Concomitant Use of Gardasil (V501, Human Papillomavirus [Types 6, 11, 16, 18] Recombinant Vaccine) With Combined Diptheria, Tetanus, Pertussis and Poliomyelitis Vaccine in Adolescents (V501-024)(COMPLETED)
Primary Purpose
Neoplasms, Glandular and Epithelial, Diphtheria, Tetanus
Status
Completed
Phase
Phase 3
Locations
Study Type
Interventional
Intervention
Comparator: Quadrivalent Human Papillomavirus (Types 6, 11, 16, 18) Recombinant (qHPV) Vaccine from Current Manufacturing Facility (CMF)
Comparator: Quadrivalent Human Papillomavirus (Types 6, 11, 16, 18) Recombinant (qHPV) Vaccine from Future Manufacturing Facility (FMF)
Comparator: REPEVAX™ (Concomitant)
Comparator: REPEVAX™ (Non-Concomitant)
Sponsored by
About this trial
This is an interventional prevention trial for Neoplasms, Glandular and Epithelial
Eligibility Criteria
Inclusion Criteria: Must be healthy boys or girls, 11-17 years of age Must be a virgin with no intention of becoming sexually active during the study period Must have been properly vaccinated against diphtheria, tetanus, pertussis and polio Exclusion Criteria: Must not have received a vaccine against diphtheria, tetanus, pertussis and polio in the past 5 years Must not have received any prior human papillomavirus (HPV) vaccine
Sites / Locations
Arms of the Study
Arm 1
Arm 2
Arm 3
Arm 4
Arm Type
Experimental
Experimental
Experimental
Experimental
Arm Label
Group 1
Group 2
Group 3
Group 4
Arm Description
Concomitant/CMF
Non-Concomitant/CMF
Concomitant/FMF
Non-Concomitant/FMF
Outcomes
Primary Outcome Measures
Geometric Mean Titers (GMTs) for Anti-HPV 6 at Month 7 (4 Weeks Postdose 3)
Serum antibodies to HPV Type 6 were measured with a Competitive Luminex Immunoassay. Titers were reported in milli Merck Units (mMU)/milliliter (mL). GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Geometric Mean Titers (GMTs) for Anti-HPV 11 at Month 7 (4 Weeks Postdose 3)
Serum antibodies to HPV Type 11 were measured with a Competitive Luminex Immunoassay. Titers were reported in milli Merck Units (mMU)/milliliter (mL). GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Geometric Mean Titers (GMTs) for Anti-HPV 16 at Month 7 (4 Weeks Postdose 3)
Serum antibodies to HPV Type 16 were measured with a Competitive Luminex Immunoassay. Titers were reported in milli Merck Units (mMU)/milliliter (mL). GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Geometric Mean Titers (GMTs) for Anti-HPV 18 at Month 7 (4 Weeks Postdose 3)
Serum antibodies to HPV Type 18 were measured with a Competitive Luminex Immunoassay. Titers were reported in milli Merck Units (mMU)/milliliter (mL). GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Number of Participants Who Seroconverted for HPV Type 6 (HPV 6 ≥20 mMU/mL) by Month 7 (4 Weeks Postdose 3)
Seroconversion to HPV Type 6 was defined as changing serostatus from seronegative to seropositive as measured by GMT. The cutoff value for HPV seropositivity was ≥20 mMU/mL. Seroconversion of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to seroconversion of participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared seroconversion for each HPV type using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Number of Participants Who Seroconverted for HPV Type 11 (HPV 11 ≥16 mMU/mL) by Month 7 (4 Weeks Postdose 3)
Seroconversion to HPV Type 11 was defined as changing serostatus from seronegative to seropositive as measured by GMT. The cutoff value for HPV seropositivity was ≥16 mMU/mL. Seroconversion of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to seroconversion of participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared seroconversion for each HPV type using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Number of Participants Who Seroconverted for HPV Type 16 (HPV 16 ≥20 mMU/mL) by Month 7 (4 Weeks Postdose 3)
