1. IntroductionSince 2006, the Advisory Committee on Immunization Practices (ACIP) has recommended routine vaccination of females in the USA aged 11 or 12 years, and for those aged 13–26 years not previously vaccinated, with three doses of quadrivalent human papillomavirus (HPV) vaccine;1 this recommendation was updated in 2009 to include either quadrivalent or bivalent vaccine.2 Since 2011, ACIP has recommended routine vaccination of males with quadrivalent vaccine.3 Both vaccines have demonstrated >93% efficacy in preventing cervical precancers associated with HPV 16 and 18,4,5 which cause 70% of cervical cancers.6 The quadrivalent vaccine also prevents HPV 6 and 11, which cause 90% of genital warts.7 In the USA, almost all HPV vaccine used is the quadrivalent vaccine.8 HPV vaccine uptake remains low compared to other adolescent vaccines;9 in 2013, only 37.6% of females aged 13–17 years had received all three doses of the HPV vaccine.10
Accurate estimates of HPV vaccination coverage are needed to monitor vaccination programs, identify under-vaccinated populations, and inform efforts to improve coverage. Adolescent vaccination coverage in the USA is measured by annual national surveys involving verification with provider vaccination records.9 Data from provider-verified vaccination are considered the most accurate sources of information, but collection may not be feasible in many settings.11 Other sources of information include self-report of vaccination and state-based vaccine registries. Self-report of vaccination relies on memory and/or household-retained vaccination cards and may be subject to recall bias.12,13 Vaccine registries are often incomplete or non-existent for adolescent immunizations.14 An alternative method for estimating vaccine coverage may be serological assessment of antibodies to HPV vaccine types.
The serological response to HPV infection differs from the serological response to vaccination. Natural infection does not always result in seroconversion.15 In one study, only 69% of females seroconverted after infection with HPV6, and seroconversion rates were lower for HPV 16 and 18.16 Prior to implementation of the HPV vaccination program, seropositivity to at least three of the four HPV vaccine types was only 2.8% among females aged 14–59 years in the USA.17 In contrast, quadrivalent HPV vaccination has been shown to induce seroconversion to all four vaccine types (HPV 6/11/16/18) with geometric mean antibody titers much higher than natural infection.18 However, up to 40% of participants in clinical trials had undetectable antibody to HPV18 at 4 years after vaccination by one serological assay,19,20 although there was continued efficacy against disease outcomes. Given this serological response to HPV vaccination, we focused our assessment on what is likely to be a sensitive and specific serological marker of vaccination, seropositivity to HPV 6, 11, and 16 (with or without seropositivity to HPV 18), referred to as HPV 6/11/16. This marker would detect vaccinated persons who may have lost detectable antibody to HPV18.
To evaluate the use of serology as a marker for vaccination coverage, we describe HPV vaccine type seropositivity in the pre-vaccine and vaccine eras and compare seropositivity to HPV 6/11/16 with report of HPV vaccination in females using data from the National Health and Nutrition Examination Survey (NHANES). We restricted our assessment to females because few males were vaccinated during the NHANES cycles we analyzed.
2. Methods2.1. Survey design and study populationNHANES is an ongoing series of cross-sectional surveys conducted by the National Center for Health Statistics (NCHS) of the Centers for Disease Control and Prevention (CDC). The survey is nationally representative of the civilian, non-institutionalized US population. NHANES oversamples certain subpopulations to increase the precision of estimates.21 Participants have a household interview followed by a physical examination in a mobile examination center (MEC). Written informed consent was obtained from all participants and parental permission for participants aged <18 years. This survey was approved by the NCHS/CDC Research Ethics Review Board.
We analyzed NHANES 2003–2010 data and considered years 2003–2006 the pre-vaccine era and years 2007–2010 the vaccine era. All female subjects aged 14–59 years selected for NHANES 2003–2010 were eligible for serological testing. In the pre-vaccine era, 5178 females aged 14–59 years were interviewed; 4990 (96.4%) received a physical examination and 4531 (87.5%) serum samples were collected and analyzed. In the vaccine era, 4988 females aged 14–59 years were interviewed; 4860 (97.8%) received a physical examination and 4457 (89.7%) serum samples were collected and analyzed.
