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Showing content from https://pubmed.ncbi.nlm.nih.gov/31816629/ below:

Effectiveness and Cost-Effectiveness of Human Papillomavirus Vaccination Through Age 45 Years in the United States

Affiliations

• ¹ Centre de recherche du CHU de Québec-Université Laval, Québec City, Québec, Canada (J.L., M.D., D.M., É.B.).
• ² Centers for Disease Control and Prevention, Atlanta, Georgia (H.W.C., L.E.M.).
• ³ Centre de recherche du CHU de Québec-Université Laval and Département de médecine sociale et préventive, Université Laval, Québec City, Québec, Canada and Imperial College, London, United Kingdom (M.B.).

• PMID: 31816629
• PMCID: PMC7217714
• DOI: 10.7326/M19-1182

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Jean-François Laprise et al. Ann Intern Med. 2020.

• ¹ Centre de recherche du CHU de Québec-Université Laval, Québec City, Québec, Canada (J.L., M.D., D.M., É.B.).
• ² Centers for Disease Control and Prevention, Atlanta, Georgia (H.W.C., L.E.M.).
• ³ Centre de recherche du CHU de Québec-Université Laval and Département de médecine sociale et préventive, Université Laval, Québec City, Québec, Canada and Imperial College, London, United Kingdom (M.B.).

• PMID: 31816629
• PMCID: PMC7217714
• DOI: 10.7326/M19-1182

Item in Clipboard

Background: In the United States, the routine age for human papillomavirus (HPV) vaccination is 11 to 12 years, with catch-up vaccination through age 26 years for women and 21 years for men. U.S. vaccination policy on use of the 9-valent HPV vaccine in adult women and men is being reviewed.

Objective: To evaluate the added population-level effectiveness and cost-effectiveness of extending the current U.S. HPV vaccination program to women aged 27 to 45 years and men aged 22 to 45 years.

Design: The analysis used HPV-ADVISE (Agent-based Dynamic model for VaccInation and Screening Evaluation), an individual-based transmission dynamic model of HPV infection and associated diseases, calibrated to age-specific U.S. data.

Data sources: Published data.

Target population: Women aged 27 to 45 years and men aged 22 to 45 years in the United States.

Time horizon: 100 years.

Perspective: Health care sector.

Intervention: 9-valent HPV vaccination.

Outcome measures: HPV-associated outcomes prevented and cost-effectiveness ratios.

Results of base-case analysis: The model predicts that the current U.S. HPV vaccination program will reduce the number of diagnoses of anogenital warts and cervical intraepithelial neoplasia of grade 2 or 3 and cases of cervical cancer and noncervical HPV-associated cancer by 82%, 80%, 59%, and 39%, respectively, over 100 years and is cost saving (vs. no vaccination). In contrast, extending vaccination to women and men aged 45 years is predicted to reduce these outcomes by an additional 0.4, 0.4, 0.2, and 0.2 percentage points, respectively. Vaccinating women and men up to age 30, 40, and 45 years is predicted to cost $830 000, $1 843 000, and $1 471 000, respectively, per quality-adjusted life-year gained (vs. current vaccination).

Results of sensitivity analysis: Results were most sensitive to assumptions about natural immunity and progression rates after infection, historical vaccination coverage, and vaccine efficacy.

Limitation: Uncertainty about the proportion of HPV-associated disease due to infections after age 26 years and about the level of herd effects from the current HPV vaccination program.

Conclusion: The current HPV vaccination program is predicted to be cost saving. Extending vaccination to older ages is predicted to produce small additional health benefits and result in substantially higher incremental cost-effectiveness ratios than the current recommendation.

Primary funding source: Centers for Disease Control and Prevention.

PubMed Disclaimer

Disclosures: Authors have disclosed no conflicts of interest. Forms can be viewed at www.acponline.org/authors/icmje/ConflictOfInterestForms.do?msNum=M19-1182 .

Percent age of change in…

Percent age of change in incidence under the current U.S. HPV vaccine recommendation…

Percent age of change in incidence under the current U.S. HPV vaccine recommendation and extended vaccination of women and men up to age 45 years for different outcomes. Base-case assumptions. The term cases prevented refers to the number of cases prevented in the United States over 100 years. Model predictions are represented as the median of the 50 best-fitting parameter sets. CIN2/3 = cervical intraepithelial neoplasia grade 2 or 3; HPV = human papillomavirus. A. Anogenital wart diagnoses (vertical lines between the curves represent the incremental benefit between the 2 strategies). B. Diagnosed CIN2/3. C. Cervical cancer. D. Noncervical HPV-associated cancer.

Percent age of change in…

Percent age of change in incidence under the current U.S. HPV vaccine recommendation…

Percent age of change in incidence under the current U.S. HPV vaccine recommendation and extended vaccination of women and men up to age 45 years for different outcomes. Base-case assumptions. The term cases prevented refers to the number of cases prevented in the United States over 100 years. Model predictions are represented as the median of the 50 best-fitting parameter sets. CIN2/3 = cervical intraepithelial neoplasia grade 2 or 3; HPV = human papillomavirus. A. Anogenital wart diagnoses (vertical lines between the curves represent the incremental benefit between the 2 strategies). B. Diagnosed CIN2/3. C. Cervical cancer. D. Noncervical HPV-associated cancer.