Seroconversion to HPV Type 16 was defined as changing serostatus from seronegative to seropositive as measured by GMT. The cutoff value for HPV seropositivity was ≥20 mMU/mL. Seroconversion of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to seroconversion of participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared seroconversion for each HPV type using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Number of Participants Who Seroconverted for HPV Type 18 (HPV 18 ≥24 mMU/mL) by Month 7 (4 Weeks Postdose 3)
Seroconversion to HPV Type 18 was defined as changing serostatus from seronegative to seropositive as measured by GMT. The cutoff value for HPV seropositivity was ≥24 mMU/mL. Seroconversion of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to seroconversion of participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared seroconversion for each HPV type using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Number of Participants Who Achieved Acceptable Levels of Titers to Diphtheria (Diphtheria ≥0.1 IU/mL) One Month Post-vaccination With REPEVAX™
Diphtheria antitoxin titers were measured using a neutralization assay in Vero cell culture that compares the antitoxin level in the serum of participants with the World Health Organization International Standard for Diphtheria Antitoxin. An acceptable level of response was defined as ≥0.1 International Units (IU)/milliliter (mL). Response levels of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Number of Participants Who Achieved Acceptable Levels of Titers to Tetanus (Tetanus ≥0.1 IU/mL) One Month Post-vaccination With REPEVAX™
Tetanus antitoxin titers were measured using an indirect, non-competitive enzyme immunoassay (EIA) that compares the antitoxin level in the serum of participants with the World Health Organization International Standard for Tetanus Immunoglobulin. An acceptable level of response was defined as ≥0.1 International Units (IU)/milliliter (mL). Response levels of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Number of Participants Who Achieved Acceptable Levels of Titers to Poliovirus Type 1 (Poliovirus Type 1 ≥1:8) One Month Postvaccination With REPEVAX™
Poliovirus antibody was measured using a poliovirus neutralization assay that assesses the ability of serial dilutions of participant sera to neutralize known amounts of type-specific Sabin poliovirus strains (Types 1, 2, and 3). An acceptable level of response was defined as participants who achieve detectable serum neutralizing antibodies at a ≥1:8 dilution of sera. The response of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Number of Participants Who Achieved Acceptable Levels of Titers to Poliovirus Type 2 (Poliovirus Type 2 ≥1:8) One Month Postvaccination With REPEVAX™
Poliovirus antibody was measured using a poliovirus neutralization assay that assesses the ability of serial dilutions of participant sera to neutralize known amounts of type-specific Sabin poliovirus strains (Types 1, 2, and 3). An acceptable level of response was defined as participants who achieve detectable serum neutralizing antibodies at a ≥1:8 dilution of sera. The response of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Number of Participants Who Achieved Acceptable Levels of Titers to Poliovirus Type 3 (Poliovirus Type 3 ≥1:8) One Month Postvaccination With REPEVAX™
Poliovirus antibody was measured using a poliovirus neutralization assay that assesses the ability of serial dilutions of participant sera to neutralize known amounts of type-specific Sabin poliovirus strains (Types 1, 2, and 3). An acceptable level of response was defined as participants who achieve detectable serum neutralizing antibodies at a ≥1:8 dilution of sera. The response of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Geometric Mean Titers (GMTs) For Pertussis (Anti-PT) One Month Postvaccination With REPEVAX™
