Fernando Alarid-Escudero, Valeria Gracia, Marina Wolf, Ran Zhao, Caleb W Easterly, Jane J Kim, Karen Canfell, Inge M C M de Kok, Ruanne V Barnabas, Shalini Kulasingam
{"title":"美国各州在宫颈癌预防和治疗结果方面的差异:一项模型研究。","authors":"Fernando Alarid-Escudero, Valeria Gracia, Marina Wolf, Ran Zhao, Caleb W Easterly, Jane J Kim, Karen Canfell, Inge M C M de Kok, Ruanne V Barnabas, Shalini Kulasingam","doi":"10.1093/jnci/djae298","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Despite HPV vaccines' availability for over a decade, coverage across the US varies. While some states have tried to increase HPV vaccination coverage, most model-based analyses focus on national impacts. We evaluated hypothetical changes in HPV vaccination coverage at the national and state levels for California, New York, and Texas using a mathematical model.</p><p><strong>Methods: </strong>We developed a new mathematical model of HPV transmission and cervical cancer, creating US and state-level models, incorporating country- and state-specific vaccination coverage and cervical cancer incidence and mortality. We quantified the national and state-level impact of increasing HPV vaccination coverage to 80% by 2025 or 2030 on cervical cancer outcomes and the time to elimination defined as < 4 per 100k women.</p><p><strong>Results: </strong>Increasing vaccination coverage to 80% in Texas over ten years could reduce cervical cancer incidence by 50.9% (95% credible interval [CrI]: 46.6-56.1%) by 2100, from 1.58 (CrI : 1.19-2.09) to 0.78 (CrI : 0.57-1.02) per 100,000 women. Similarly, New York could see a 27.3% (CrI : 23.9-31.5%) reduction, from 1.43 (CrI : 0.93-2.07) to 1.04 (Crl : 0.66-1.53) per 100,000 women, and California a 24.4% (CrI : 20.0-30.0%) reduction, from 1.01 (Crl : 0.66-1.44) to 0.76 (Crl : 0.50-1.09) per 100,000 women. Achieving 80% coverage in five years will provide slightly larger and sooner reductions. If the vaccination coverage levels in 2019 continue, cervical cancer elimination could occur nationally by 2051 (Crl : 2034-2064), but state timelines may vary by decades.</p><p><strong>Conclusion: </strong>Targeting an HPV vaccination coverage of 80% by 2030 will disproportionately benefit states with low coverage and higher cervical cancer incidence. Geographically focused analyses can better inform priorities.</p>","PeriodicalId":14809,"journal":{"name":"JNCI Journal of the National Cancer Institute","volume":" ","pages":""},"PeriodicalIF":9.9000,"publicationDate":"2024-11-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"State-level disparities in cervical cancer prevention and outcomes in the U.S.: a modeling study.\",\"authors\":\"Fernando Alarid-Escudero, Valeria Gracia, Marina Wolf, Ran Zhao, Caleb W Easterly, Jane J Kim, Karen Canfell, Inge M C M de Kok, Ruanne V Barnabas, Shalini Kulasingam\",\"doi\":\"10.1093/jnci/djae298\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Despite HPV vaccines' availability for over a decade, coverage across the US varies. While some states have tried to increase HPV vaccination coverage, most model-based analyses focus on national impacts. We evaluated hypothetical changes in HPV vaccination coverage at the national and state levels for California, New York, and Texas using a mathematical model.</p><p><strong>Methods: </strong>We developed a new mathematical model of HPV transmission and cervical cancer, creating US and state-level models, incorporating country- and state-specific vaccination coverage and cervical cancer incidence and mortality. We quantified the national and state-level impact of increasing HPV vaccination coverage to 80% by 2025 or 2030 on cervical cancer outcomes and the time to elimination defined as < 4 per 100k women.</p><p><strong>Results: </strong>Increasing vaccination coverage to 80% in Texas over ten years could reduce cervical cancer incidence by 50.9% (95% credible interval [CrI]: 46.6-56.1%) by 2100, from 1.58 (CrI : 1.19-2.09) to 0.78 (CrI : 0.57-1.02) per 100,000 women. Similarly, New York could see a 27.3% (CrI : 23.9-31.5%) reduction, from 1.43 (CrI : 0.93-2.07) to 1.04 (Crl : 0.66-1.53) per 100,000 women, and California a 24.4% (CrI : 20.0-30.0%) reduction, from 1.01 (Crl : 0.66-1.44) to 0.76 (Crl : 0.50-1.09) per 100,000 women. Achieving 80% coverage in five years will provide slightly larger and sooner reductions. If the vaccination coverage levels in 2019 continue, cervical cancer elimination could occur nationally by 2051 (Crl : 2034-2064), but state timelines may vary by decades.</p><p><strong>Conclusion: </strong>Targeting an HPV vaccination coverage of 80% by 2030 will disproportionately benefit states with low coverage and higher cervical cancer incidence. 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State-level disparities in cervical cancer prevention and outcomes in the U.S.: a modeling study.
Background: Despite HPV vaccines' availability for over a decade, coverage across the US varies. While some states have tried to increase HPV vaccination coverage, most model-based analyses focus on national impacts. We evaluated hypothetical changes in HPV vaccination coverage at the national and state levels for California, New York, and Texas using a mathematical model.
Methods: We developed a new mathematical model of HPV transmission and cervical cancer, creating US and state-level models, incorporating country- and state-specific vaccination coverage and cervical cancer incidence and mortality. We quantified the national and state-level impact of increasing HPV vaccination coverage to 80% by 2025 or 2030 on cervical cancer outcomes and the time to elimination defined as < 4 per 100k women.
Results: Increasing vaccination coverage to 80% in Texas over ten years could reduce cervical cancer incidence by 50.9% (95% credible interval [CrI]: 46.6-56.1%) by 2100, from 1.58 (CrI : 1.19-2.09) to 0.78 (CrI : 0.57-1.02) per 100,000 women. Similarly, New York could see a 27.3% (CrI : 23.9-31.5%) reduction, from 1.43 (CrI : 0.93-2.07) to 1.04 (Crl : 0.66-1.53) per 100,000 women, and California a 24.4% (CrI : 20.0-30.0%) reduction, from 1.01 (Crl : 0.66-1.44) to 0.76 (Crl : 0.50-1.09) per 100,000 women. Achieving 80% coverage in five years will provide slightly larger and sooner reductions. If the vaccination coverage levels in 2019 continue, cervical cancer elimination could occur nationally by 2051 (Crl : 2034-2064), but state timelines may vary by decades.
Conclusion: Targeting an HPV vaccination coverage of 80% by 2030 will disproportionately benefit states with low coverage and higher cervical cancer incidence. Geographically focused analyses can better inform priorities.
期刊介绍:
The Journal of the National Cancer Institute is a reputable publication that undergoes a peer-review process. It is available in both print (ISSN: 0027-8874) and online (ISSN: 1460-2105) formats, with 12 issues released annually. The journal's primary aim is to disseminate innovative and important discoveries in the field of cancer research, with specific emphasis on clinical, epidemiologic, behavioral, and health outcomes studies. Authors are encouraged to submit reviews, minireviews, and commentaries. The journal ensures that submitted manuscripts undergo a rigorous and expedited review to publish scientifically and medically significant findings in a timely manner.