortest
possible latency after vaccination to avoid the potential confounder associated with
exposure to circulating poliovirus 2 vaccine viruses.
3. Post 3 doses to measure the primary objective, seroconversion and GMTs to types 1 and 3
after the different schedules. This serum will also be used for antirotavirus antibody
determinations in order to calculate seroconversion rates and GMCs achieved.
4. One week post-type 2 live poliovirus vaccine challenge at 28 weeks to determine if
infants who have not seroconverted to type 2 poliovirus after completing the series of
3 immunizations at 8, 16, and 24 weeks in each of the 3 groups, do so rapidly within 1
week after the challenge. Seroconversion within 1 week strongly suggests that although
the individual had not seroconverted prior to the mOPV2 challenge, that they would do
so rapidly should they encounter cVDPV2 in the environment; this in turn suggests that
although they might become infected by cVDPV2, their risk of developing neuroparalytic
disease as a consequence would nonetheless be substantially reduced.
A total of 4 blood samples will be collected for each study subject. A maximum of 3 mL will
be obtained by heel stick or venipuncture methods. Each blood sample will be transported
within 24 hours in appropriate cold chain conditions to the "Central Study Laboratory" at
the Microbiology and Mycology Program, Institute of Biomedical Sciences, Faculty of
Medicine, University of Chile. Sera will be obtained and 2 aliquots will be placed into
cryovials, labeled with linked coding, and stored in a -20°C freezer. One aliquot will be
shipped in appropriate cold chain conditions to the Polio and Picornavirus Laboratory
Branch, Center for Disease Control and Prevention. The second aliquot will be left on
repository storage at the study center.
Sera will be processed following a standard protocol (see Section 14.1). Neutralizing
antibodies against polioviruses 1, 2, and 3 will be determined using a sero-neutralization
assay. The laboratory will be blinded with regard to the vaccination status of individuals
contributing particular specimens, ensuring the integrity of the study. After successful
completion of testing, duplicate specimens will be destroyed. Authorized specimens assays
are only for antibody levels to valences included in the study vaccines. Should the case
arise, the use of these specimens for any other assay will require the approval of the study
Sponsor and the Principal Investigator, as well as Institutional Review Board (IRB) or
Independent Ethics Committee (IEC) approval, as per applicable rules and regulations.
Baseline sera and sera obtained at 28 weeks will be processed for antirotavirus IgA
concentration as previously described at Glaxo SmithKline laboratories (26).
5.3 Stool Samples for Poliovirus "Shedding Index" determination Stool samples (5 to 10
grams) will be collected at 5 times for each subject, using WHO approved protocols and kits,
and transported and stored following the WHO procedures for detection of polioviruses. Fresh
stools will be collected unmixed with urine in a screw-top container, placed in a cold box
with frozen ice packs, and transported to the designated laboratory for storage in a freezer
at -20°C. A log book of collected and stored samples will be kept by the study personnel.
Stool samples will be used later to determine the excretion of polioviruses as per protocol
(Section 14.1). Samples will be sent in batches to the reference laboratory for poliovirus
culture.
5.4 Medications/Treatments Permitted (including rescue medication) and not Permitted Before
and/or During the Trial There will be no restrictions in using medications/treatments except
for the following conditions: primary immune deficiency or immune deficiency subsequent to
treatment, leukemia, lymphoma or advanced malignancy in the subject to be vaccinated or
his/her close contact. Only medications to treat SAEs or IMEs will be documented in eCRF.
All other medications will be captured and recorded in the source document at the
investigators discretion at the investigational site.
5.5 Subject Compliance Subjects are required to abide by scheduled visits and the vaccine
schedule.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
Status | Clinical Trial | Phase | |
---|---|---|---|
Completed |
NCT00772369 -
Retrospective Survey of Safety of Fourth Dose Pentacel® in Children
|
Phase 4 | |
Completed |
NCT00401531 -
Comparison of a DTaP-IPV-HB-PRP~T Combined Vaccine to Infanrix™-Hexa, When Administered With Prevnar® in Thai Infants
|
Phase 3 | |
Completed |
NCT00772928 -
Study of the Effect of Pneumococcal Conjugate Vaccine (PCV) on Immunogenicity of Pentacel™
|
Phase 3 | |
Completed |
NCT00254917 -
Assessment of the Immunogenicity and Safety of PENTAXIM™ in Philippines
|
Phase 4 | |
Completed |
NCT04576910 -
Immunogenicity and Safety of the Booster Dose of Polio Vaccine With Different Primary Sequential Schedules in China
|
Phase 4 | |
Completed |
NCT04264546 -
Safety and Immunogenicity of a Sabin Inactivated Poliovirus Vaccine (Phase Ib)
|
Phase 1/Phase 2 | |
Not yet recruiting |
NCT06114810 -
Immunogenicity of Novel Oral Poliovirus Vaccine Type 2 (nOPV2), bOPV and IPV
|
Phase 4 | |
Completed |
NCT01475539 -
Sequential Inactivated Poliomyelitis Vaccine Followed by Oral Poliomyelitis Vaccine Versus Oral Poliomyelitis Vaccine
|
Phase 4 | |
Completed |
NCT01244464 -
A Study of the Safety of IMOVAX Polio™ in China
|
Phase 4 | |
Completed |
NCT00255047 -
Safety and Immune Response of Different Pediatric Combination Vaccines.
|
Phase 3 | |
Recruiting |
NCT05850364 -
A Multi-center, Open-labelled, Randomized, Controlled, Extended Phase Ⅲ Clinical Trial of sIPV Vaccine
|
Phase 3 | |
Completed |
NCT00662870 -
Study of the Safety, Immunogenicity and Lot Comparability of DAPTACEL When Administered With Other Recommended Vaccine
|
Phase 3 | |
Completed |
NCT03147560 -
Immunogenicity and Safety Evaluation of Different Sequential Immunization Strategies by Sabin IPV and bOPV in Chinese Infants
|
Phase 4 | |
Completed |
NCT05083039 -
Observational Program, Study the Preventive Efficacy of the BiVac Polio Vaccine Against the Incidence of Acute Respiratory Infections, Including COVID-19
|
||
Active, not recruiting |
NCT00932269 -
Seroimmunity 2007 and Sub Study of the Swedish Population Regarding Vaccine Preventable Disease
|
Phase 0 | |
Completed |
NCT03922061 -
Evaluation of Safety, Reactogenicity and Immunogenicity of Fractional-dose Inactivated Polio Vaccine (fIPV) Given Intradermally With Double Mutant Enterotoxigenic Escherichia Coli Heat Labile Toxin (dmLT) Adjuvant
|
Phase 1 | |
Enrolling by invitation |
NCT03818477 -
Environmental Surveillance (ES) for Polio and AMR Using the TaqMan Array Card
|
||
Completed |
NCT00348387 -
Immunogenicity and Safety of Imovax Polio in Chinese Infants Compared to Local OPV
|
Phase 3 | |
Not yet recruiting |
NCT06460545 -
Phase IV Study of Concomitant Administration of the sIPV and HepA
|
Phase 4 | |
Active, not recruiting |
NCT01908114 -
To Develop, Implement and Evaluate the Polio Demonstration Project Comprising of a Community Based Intervention Package for Polio Eradication in Pakistan
|
Phase 4 |