Serum antibodies to Pertussis Toxoid Antibody (anti-PT) were measured with an enzyme-linked immunosorbent assay (ELISA). Titers were reported in ELISA units/mL (ELU/mL) and the lower limit of quantitation for the assay was 5.0 ELU/mL. GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Geometric Mean Titers (GMTs) For Pertussis (Anti-FHA) One Month Postvaccination With REPEVAX™
Serum antibodies to Pertussis Filamentous Haemagglutin Antibody (anti-FHA) were measured with an ELISA. Titers were reported in ELU/mL and the lower limit of quantitation for the assay was 3.0 ELU/mL. GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Geometric Mean Titers (GMTs) For Pertussis (Anti-PRN) One Month Postvaccination With REPEVAX™
Serum antibodies to Pertussis Pertactin (anti-PRN) were measured with an ELISA. Titers were reported in ELU/mL and the lower limit of quantitation for the assay was 5.0 ELU/mL. GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Geometric Mean Titers (GMTs) For Pertussis (Anti-FIM) One Month Postvaccination With REPEVAX™
Serum antibodies to Pertussis Fimbrial Agglutinogens Antibody (anti-FIM) were measured with an ELISA. Titers were reported in ELU/mL and the lower limit of quantitation for the assay was 5.0 ELU/mL. GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV Type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Secondary Outcome Measures
Full Information
NCT ID
NCT00337428
First Posted
June 14, 2006
Last Updated
September 27, 2016
Sponsor
Merck Sharp & Dohme LLC
1. Study Identification
Unique Protocol Identification Number
NCT00337428
Brief Title
Concomitant Use of Gardasil (V501, Human Papillomavirus [Types 6, 11, 16, 18] Recombinant Vaccine) With Combined Diptheria, Tetanus, Pertussis and Poliomyelitis Vaccine in Adolescents (V501-024)(COMPLETED)
Official Title
An Open-Label, Randomized, Multicenter Study of the Safety, Tolerability, and Immunogenicity of Gardasil (V501) Given Concomitantly With REPEVAX™ in Healthy Adolescents 11-17 Years of Age
Study Type
Interventional
2. Study Status
Record Verification Date
September 2016
Overall Recruitment Status
Completed
Study Start Date
May 2006 (undefined)
Primary Completion Date
May 2007 (Actual)
Study Completion Date
May 2007 (Actual)
3. Sponsor/Collaborators
Responsible Party, by Official Title
Sponsor
Name of the Sponsor
Merck Sharp & Dohme LLC
4. Oversight
5. Study Description
Brief Summary
Data from this study are expected to demonstrate that Gardasil (V501, Human Papillomavirus [Types 6, 11, 16, 18] Recombinant Vaccine), when administered concomitantly with a combined diphtheria, tetanus, pertussis, and poliomyelitis vaccine in adolescents remains immunogenic and well-tolerated and it does not impair the immunogenicity of the concomitant vaccines.
6. Conditions and Keywords
Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Neoplasms, Glandular and Epithelial, Diphtheria, Tetanus, Whooping Cough, Poliomyelitis
7. Study Design
Primary Purpose
Prevention
Study Phase
Phase 3
Interventional Study Model
Parallel Assignment
Masking
None (Open Label)
Allocation
Randomized
Enrollment
843 (Actual)
8. Arms, Groups, and Interventions
Arm Title
Group 1
Arm Type
Experimental
Arm Description
Concomitant/CMF
Arm Title
Group 2
Arm Type
Experimental
Arm Description
Non-Concomitant/CMF
Arm Title
Group 3
Arm Type
Experimental
Arm Description
Concomitant/FMF
Arm Title
Group 4
Arm Type
Experimental
Arm Description
Non-Concomitant/FMF
Intervention Type
Biological
Intervention Name(s)
Comparator: Quadrivalent Human Papillomavirus (Types 6, 11, 16, 18) Recombinant (qHPV) Vaccine from Current Manufacturing Facility (CMF)
Intervention Description
GARDASIL™ (quadrivalent human papillomavirus [types 6, 11, 16, 18] virus-like particle [VLP] vaccine, referred to as qHPV vaccine) made at the current manufacturing facility was administered as 0.5-mL intramuscular dose at Day 1, Month 2, and Month 6.
