Immunogenicity of Different Primary Immunization Schedules with Inactivated Poliovirus Vaccine (IPV) Plus Pentavalent Vaccine (DTwP-HBV-Hib) or with Hexavalent Vaccine (DTwP-HBV-Hib-IPV)

Overview

The goal of this study is to provide information on immunogenicity at short and medium term for hexavalent with different schedules, which will be useful for the global polio program and countries, including Bangladesh. Primary objectives are 1. To compare the proportion of participants who seroconvert to all poliovirus serotypes four weeks after a primary immunization series. 2. To compare the proportion of participants seropositive against all poliovirus serotypes at 18 months of age. This is an open-label randomized clinical trial. Participants will be enrolled and randomized at 6 weeks of age to one of three arms. Target enrolment is 330 infants per arm and 200 controls; 990 in the main study and \~ 800 in the sub-study. A total of 4-5 blood samples will be collected from each infant before and after the primary vaccination series, and at 18 months of age, to assess systemic immune response to different antigens. Outcome measures/variables: Neutralizing antibody titers in serum will be quantified for poliovirus types 1, 2, and 3 using a microneutralization test; for diphtheria toxoid, tetanus toxoid, and pertussis toxin using a Multiplex bead assay; and for antibodies to hepatitis B surface antigen (anti-HBs) using serologic assay. The presence of poliovirus types 1 and 3 in oropharyngeal swabs and stools following the bOPV challenge will be tested using a real-time reverse transcription PCR (rRT-PCR) assay.

After eradicating wild poliovirus, the inactivated poliovirus vaccine (IPV) which contains killed poliovirus will replace the oral poliovirus vaccine (OPV) containing attenuated strains in routine immunization to avoid paralysis caused by vaccine-derived polioviruses. However, although IPV is safe and induces high levels of serum antibodies that provide long-term protection against polio, it is less effective in providing mucosal immunity required to prevent person-to-person transmission. Inclusion of IPV in routine immunization schedules in many low-income countries also requires additional injections per visit and delaying of doses to avoid interference of maternally-derived antibody titers. Introduction of recently licensed hexavalent vaccines containing whole-cell Pertussis, Diphtheria toxoid, Tetanus toxoid, Hepatitis B, Haemophilus influenza type B and IPV (wP-Hexa), could reduce the number of vaccine injections per visit, potentially increasing coverage for polio vaccination in low and middle-income countries currently using pentavalent plus stand-alone IPV. But there is limited data on immunogenicity for long-term protection against polio and other antigens with wP-Hexa administered in early short vaccination schedules (i.e. 6-10-14 weeks) without boosters. Investigators need additional research on safety and immunogenicity across different schedules of IPV containing wP-Hexa, to assist countries in making informed decisions for vaccine introduction. Investigators also need more information on oropharyngeal mucosal immunity induced by IPV alone to assess its effectiveness in preventing poliovirus transmission after importations in low, middle-income countries. Primary Objectives: 1. To compare the proportion of participants who seroconvert to all poliovirus serotypes four weeks after a primary immunization series. 2. To compare the proportion of participants seropositive against all poliovirus serotypes at 18 months of age. Secondary objectives: 1. To compare antibody titers for all polio serotypes at 18 months of age among study arms 2. To assess seroprotection/vaccine response for non-polio antigens contained in wP-Hexa or wP-Penta one month after a 3-dose vaccination series. 3. To assess seroprotection/antibody levels for non-polio antigens at 18 months of age following the primary series. 4. To assess solicited and unsolicited adverse effects. 5. Sub-study (Arms A, B and control group only): To compare the proportion of infants shedding type 1 and 3 poliovirus in oropharynx and stools following a challenge with bivalent oral poliovirus vaccine (bOPV). The study will be an open label, phase IV, randomized, inequality, controlled trial.The study will be carried out in Dakshinkhan and Uttarkhan area of Dhaka North City Corporation (DNCC).Eligible infants will be identified through active surveillance of new births in the community and parents will be requested to participate through home visits by local field workers. Participants will be enrolled at 6 weeks of age, randomly assigned to one of three study arms, and followed up to 18 months of age. Following parental informed consent, healthy infants from Dhaka, Bangladesh, will be randomized to one of 3 primary immunization schedules A, B, or C at 6 weeks of age: * Arm A will receive wP-Penta at 6,10,14 weeks of age and 2 doses of IPV at 14 weeks and 9 months. * Arm B will receive wP-Hexa at 6,10,14 weeks of age * Arm C will receive wP-Hexa at 2,4,6 months of age. All participants will have 4-6 visits to the study clinic until 18 months of age. During each visit, the study staff will examine infants, obtain vaccination history and administer study vaccines. Blood collection will be done before and after the 3-dose series, at 10 months (for some antigens) and at 18 months of age. In a subset of participants (those in study arms A and B), the bOPV dose administered to catch-up with the Bangladeshi essential immunization schedule will be used as a challenge dose to assess mucosal immunity induced by IPV. In addition, as a control arm, the study staff will enroll 200 children aged 18 months, who had received polio vaccination through routine immunization services verified by immunization card (bOPV at 6, 10 and 14 weeks; fIPV at 6 and 14 weeks). All Study participants and controls will have a blood sample collected at 18 months, followed by a dose of bOPV (challenge dose) at the same visit. Then, participants in Arms A and B, and Controls, will attend the clinic 3 and 7 days after the challenge bOPV dose for an oropharyngeal swab. In addition, field workers will provide stool carriers with ice packs, a stool collection kit and instructions for parents to collect a stool sample from the baby and bring it to the clinic on day 7. Outcome measures/variables: Neutralizing antibody titers in serum will be quantified for poliovirus types 1, 2, and 3 using a microneutralization test; for diphtheria toxoid, tetanus toxoid, and pertussis toxin using a Multiplex bead assay; and for antibodies to hepatitis B surface antigen (anti-HBs) using serologic assay. The presence of poliovirus types 1 and 3 in oropharyngeal swabs and stools following the bOPV challenge will be tested using a real-time reverse transcription PCR (rRT-PCR) assay. For assessing immunity to polio following the primary vaccination series, seroconversion will be defined as seronegative participants (\<1:8 titers) becoming seropositive (≥1:8 titers) or seropositive participants with ≥ 4- fold increase in titers (adjusted for the expected decline of maternal antibodies) between pre-vaccination and four weeks after the third vaccine dose. Thresholds for seroprotection for other antigens will be: ≥0.1 IU for anti-diphtheria toxoid and anti-tetanus toxoid, ≥4-fold increase from baseline for pertussis toxin (and filamentous hemoglobin) and ≥ 10 mIU/mL for anti-HBs. Solicited local and systemic reactions will be recorded 30 minutes and 48-72 hours after each vaccine dose; unsolicited adverse events will be collected throughout the study up to 18 months of age.