Clinical Efficacy
One-Dose Regimen in Children
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In a placebo-controlled trial, the protective efficacy of a single dose of Varivax was 96 to 100% against varicella over a 2-year period. The study included healthy individuals 1 to 14 years of age (n=491 vaccine; n=465 placebo).
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In the 1st varicella season, the protective efficacy of Varivax was 100%, while 8.5% of placebo recipients contracted varicella.
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In the 2nd varicella season, the protective efficacy of Varivax was 96%.
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In early clinical trials, a total of 4240 children 1 to 12 years of age received 1000 to 1625 PFU of attenuated virus per dose of Varivax and have been followed for up to nine years post single-dose vaccination.
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There were 0.3% to 3.8% of vaccines per year who reported varicella (called breakthrough cases). This represents an approximate 83% (95% CI, 82–84) decrease from the age-adjusted expected incidence rates.
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In one study, a total of 47% (27/58) of breakthrough cases had <50 lesions compared with 8% (7/92) in unvaccinated individuals, and 7% (4/58) of breakthrough cases had >300 lesions compared with 50% (46/92) in unvaccinated individuals.
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Among a subset of vaccines who were followed in these early clinical trials for up to 9 years postvaccination, 179 individuals had household exposure to varicella.
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84% of exposed children did not report breakthrough varicella, while 16% reported a mild form of varicella.
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This represents an 81% reduction in the expected number of varicella cases utilizing the historical attack rate of 87% after household exposure.
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In later clinical trials, a total of 1114 children 1 to 12 years of age received 2900 to 9000 PFU of attenuated virus per dose of Varivax and have been actively followed for up to 10 years post single-dose vaccination.
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It was observed that 0.2% to 2.3% of vaccinees per year reported breakthrough varicella for up to 10 years post single-dose vaccination.
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This represents an estimated efficacy of 94% (95% CI, 93%-96%), compared with the age-adjusted expected incidence rates in susceptible subjects over the same period.
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Among a subset of vaccinees who were actively followed in these later trials for up to 10 years postvaccination, 95 individuals were exposed to an unvaccinated individual with wild-type varicella in a household setting. There were no reports of breakthrough varicella in 92% (87/95) of exposed children, while 8% (8/95) reported a mild form of varicella (maximum total number of lesions <50; observed range, 10 to 34). This represents an estimated efficacy of 90% (95% CI, 82%, 96%) based on the historical attack rate of 87% following household exposure to varicella in unvaccinated individuals in the calculation of efficacy.
Two-Dose Regimen in Children
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In a clinical trial, a total of 2216 children 12 months to 12 years of age with a negative history of varicella were randomized to receive either 1 dose of Varivax (n=1114) or 2 doses of Varivax (n=1102) given 3 months apart.
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The estimated vaccine efficacy for the 10-year observation period was 94% for 1 dose and 98% for 2 doses (P <.001).
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This translates to a 3.4-fold lower risk of developing varicella >42 days postvaccination during the 10-year observation period in children who received 2 doses than in those who received 1 dose (2.2% vs. 7.5%, respectively).
Two-Dose Regimen in Adolescents and Adults
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In early clinical trials, a total of 796 adolescents and adults received 905 to 1230 PFU of attenuated virus per dose of Varivax and have been followed for up to 6 years following 2-dose vaccination. A total of 50 clinical varicella cases were reported >42 days following 2-dose vaccination. There were no reports of breakthrough varicella in 83% (63/76) of exposed vaccinees, while 17% (13/76) reported a mild form of varicella.
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In later clinical trials, a total of 220 adolescents and adults received 3315 to 9000 PFU of attenuated virus per dose of Varivax and have been actively followed for up to six years following 2-dose vaccination. A total of 3 clinical varicella cases were reported >42 days following 2-dose vaccination. There were no reports of breakthrough varicella among the exposed vaccinees. There are insufficient data to assess the rate of protective efficacy of Varivax against the serious complications of varicella in adults (e.g., encephalitis, hepatitis, pneumonitis) and during pregnancy (congenital varicella syndrome).