Cost-effectiveness acceptability curves: percentage of…

Cost-effectiveness acceptability curves: percentage of the parameter sets in which the estimated incremental…

Cost-effectiveness acceptability curves: percentage of the parameter sets in which the estimated incremental cost per QALY gained by mid-adult vaccination (vs. current vaccination) is equal to or less than a given cost per QALY–gained threshold. We separated the 50 parameter sets into those with lower probability of natural immunity after clearance in women (≤40% vs. >40%) and faster progression to CIN1/2/3 (e.g., average median time from infection to CIN1, 10 vs. 15 months; average median time from infection to CIN3, 32 vs. 36 months) (22 of 50 parameter sets) and those with higher natural immunity and slower progression (28 of 50 parameter sets). CIN1/2/3 = cervical intraepithelial neoplasia of grade 1, 2, or 3; QALY = quality-adjusted life-year. Top. Base-case analysis for all age scenarios of vaccination in mid-adult women and men. Bottom. Sensitivity analysis of natural history parameters for vaccination through age 30 years.

• Cost-Effectiveness of Extending Human Papillomavirus Vaccination to Population Subgroups Older Than 26 Years Who Are at Higher Risk for Human Papillomavirus Infection in the United States.

  Laprise JF, Chesson HW, Markowitz LE, Drolet M, Brisson M. Laprise JF, et al. Ann Intern Med. 2025 Jan;178(1):50-58. doi: 10.7326/M24-0421. Epub 2024 Nov 26. Ann Intern Med. 2025. PMID: 39586101

• Prophylaxis of cervical cancer and related cervical disease: a review of the cost-effectiveness of vaccination against oncogenic HPV types.

  Armstrong EP. Armstrong EP. J Manag Care Pharm. 2010 Apr;16(3):217-30. doi: 10.18553/jmcp.2010.16.3.217. J Manag Care Pharm. 2010. PMID: 20331326 Free PMC article. Review.

• Health and Economic Impact of Switching from a 4-Valent to a 9-Valent HPV Vaccination Program in the United States.

  Brisson M, Laprise JF, Chesson HW, Drolet M, Malagón T, Boily MC, Markowitz LE. Brisson M, et al. J Natl Cancer Inst. 2015 Oct 4;108(1):djv282. doi: 10.1093/jnci/djv282. Print 2016 Jan. J Natl Cancer Inst. 2015. PMID: 26438574 Free PMC article.

• Human papillomavirus vaccination for adults aged 30 to 45 years in the United States: A cost-effectiveness analysis.

  Kim JJ, Simms KT, Killen J, Smith MA, Burger EA, Sy S, Regan C, Canfell K. Kim JJ, et al. PLoS Med. 2021 Mar 11;18(3):e1003534. doi: 10.1371/journal.pmed.1003534. eCollection 2021 Mar. PLoS Med. 2021. PMID: 33705382 Free PMC article.

• Should human papillomavirus vaccination target women over age 26, heterosexual men and men who have sex with men? A targeted literature review of cost-effectiveness.

  Soe NN, Ong JJ, Ma X, Fairley CK, Latt PM, Jing J, Cheng F, Zhang L. Soe NN, et al. Hum Vaccin Immunother. 2018;14(12):3010-3018. doi: 10.1080/21645515.2018.1496878. Epub 2018 Sep 11. Hum Vaccin Immunother. 2018. PMID: 30024823 Free PMC article. Review.

• Recommendations for Adult Immunization by the Korean Society of Infectious Diseases, 2023: Minor Revisions to the 3rd Edition.

  Choi WS, Song JY, Kwon KT, Lee HJ, Choo EJ, Baek J, Chin B, Kim WJ, Lee MS, Park WB, Han SH, Choi JY, Yeom JS, Lee JS, Choi HJ, Choi YH, Lee DG, Choi JH, Cheong HJ; Committee of Adult Immunization; Korean Society of Infectious Diseases. Choi WS, et al. Infect Chemother. 2024 Jun;56(2):188-203. doi: 10.3947/ic.2023.0072. Infect Chemother. 2024. PMID: 38960738 Free PMC article. Review.

• Sex and educational attainment differences in HPV knowledge and vaccination awareness among unvaccinated-sexually active adults in Puerto Rico.

  Castañeda-Avila MA, Oramas Sepúlveda CJ, Pérez CM, Ramos-Cartagena JM, Acosta Pagán K, Pérez-Santiago J, Godoy-Vitorino F, Ortiz AP. Castañeda-Avila MA, et al. Hum Vaccin Immunother. 2022 Nov 30;18(5):2077065. doi: 10.1080/21645515.2022.2077065. Epub 2022 Jun 13. Hum Vaccin Immunother. 2022. PMID: 35695750 Free PMC article.

• Human Papilloma Virus Vaccines and Vaccination.

  Kara SS. Kara SS. Turk Arch Pediatr. 2024 May 2;59(3):234-237. doi: 10.5152/TurkArchPediatr.2024.03024. Turk Arch Pediatr. 2024. PMID: 39140149 Free PMC article. No abstract available.

• Updated estimate of the annual direct medical cost of screening and treatment for human papillomavirus associated disease in the United States.

  Clay PA, Thompson TD, Markowitz LE, Ekwueme DU, Saraiya M, Chesson HW. Clay PA, et al. Vaccine. 2023 Mar 31;41(14):2376-2381. doi: 10.1016/j.vaccine.2023.02.049. Epub 2023 Mar 11. Vaccine. 2023. PMID: 36907737 Free PMC article.

• Data-Related Challenges in Cost-Effectiveness Analyses of Vaccines.

  Pike J, Leidner AJ, Chesson H, Stoecker C, Grosse SD. Pike J, et al. Appl Health Econ Health Policy. 2022 Jul;20(4):457-465. doi: 10.1007/s40258-022-00718-z. Epub 2022 Feb 9. Appl Health Econ Health Policy. 2022. PMID: 35138601 Free PMC article.

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