ABSTRACT We report final event-driven analysis data on the immunogenicity and efficacy of the human papillomavirus 16 and 18 ((HPV-16/18) AS04-adjuvanted vaccine in young women aged 15 to 25 years from the PApilloma TRIal against Cancer In young Adults (PATRICIA). The total vaccinated cohort (TVC) included all randomized participants who received at least one vaccine dose (vaccine, n = 9,319; control, n = 9,325) at months 0, 1, and/or 6. The TVC-naive (vaccine, n = 5,822; control, n = 5,819) had no evidence of high-risk HPV infection at baseline, approximating adolescent girls targeted by most HPV vaccination programs. Mean follow-up was approximately 39 months after the first vaccine dose in each cohort. At baseline, 26% of women in the TVC had evidence of past and/or current HPV-16/18 infection. HPV-16 and HPV-18 antibody titers postvaccination tended to be higher among 15- to 17-year-olds than among 18- to 25-year-olds. In the TVC, vaccine efficacy (VE) against cervical intraepithelial neoplasia grade 1 or greater (CIN1+), CIN2+, and CIN3+ associated with HPV-16/18 was 55.5% (96.1% confidence interval [CI], 43.2, 65.3), 52.8% (37.5, 64.7), and 33.6% (−1.1, 56.9). VE against CIN1+, CIN2+, and CIN3+ irrespective of HPV DNA was 21.7% (10.7, 31.4), 30.4% (16.4, 42.1), and 33.4% (9.1, 51.5) and was consistently significant only in 15- to 17-year-old women (27.4% [10.8, 40.9], 41.8% [22.3, 56.7], and 55.8% [19.2, 76.9]). In the TVC-naive, VE against CIN1+, CIN2+, and CIN3+ associated with HPV-16/18 was 96.5% (89.0, 99.4), 98.4% (90.4, 100), and 100% (64.7, 100), and irrespective of HPV DNA it was 50.1% (35.9, 61.4), 70.2% (54.7, 80.9), and 87.0% (54.9, 97.7). VE against 12-month persistent infection with HPV-16/18 was 89.9% (84.0, 94.0), and that against HPV-31/33/45/51 was 49.0% (34.7, 60.3). In conclusion, vaccinating adolescents before sexual debut has a substantial impact on the overall incidence of high-grade cervical abnormalities, and catch-up vaccination up to 18 years of age is most likely effective. (This study has been registered at ClinicalTrials.gov under registration no. NCT001226810.)
ABSTRACT Genital human papillomaviruses (HPVs) are commonly detected from clinical samples by consensus PCR methods. Two commonly used primer systems, the MY09-MY11 (MY09/11) primers and the GP5+-GP6+ (GP5+/6+) primers, amplify a broad spectrum of HPV genotypes, but with various levels of sensitivity among the HPV types. Analysis of the primer-target sequence homology for the MY09/11 primers showed an association between inefficient amplification of HPV types and the number and position of mismatches, despite accommodation of sequence variation by inclusion of degenerate base sites. The MY09/11 primers were redesigned to increase the sensitivity of amplification across the type spectrum by using the same primer binding regions in the L1 open reading frame. Sequence heterogeneity was accommodated by designing multiple primer sequences that were combined into an upstream pool of 5 oligonucleotides (PGMY11) and a downstream pool of 13 oligonucleotides (PGMY09), thereby avoiding use of degenerate bases that yield irreproducible primer syntheses. The performance of the PGMY09-PGMY11 (PGMY09/11) primer system relative to that of the standard MY09/11 system was evaluated with a set of 262 cervicovaginal lavage specimens. There was a 91.5% overall agreement between the two systems (kappa = 0.83; P < 0.001). The PGMY09/11 system appeared to be significantly more sensitive than the MY09/11 system, detecting an additional 20 HPV-positive specimens, for a prevalence of 62.8% versus a prevalence of 55.1% with the MY09/11 system (McNemar's χ 2 = 17.2; P < 0.001). The proportion of multiple infections detected increased with the PGMY09/11 system (40.0 versus 33.8% of positive infections). HPV types 26, 35, 42, 45, 52, 54, 55, 59, 66, 73, and MM7 were detected at least 25% more often with the PGMY09/11 system. The PGMY09/11 primer system affords an increase in type-specific amplification sensitivity over that of the standard MY09/11 primer system. This new primer system will be useful in assessing the natural history of HPV infections, particularly when the analysis requires HPV typing.
