The purpose of this study is to assess the immunogenicity, safety and immune persistence of recombinant trivalent rotavirus subunit vaccine in healthy infants aged 6-12 weeks and healthy toddlers aged 7-71 months.
This clinical trial is aimed to evaluate the immunogenicity, safety and immune persistence of recombinant trivalent rotavirus subunit vaccine in Chinese healthy infants aged 6-12 weeks and healthy toddlers aged 7-71 months.The subjects will be divided into 12 subgroups. Two different immune regimens and two dose levels will be evaluated in each age group. Toddlers aged 7-71 months will receive two intramuscular injections on Day 0 and 28 or three intramuscular injections on Day 0, 28 and 56. Infants aged 6-12 weeks will receive three intramuscular injections on Day 0, 28 and 56 or Day 0, 56 and 112. Two dose (mid dose and high dose) will be included in each age group. To maintain blindness in the trial, in each age group with fixed immune regimen, subjects will be randomized in a 1:1:1 ratio to receive mid dose vaccine, high dose vaccine, or placebo.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
QUADRUPLE
Enrollment
1,512
0.5 mL of vaccine containing a total of 60 µg of protein (20 µg of each P type) adjuvanted with 0.5 mg aluminum hydroxide.
0.5 mL of vaccine containing a total of 90 µg of protein (30 µg of each P type) adjuvanted with 0.5 mg aluminum hydroxide.
0.5 mL per dose, containing 0.5 mg aluminium hydroxide adjuvant.
Shangqiu Liangyuan District Center for Disease Control and Prevention
Shangqiu, Henan, China
Ningling County Center for Disease Control and Prevention
Shangqiu, Henan, China
The incidence of adverse events
Incidence of adverse events within 30 minutes after each dose. The severity of solicited and unsolicited adverse events will be graded from grade 1 to grade 4, other adverse events will be graded from grade 1 to grade 5.
Time frame: Within 30 minutes after each vaccination
The incidence of adverse events
Incidence of adverse events within 14 days after each dose. The severity of solicited and unsolicited adverse events will be graded from grade 1 to grade 4, other adverse events will be graded from grade 1 to grade 5.
Time frame: Within 14 days after each vaccination
The incidence of adverse events
Incidence of adverse events Day 15 to 28/30 after each dose. The severity of solicited and unsolicited adverse events will be graded from grade 1 to grade 4, other adverse events will be graded from grade 1 to grade 5.
Time frame: Day 15 to 28/30 after each vaccination
The incidence of adverse events
Incidence of adverse events within 28/30 days after each dose. The severity of solicited and unsolicited adverse events will be graded from grade 1 to grade 4, other adverse events will be graded from grade 1 to grade 5.
Time frame: Within 28/30 days after each vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus Immunoglobulin A (IgA)
Measured by ELISA at baseline and 30 days after the last vaccination.
Time frame: Day 30 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus Immunoglobulin G (IgG)
Measured by ELISA at baseline and 30 days after the last vaccination.
Time frame: Day 30 after the last vaccination
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Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus neutralizing antibody
Neutralizing antibodies will be measured by Micro serum neutralization test at baseline and 30 days after the last vaccination.
Time frame: Day 30 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus IgA
Seroconversion is defined as a ≥ 4-fold rise in IgA titer compared with Baseline.
Time frame: Day 30 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus IgG
Seroconversion is defined as a ≥ 4-fold rise in IgG titer compared with Baseline.
Time frame: Day 30 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus neutralizing antibody
Seroconversion is defined as a ≥ 2.7-fold rise in neutralizing antibody titer compared with Baseline.
Time frame: Day 30 after the last vaccination
Incidence of serious adverse events (SAE)
Incidence of serious adverse events throughout the study.
Time frame: From the first vaccination to 12 months after the last vaccination.
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus IgA
Measured by ELISA.
Time frame: Day 90 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus IgA
Measured by ELISA.
Time frame: Day 180 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus IgA
Measured by ELISA.
Time frame: Day 360 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus IgG
Measured by ELISA.
Time frame: Day 90 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus IgG
Measured by ELISA.
Time frame: Day 180 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus IgG
Measured by ELISA.
Time frame: Day 360 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus neutralizing antibody
Neutralizing antibodies will be measured by Micro serum neutralization test.
Time frame: Day 90 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus neutralizing antibody
Neutralizing antibodies will be measured by Micro serum neutralization test.
Time frame: Day 180 after the last vaccination
Geometric Mean Titers (GMT) of anti-P[4], anti-P[6], anti-P[8] rotavirus neutralizing antibody
Neutralizing antibodies will be measured by Micro serum neutralization test.
Time frame: Day 360 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus IgA
Seroconversion is defined as a ≥ 4-fold rise in IgA titer compared with Baseline.
Time frame: Day 90 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus IgA
Seroconversion is defined as a ≥ 4-fold rise in IgA titer compared with Baseline.
Time frame: Day 180 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus IgA
Seroconversion is defined as a ≥ 4-fold rise in IgA titer compared with Baseline.
Time frame: Day 360 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus IgG
Seroconversion is defined as a ≥ 4-fold rise in IgG titer compared with Baseline.
Time frame: Day 90 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus IgG
Seroconversion is defined as a ≥ 4-fold rise in IgG titer compared with Baseline.
Time frame: Day 180 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus IgG
Seroconversion is defined as a ≥ 4-fold rise in IgG titer compared with Baseline.
Time frame: Day 360 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus neutralizing antibody
Seroconversion is defined as a ≥ 2.7-fold rise in neutralizing antibody titer compared with Baseline.
Time frame: Day 90 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus neutralizing antibody
Seroconversion is defined as a ≥ 2.7-fold rise in neutralizing antibody titer compared with Baseline.
Time frame: Day 180 after the last vaccination
Seroconversion rates of anti-P[4], anti-P[6], anti-P[8] rotavirus neutralizing antibody
Seroconversion is defined as a ≥ 2.7-fold rise in neutralizing antibody titer compared with Baseline.
Time frame: Day 360 after the last vaccination