Intervention Type
Biological
Intervention Name(s)
Comparator: Quadrivalent Human Papillomavirus (Types 6, 11, 16, 18) Recombinant (qHPV) Vaccine from Future Manufacturing Facility (FMF)
Intervention Description
GARDASIL™ (quadrivalent human papillomavirus [types 6, 11, 16, 18] virus-like particle [VLP] vaccine, referred to as qHPV vaccine) made at the future manufacturing facility was administered as 0.5-mL intramuscular dose at Day 1, Month 2, and Month 6.
Intervention Type
Biological
Intervention Name(s)
Comparator: REPEVAX™ (Concomitant)
Intervention Description
REPEVAX™ (diphtheria, tetanus, pertussis [acellular, component] and poliomyelitis [inactivated] vaccine, Sanofi Pasteur, Swiftwater, PA U.S.A) was administered as a single 0.5-mL intramuscular dose at Day 1 in a limb opposite that of quadrivalent HPV injection.
Intervention Type
Biological
Intervention Name(s)
Comparator: REPEVAX™ (Non-Concomitant)
Intervention Description
REPEVAX™ (diphtheria, tetanus, pertussis [acellular, component] and poliomyelitis [inactivated] vaccine, Sanofi Pasteur, Swiftwater, PA U.S.A) was administered as a single 0.5-mL intramuscular dose at Month 1 in a limb opposite that of quadrivalent HPV injection.
Primary Outcome Measure Information:
Title
Geometric Mean Titers (GMTs) for Anti-HPV 6 at Month 7 (4 Weeks Postdose 3)
Description
Serum antibodies to HPV Type 6 were measured with a Competitive Luminex Immunoassay. Titers were reported in milli Merck Units (mMU)/milliliter (mL). GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Time Frame
Up to 7 Months (4 Weeks Postdose 3)
Title
Geometric Mean Titers (GMTs) for Anti-HPV 11 at Month 7 (4 Weeks Postdose 3)
Description
Serum antibodies to HPV Type 11 were measured with a Competitive Luminex Immunoassay. Titers were reported in milli Merck Units (mMU)/milliliter (mL). GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Time Frame
Up to 7 Months (4 Weeks Postdose 3)
Title
Geometric Mean Titers (GMTs) for Anti-HPV 16 at Month 7 (4 Weeks Postdose 3)
Description
Serum antibodies to HPV Type 16 were measured with a Competitive Luminex Immunoassay. Titers were reported in milli Merck Units (mMU)/milliliter (mL). GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Time Frame
Up to 7 Months (4 Weeks Postdose 3)
Title
Geometric Mean Titers (GMTs) for Anti-HPV 18 at Month 7 (4 Weeks Postdose 3)
Description
Serum antibodies to HPV Type 18 were measured with a Competitive Luminex Immunoassay. Titers were reported in milli Merck Units (mMU)/milliliter (mL). GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Time Frame
Up to 7 Months (4 Weeks Postdose 3)
Title
Number of Participants Who Seroconverted for HPV Type 6 (HPV 6 ≥20 mMU/mL) by Month 7 (4 Weeks Postdose 3)
Description
Seroconversion to HPV Type 6 was defined as changing serostatus from seronegative to seropositive as measured by GMT. The cutoff value for HPV seropositivity was ≥20 mMU/mL. Seroconversion of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to seroconversion of participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared seroconversion for each HPV type using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 7 Months (4 Weeks Postdose 3)
Title
Number of Participants Who Seroconverted for HPV Type 11 (HPV 11 ≥16 mMU/mL) by Month 7 (4 Weeks Postdose 3)
Description
Seroconversion to HPV Type 11 was defined as changing serostatus from seronegative to seropositive as measured by GMT. The cutoff value for HPV seropositivity was ≥16 mMU/mL. Seroconversion of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to seroconversion of participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared seroconversion for each HPV type using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 7 Months (4 Weeks Postdose 3)
Title
Number of Participants Who Seroconverted for HPV Type 16 (HPV 16 ≥20 mMU/mL) by Month 7 (4 Weeks Postdose 3)
Description