Abstract Background Infections with human papillomavirus (HPV) types 16 and 18 account for ~70% of invasive cervical cancers but the degree of protection from naturally acquired anti‐HPV antibodies is uncertain. We examined the risk of HPV infections as defined by HPV DNA detection and cervical abnormalities among women >25 years in the Human Papilloma VIrus Vaccine Immunogenicity ANd Efficacy trial's (VIVIANE, NCT00294047) control arm. Methods Serum anti‐HPV‐16/18 antibodies were determined at baseline and every 12 months in baseline DNA‐negative women (N = 2687 for HPV‐16 and 2705 for HPV‐18) by enzyme‐linked immunosorbent assay (ELISA) from blood samples. HPV infections were identified by polymerase chain reaction (PCR) every 6‐months, and cervical abnormalities were confirmed by cytology every 12 months. Data were collected over a 7‐year period. The association between the risk of type‐specific infection and cervical abnormalities and serostatus was assessed using Cox proportional hazard models. Results Risk of newly detected HPV‐16‐associated 6‐month persistent infections (PI) (hazard ratio [HR] = 0.56 [95%CI:0.32; 0.99]) and atypical squamous cells of undetermined significance (ASC‐US+) (HR = 0.28 [0.12; 0.67]) were significantly lower in baseline seropositive vs baseline seronegative women. HPV‐16‐associated incident infections (HR = 0.81 [0.56; 1.16]) and 12‐month PI (HR = 0.53 [0.24; 1.16]) showed the same trend. A similar trend of lower risk was observed in HPV‐18‐seropositive vs ‐seronegative women (HR = 0.95 [0.59; 1.51] for IIs, HR = 0.43 [0.16; 1.13] for 6‐month PIs, HR = 0.31 [0.07; 1.36] for 12‐month PIs, and HR = 0.61 [0.23; 1.61] for ASC‐US+). Conclusions Naturally acquired anti‐HPV‐16 antibodies were associated with a decreased risk of subsequent infection and cervical abnormalities in women >25 years. This possible protection was lower than that previously reported in 15‐ to 25‐year‐old women.
Milligram amounts of highly purified hepatitis A virus (HAV) were obtained from persistently infected cell cultures. The HAV polypeptides were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and transferred to nitrocellulose for detection by an enzyme-linked immunotransfer blot procedure. The HAV nucleotide-derived amino acid sequence was subjected to computer analysis to identify potential immunogenic regions within the HAV capsid polypeptides. Synthetic peptides corresponding to selected regions of each of the larger putative capsid polypeptides were coupled to keyhole limpet hemocyanin and used to immunize rabbits. Four of six anti-HAV peptide sera were strongly reactive. Antipeptide serum generated against amino acids (a.a.) 75 through 82 reacted with the 27,000-molecular-weight (MW) polypeptide; serum against a.a. 279 through 285 reacted with the 29,000-MW HAV polypeptide; and sera against a.a. 591 through 602 and 606 through 618 reacted with the 33,000-MW HAV polypeptide. These reactions enabled the identification of the gene order of the larger HAV P1 region gene products. Our data indicate the following molecular weights: HAV VP2 or 1B, 27,000; HAV VP3 or 1C, 29,000; and HAV VP1 or 1D, 33,000.
Hybrid Capture 2 (hc2), a clinical test for carcinogenic human papillomavirus (HPV) DNA, has proven to be a sensitive but only modestly specific predictor of cervical precancer and cancer risk. Some of its nonspecificity for clinical end points can be ascribed to cross-reactivity with noncarcinogenic HPV genotypes. However, the reference genotyping tests that have been used for these comparisons are also imperfect. We therefore sought to describe further the HPV genotype specificity of hc2 by comparing the hc2 results to paired results from two related PGMY09/11 L1 primer-based HPV genotyping assays: Linear Array (LA) and its prototype predecessor, the line blot assay (LBA). LA and LBA results were considered separately and combined (detection by either assay or both assays) for 37 individual HPV genotypes and HPV risk group categories (carcinogenic HPV > noncarcinogenic HPV > negative). Baseline specimens from 3,179 of 3,488 (91.5%) women referred to ALTS (a clinical trial to evaluate the management strategies for women with atypical squamous cells of undetermined significance [ASCUS] or low-grade squamous intraepithelial lesions) because of an ASCUS Papanicolaou smear were tested by all three assays. Among single-genotype infections with genotypes targeted by hc2 as detected by either PCR assay, HPV genotype 35 (HPV35) (86.4%), HPV56 (84.2%), and HPV58 (76.9%) were the most likely to test positive by hc2. Among single-genotype infections with genotypes not targeted by hc2 as detected by either assay, HPV82 (80.0%), HPV66 (60.0%) (recently classified as carcinogenic), HPV70 (59.1%), and HPV67 (56.3%) were the most likely to test positive by hc2. Among women who tested negative for carcinogenic HPV by both PCR tests and were positive for noncarcinogenic HPV by either test, 28% of women were hc2 positive. Conversely, 7.8% of all hc2-positive results in this population were due to cross-reactivity of hc2 with untargeted, noncarcinogenic HPV genotypes. In conclusion, hc2 cross-reacts with certain untargeted, noncarcinogenic HPV genotypes that are phylogenetically related to the targeted genotypes, but the degree of cross-reactivity may be less than previously reported.
This study investigated the association of selected demographic and behavioral characteristics with the detection of low-risk, high-risk, and uncharacterized genital human papillomavirus (HPV) in women attending clinic for routine nonreferral gynecologic health care. Cervical specimens obtained from 3863 women 18–40 years old (mean, 28 years) with no history of high-grade cervical disease were analyzed for 38 HPV types. Overall, HPV prevalence was 39.2%. The prevalence of high-risk, low-risk, and uncharacterized HPV types was 26.7%, 14.7%, and 13.0%, respectively. As expected, the characteristics most strongly associated with overall HPV detection were age and numbers of lifetime and recent sex partners. Low-risk, high-risk, and uncharacterized HPV detection increased with increasing numbers of sex partners. There was a decline in high-risk and low-risk HPV detection with increasing age but little change in uncharacterized HPV detection. These results suggest that the uncharacterized HPV types have a different natural history than either low-risk or high-risk HPV types