2.2. Sociodemographic, behavioral, and HPV vaccination informationSociodemographic information was ascertained during the household interview. Race/ethnicity categories in NHANES 2003–2010 were self-reported and included non-Hispanic Black, non-Hispanic White, and Mexican American. Health insurance categories included public/government, private, or no insurance. Report of HPV vaccination was collected from 2007 to 2010. Participants aged ≥ 16 years and emancipated minors were interviewed directly; for those aged <16 years, parents or guardians were interviewed. The question to assess vaccination was “Human papillomavirus (HPV) vaccine is given to prevent cervical cancer in girls and women. It is given in 3 separate doses over 6 months and has been recommended for girls and women since June 2006. {Have you/has participant} ever received one or more doses of the HPV vaccine?” Answers included “Yes”, “No”, and “Don’t know”. Participants who responded “Yes” were asked “How many doses {have you/has participant} received?” Answers included “1 dose”, “2 doses”, “3 doses”, or “Don’t know”.
2.3. Serological testingSerum samples from NHANES participants were heat-inactivated and blindly tested in duplicate using a multiplexed, competitive Luminex immunoassay (cLIA) performed by Merck Research Laboratories (Wayne, PA, USA) or Pharmaceutical Product Development Inc. (Wayne, PA, USA). This assay was used in the quadrivalent vaccine trials and measures antibodies to a type-specific neutralizing epitope on virus-like particle 6/11/16/18, as described elsewhere.22 Antibody levels for each HPV type were reported as positive or negative on the basis of serostatus cutoff values expressed as arbitrary units, established by Merck (i.e., milli-Merck units per milliliter).22 Seropositivity for individual HPV types was defined as anti-HPV antibody titers ≥20 mMU/ml for HPV6, ≥16 mMU/ml for HPV11, ≥20 mMU/ml for HPV16, and ≥24 mMU/ml for HPV18.22
2.4. Statistical analysisStatistical analyses were conducted using SAS 9.3 (SAS, Inc., Cary, NC, USA) and SAS-callable SUDAAN 11.0 (Research Triangle Institute, Research Triangle Park, NC, USA) to calculate standard errors that account for the complex survey design. Estimates were weighted using the MEC weights provided by NCHS for survey years 2003–2010 to be nationally representative and to account for non-response to the interview and medical examination and oversampling of certain populations.21
We report seropositivity to HPV vaccine types in the pre-vaccine era (2003–2006) and vaccine era (2007–2010) in females aged 14–59 years by age group. In the vaccine era, we determined receipt of at least one HPV vaccine dose (i.e., vaccine initiation) in females aged 14–59 years and examined factors associated with seropositivity to HPV vaccine types in females aged 14–26 years, the age group in NHANES eligible for HPV vaccination. We measured the agreement between report of vaccination and seropositivity to HPV 6/11/16 using the kappa statistic.23 We evaluated seropositivity in the vaccine era by selected demographic characteristics and examined bivariate statistical associations using the adjusted Wald F-test. Estimates were considered unreliable if the relative standard error (RSE) was >30%. Two-sided p-values <0.05 were considered significant.
3. Results3.1. Seropositivity in the pre-vaccine era (2003–2006) and vaccine era (2007–2010) and report of HPV vaccination in the vaccine era (2007–2010) in females aged 14–59 yearsSeropositivity to HPV 6/11/16 in the pre-vaccine and vaccine eras by age group is shown in Figure 1. Seropositivity to HPV 6/11/16 increased significantly from the pre-vaccine to vaccine eras in the younger age groups, from 0.6% (95% confidence interval (CI) 0.2–1.3) to 32.5% (95% CI 27.5–38.0) in females aged 14–19 years, from 1.0% (95% CI 0.5–2.1) to 16.2% (95% CI 11.8–21.7) in females aged 20–24 years, and from 2.3% (95% CI 1.2–4.4) to 6.9% (95% CI 4.7–9.9) in females aged 25–29 years. In the older age groups (>30 years of age), there were no statistically significant differences between the two eras.