Seroconversion to HPV Type 16 was defined as changing serostatus from seronegative to seropositive as measured by GMT. The cutoff value for HPV seropositivity was ≥20 mMU/mL. Seroconversion of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to seroconversion of participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared seroconversion for each HPV type using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 7 Months (4 Weeks Postdose 3)
Title
Number of Participants Who Seroconverted for HPV Type 18 (HPV 18 ≥24 mMU/mL) by Month 7 (4 Weeks Postdose 3)
Description
Seroconversion to HPV Type 18 was defined as changing serostatus from seronegative to seropositive as measured by GMT. The cutoff value for HPV seropositivity was ≥24 mMU/mL. Seroconversion of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to seroconversion of participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared seroconversion for each HPV type using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 7 Months (4 Weeks Postdose 3)
Title
Number of Participants Who Achieved Acceptable Levels of Titers to Diphtheria (Diphtheria ≥0.1 IU/mL) One Month Post-vaccination With REPEVAX™
Description
Diphtheria antitoxin titers were measured using a neutralization assay in Vero cell culture that compares the antitoxin level in the serum of participants with the World Health Organization International Standard for Diphtheria Antitoxin. An acceptable level of response was defined as ≥0.1 International Units (IU)/milliliter (mL). Response levels of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 1 Month (1 Month Postdose 1)
Title
Number of Participants Who Achieved Acceptable Levels of Titers to Tetanus (Tetanus ≥0.1 IU/mL) One Month Post-vaccination With REPEVAX™
Description
Tetanus antitoxin titers were measured using an indirect, non-competitive enzyme immunoassay (EIA) that compares the antitoxin level in the serum of participants with the World Health Organization International Standard for Tetanus Immunoglobulin. An acceptable level of response was defined as ≥0.1 International Units (IU)/milliliter (mL). Response levels of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 1 Month (1 Month Postdose 1)
Title
Number of Participants Who Achieved Acceptable Levels of Titers to Poliovirus Type 1 (Poliovirus Type 1 ≥1:8) One Month Postvaccination With REPEVAX™
Description
Poliovirus antibody was measured using a poliovirus neutralization assay that assesses the ability of serial dilutions of participant sera to neutralize known amounts of type-specific Sabin poliovirus strains (Types 1, 2, and 3). An acceptable level of response was defined as participants who achieve detectable serum neutralizing antibodies at a ≥1:8 dilution of sera. The response of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 1 Month (1 Month Postdose 1)
Title
Number of Participants Who Achieved Acceptable Levels of Titers to Poliovirus Type 2 (Poliovirus Type 2 ≥1:8) One Month Postvaccination With REPEVAX™
Description
Poliovirus antibody was measured using a poliovirus neutralization assay that assesses the ability of serial dilutions of participant sera to neutralize known amounts of type-specific Sabin poliovirus strains (Types 1, 2, and 3). An acceptable level of response was defined as participants who achieve detectable serum neutralizing antibodies at a ≥1:8 dilution of sera. The response of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 1 Month (1 Month Postdose 1)
Title
Number of Participants Who Achieved Acceptable Levels of Titers to Poliovirus Type 3 (Poliovirus Type 3 ≥1:8) One Month Postvaccination With REPEVAX™
Description
Poliovirus antibody was measured using a poliovirus neutralization assay that assesses the ability of serial dilutions of participant sera to neutralize known amounts of type-specific Sabin poliovirus strains (Types 1, 2, and 3). An acceptable level of response was defined as participants who achieve detectable serum neutralizing antibodies at a ≥1:8 dilution of sera. The response of participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) was compared to participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared response levels using methods developed by Miettinen and Nurminen adjusting for manufacturing facility for qHPV vaccine.