Immunogenicity
One-Dose Regimen in Children
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In prelicensure efficacy studies, seroconversion was observed in 97% of vaccinees at approximately 4 to 6 weeks postvaccination in 6889 susceptible children 12 months to 12 years of age.
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In an open label clinical trial (NCT00432523) 752 children 12 through 18 months of age received Varivax either intramuscularly (n=374) or subcutaneously (n=378), concomitantly with M-M-R II. The proportions of children achieving antibody titers above the seroresponse thresholds for varicella virus were 88.4% (95% CI: 84.5, 91.6) of children in the intramuscular group and 85.5% (95% CI: 81.3, 89.0) of children in the subcutaneous.
Two-Dose Regimen in Children
Two-Dose Regimen in Adolescents and Adults
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In a multicenter study involving susceptible adolescents and adults 13 years of age and older, 2 doses of Varivax administered subcutaneously 4 to 8 weeks apart induced a seroconversion rate of approximately 75% in 539 individuals 4 weeks after the first dose and of 99% in 479 individuals 4 weeks after the second dose.
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In another multicenter study involving adolescents and adults, 2 doses of Varivax administered subcutaneously 8 weeks apart induced a seroconversion rate of 94% in 142 individuals 6 weeks after the first dose and 99% in 122 individuals 6 weeks after the second dose.
Persistence of Immune Response
One-Dose Regimen in Children
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In clinical studies involving healthy children who received 1 dose of Varivax subcutaneously, detectable VZV antibodies were present in 99.0% (3886/3926) at 1 year, 99.3% (1555/1566) at 2 years, 98.6% (1106/1122) at 3 years, 99.4% (1168/1175) at 4 years, 99.2% (737/743) at 5 years, 100% (142/142) at 6 years, 97.4% (38/39) at 7 years, 100% (34/34) at 8 years, and 100% (16/16) at 10 years postvaccination.
Two-Dose Regimen in Children
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In recipients of 1 dose of Varivax administered subcutaneously over 9 years of follow-up, the GMTs and the percent of subjects with VZV antibody titers 5 gpELISA units/mL generally increased.
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The GMTs and percent of subjects with VZV antibody titers 5 gpELISA units/mL in the 2-dose recipients were higher than those in the 1-dose recipients for the first year of follow-up and generally comparable thereafter.
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The cumulative rate of VZV antibody persistence with both regimens remained very high at year 9 (99.0% for the 1-dose group and 98.8% for the 2-dose group).
Two-Dose Regimen in Adolescents and Adults
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In clinical studies involving healthy adolescents and adults who received 2 doses of Varivax subcutaneously, detectable VZV antibodies were present in 97.9% (568/580) at 1 year, 97.1% (34/35) at 2 years, 100% (144/144) at 3 years, 97.0% (98/101) at 4 years, 97.4% (76/78) at 5 years, and 100% (34/34) at 6 years postvaccination.
Studies with Other Vaccines
Concomitant Administration with M-M-R II
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Seroconversion rates and antibody levels to measles, mumps, rubella, and varicella were comparable between the two groups at approximately six weeks postvaccination.
Concomitant Administration with Diphtheria and Tetanus Toxoids and Acellular Pertussis Vaccine Adsorbed (DTaP) and Oral Poliovirus Vaccine (OPV)
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At six weeks postvaccination, seroconversion rates for measles, mumps, rubella, and VZV and the percentage of vaccinees whose titers were boosted for diphtheria, tetanus, pertussis, and polio were comparable between the two groups.
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Anti-VZV levels were decreased when the investigational vaccine containing varicella was administered concomitantly with DTaP.
Concomitant Administration with PedvaxHIB
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At six weeks postvaccination, seroconversion rates for measles, mumps, rubella, and VZV, and GMTs for PedvaxHIB were comparable between the two groups. Anti-VZV levels were decreased when the investigational vaccine containing varicella was administered concomitantly with PedvaxHIB.
Concomitant Administration with M-M-R II and Comvax
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At 6 weeks postvaccination, the immune responses for the subjects who received the concomitant doses of Comvax, M-M-R II, and VARIVAX were similar to those of the subjects who received Comvax followed 6 weeks later by M-M-R II and Varivax with respect to all antigens administered.
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