A total of 4782 females aged 14–59 years responded to the HPV vaccination question. Vaccine initiation varied significantly by age group (p < 0.001) and was reported by 32.9% (95% CI 27.9–38.2%) of females aged 14–19 years, 17.7% (95% CI 12.5–24.4%) of females aged 20–24 years, and 7.6% (95% CI 5.4–10.7%) of females aged 25–29 years (Figure 1). In the older age groups, report of vaccine initiation ranged from 0.8% to 3.1%.
3.2. HPV seropositivity in the vaccine era (2007–2010) in females aged 14–26 yearsA total of 1420 females aged 14–26 years had valid serology results (Table 1). Overall, 44.1% were seropositive for any HPV vaccine type and 17.1% were seropositive for all four HPV vaccine types. Seropositivity to individual HPV types 6, 11, 16, and 18 were 34.9%, 25.6%, 32.9%, and 21.1%, respectively. Seropositivity to HPV 6/11/16 was 22.1%. Seropositivity to any HPV vaccine type was higher in females aged 20–26 years compared to females aged 14–19 years (47.4% vs. 40.1%; p < 0.05). In contrast, seropositivity to all four HPV vaccine types was higher in the younger age group compared to the older age group (25.9% vs. 9.7%; p < 0.01), as was seropositivity to HPV 6/11/16 (32.5% vs. 13.5%; p < 0.01).
When examined by race/ethnicity, seropositivity to any HPV vaccine type was highest in non-Hispanic Blacks (56.0%), followed by non-Hispanic Whites (45.3%) and Mexican Americans (33.7%) (p < 0.01), whereas seropositivity to all four HPV vaccine types was highest in non-Hispanic Whites (19.8%), followed by non-Hispanic Blacks (12.4%) and Mexican Americans (10.9%) (p < 0.05). There was no statistically significant difference by race/ethnicity for seropositivity to HPV 6/11/16.
Of 1391 females with valid serology results and vaccination data, 23.1% reported vaccine initiation. Of 1382 females who reported the number of doses received, 6.3% reported receipt of only one dose, 5.4% only two doses, 14.6% all three vaccine doses; the remaining 73.7% reported no HPV vaccination. In those who reported vaccine initiation, 92.3% were seropositive for any HPV vaccine type; 84.9%, 88.3%, 89.9%, and 65.8% were seropositive for HPV 6, 11, 16, and 18, respectively. In those reporting no HPV vaccination, seropositivity to any HPV vaccine type was 30.0% and seropositivity to individual HPV types ranged from 6.9% to 20.2%. Seropositivity to HPV 6/11/16 types was 82.5% for those reporting vaccine initiation and 4.2% for those reporting no vaccination. Seropositivity to all four HPV vaccine types was 64.0% for those reporting vaccine initiation and 3.1% for those reporting no vaccination.
3.3. Seropositivity to HPV 6/11/16 and report of HPV vaccination in the vaccine era (2007–2010) in females aged 14–26 yearsThere were 309 females seropositive for HPV 6/11/16; of these, 85.5% reported HPV vaccine initiation. Of the 1082 females who were not seropositive for HPV 6/11/16, 94.8% reported no HPV vaccination and 5.2% reported HPV vaccine initiation. The overall kappa for seropositivity to HPV 6/11/16 and HPV vaccine initiation was 0.79 (95% CI 0.74–0.84). The kappa for seropositivity to HPV 6/11/16 and vaccination increased with increasing number of doses; from 0.49 (95% CI 0.34–0.63) for report of one dose to 0.62 (95% CI 0.59–0.74) for report of two doses and 0.84 (95% CI 0.78–0.89) for report of three doses.