Time Frame
Up to 1 Month (1 Month Postdose 1)
Title
Geometric Mean Titers (GMTs) For Pertussis (Anti-PT) One Month Postvaccination With REPEVAX™
Description
Serum antibodies to Pertussis Toxoid Antibody (anti-PT) were measured with an enzyme-linked immunosorbent assay (ELISA). Titers were reported in ELISA units/mL (ELU/mL) and the lower limit of quantitation for the assay was 5.0 ELU/mL. GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Time Frame
Up to 1 Month (1 Month Postdose 1)
Title
Geometric Mean Titers (GMTs) For Pertussis (Anti-FHA) One Month Postvaccination With REPEVAX™
Description
Serum antibodies to Pertussis Filamentous Haemagglutin Antibody (anti-FHA) were measured with an ELISA. Titers were reported in ELU/mL and the lower limit of quantitation for the assay was 3.0 ELU/mL. GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Time Frame
Up to 1 Month (1 Month Postdose 1)
Title
Geometric Mean Titers (GMTs) For Pertussis (Anti-PRN) One Month Postvaccination With REPEVAX™
Description
Serum antibodies to Pertussis Pertactin (anti-PRN) were measured with an ELISA. Titers were reported in ELU/mL and the lower limit of quantitation for the assay was 5.0 ELU/mL. GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Time Frame
Up to 1 Month (1 Month Postdose 1)
Title
Geometric Mean Titers (GMTs) For Pertussis (Anti-FIM) One Month Postvaccination With REPEVAX™
Description
Serum antibodies to Pertussis Fimbrial Agglutinogens Antibody (anti-FIM) were measured with an ELISA. Titers were reported in ELU/mL and the lower limit of quantitation for the assay was 5.0 ELU/mL. GMTs from participants who received qHPV vaccine and REPEVAX™ together at Day 1 (concomitant) were compared to GMTs from participants who received qHPV vaccine at Day 1 followed by REPEVAX™ 1 month later (non-concomitant). An analysis of non-inferiority compared GMTs for each HPV Type using an ANOVA model with a response of log individual titers and fixed effects for treatment group, manufacturing facility, study site, and the treatment-by-site interaction.
Time Frame
Up to 1 Month (1 Month Postdose 1)
10. Eligibility
Sex
All
Minimum Age & Unit of Time
11 Years
Maximum Age & Unit of Time
17 Years
Accepts Healthy Volunteers
Accepts Healthy Volunteers
Eligibility Criteria
Inclusion Criteria:
Must be healthy boys or girls, 11-17 years of age
Must be a virgin with no intention of becoming sexually active during the study period
Must have been properly vaccinated against diphtheria, tetanus, pertussis and polio
Exclusion Criteria:
Must not have received a vaccine against diphtheria, tetanus, pertussis and polio in the past 5 years
Must not have received any prior human papillomavirus (HPV) vaccine
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Medical Monitor
Organizational Affiliation
Merck Sharp & Dohme LLC
Official's Role
Study Director
12. IPD Sharing Statement
Citations:
PubMed Identifier
19952980
Citation
Vesikari T, Van Damme P, Lindblad N, Pfletschinger U, Radley D, Ryan D, Vuocolo S, Haupt RM, Guris D. An open-label, randomized, multicenter study of the safety, tolerability, and immunogenicity of quadrivalent human papillomavirus (types 6/11/16/18) vaccine given concomitantly with diphtheria, tetanus, pertussis, and poliomyelitis vaccine in healthy adolescents 11 to 17 years of age. Pediatr Infect Dis J. 2010 Apr;29(4):314-8. doi: 10.1097/INF.0b013e3181c177fb.
Results Reference
result
Learn more about this trial
Concomitant Use of Gardasil (V501, Human Papillomavirus [Types 6, 11, 16, 18] Recombinant Vaccine) With Combined Diptheria, Tetanus, Pertussis and Poliomyelitis Vaccine in Adolescents (V501-024)(COMPLETED)
We'll reach out to this number within 24 hrs