We further examined those with discrepant findings between seropositivity and report of vaccination. Among females seropositive for HPV 6/11/16, 14.5% reported no HPV vaccination (Table 2); there were no significant differences in the percentage of females reporting no vaccination by age, race/ethnicity, or health insurance.
4. DiscussionIn this nationally representative survey, we found seropositivity to HPV 6/11/16 was significantly higher in the vaccine era (2007–2010) compared to the pre-vaccine era (2003–2006) in adolescent and young adult females. We also found high agreement between seropositivity to HPV 6/11/16 and report of HPV vaccination. Our study suggests seropositivity to HPV 6/11/16 (with or without seropositivity to HPV 18) may be a useful marker for quadrivalent HPV vaccination coverage.
HPV vaccination results in high seroconversion for all vaccine types with higher antibody titers than natural infection.18 This differs from some other vaccines, which produce antibody titers lower than natural infection.24–26 Efficacy has been very high in all vaccine trials to date and a serological correlate of immunity has not been established.27 Previous studies of HPV-vaccinated individuals suggest seropositivity to HPV18, when measured by the cLIA, may decline over time,19,20 although antibodies were detected by other assays.28 Consistent with those studies, we found seropositivity to HPV18 in females reporting vaccination to be lower than other vaccine types using the cLIA (65.8% vs. 84.9– 89.9%).
The high agreement between seropositivity to HPV 6/11/16 and report of vaccination in females aged 14–26 years increased with increasing vaccine dose, which may indicate incomplete serological detection of HPV vaccination or more accurate reporting of vaccination with receipt of an increasing number of vaccine doses. Parent-reported vaccination has been shown to have high agreement with provider-verified vaccination records for receipt of at least one HPV vaccine dose (kappa = 0.76) and all three doses (kappa = 0.74) in females aged 13–17 years,29 but this might vary over time and in different demographic groups. Although we were unable to validate report of HPV vaccination with provider verification, our results are similar to vaccination coverage estimates from national immunization surveys.30
Although we found high agreement between seropositivity to HPV 6/11/16 and report of vaccination, some females aged 14–26 years were seropositive for HPV 6/11/16 and reported no vaccination. It is unclear if this is due to under-reporting of vaccination, naturally acquired HPV 6/11/16 infection,17 or both. In one study comparing parent-report of HPV vaccination with provider record verification for females aged 13–17 years, certain demographic groups had a higher probability of false-negative parental report.31 Also, age may confound analyses, as older age is associated with a higher likelihood of exposure to HPV. Future assessments should compare seropositivity to HPV 6/11/16 with provider report of vaccination to evaluate discrepant findings.
This study is subject to several limitations. First, misclassification of HPV vaccination could have occurred with report of vaccination and seropositivity to at least three HPV vaccine types; either measure could have over- or under-estimated actual HPV vaccination. However, for report of vaccination, the short duration between licensure of the HPV vaccine and the NHANES cycles we analyzed would minimize recall bias. Second, the small sample size in some groups limited our ability to conduct stratified sub-analyses; we were unable to further examine females who were not seropositive for HPV 6/11/16 but reported HPV vaccination. Third, our findings are specific for the quadrivalent HPV vaccine, seropositivity as measured by the cLIA, and females in the USA. Future assessments should evaluate serological markers in global settings with different serological assays and for bivalent vaccine and second-generation vaccines that target additional HPV vaccine types.32
Population-based serological studies for vaccine type HPV provide a biological marker not subject to reporting bias and may be useful in settings where assessment of vaccination through provider or patient report is not feasible. However, while serological studies may provide information on vaccine uptake, such evaluations cannot determine number of doses or age at vaccination.
In conclusion, this is the first study to compare report of HPV vaccination and HPV seropositivity. Seropositivity to HPV 6/11/16 increased in adolescent and young adult females in the vaccine era. Our findings suggest seropositivity to HPV 6/11/16 (with or without seropositivity to HPV18) may be used to assess quadrivalent HPV vaccine initiation in the general population, especially in the young age groups targeted by the HPV vaccine.