Sun Kuie Tay1, Tun-Ying Hsu2, Andrei Shcheprov3, Anuj Walia4, Amit S Kulkarni3. 1. Department of Obstetrics and Gynaecology, Singapore General Hospital, Singapore. 2. Medical Affairs, MSD Pharma (Singapore), Singapore. 3. Center for Observational and Real World Evidence, Merck, Kenilworth, NJ, USA. 4. Department of Medical Affairs, MSD International (Singapore), Singapore.
Abstract
OBJECTIVE: To investigate the clinical and economic impacts of school-based administration of the quadrivalent HPV vaccine. METHODS: A retrospective health-economic analysis was conducted using data collected in Singapore between 2004 and 2005. A dynamic transmission model was adapted for universal vaccination that provided 80% coverage among students aged 11-12 years. Strategy 1 involved only girls, with a 5-year catch-up vaccination to provide 50% coverage among those aged 13-17 years. Strategy 2 included both girls and boys with no catch-up vaccination. Outcomes included the predicted incidence of HPV-related disease over 100 years. RESULTS: Current coverage was assumed to be 5%. Strategy 1 would reduce cervical intraepithelial neoplasia grade 1 (CIN1) by 63.8%, cervical intraepithelial neoplasia grade 2-3 (CIN2-3) by 62.9%, cervical cancer by 50.9%, and genital warts by 78.0% (female individuals) and 73.6% (male individuals). Strategy 2 would reduce CIN1 by 64.0%, CIN2-3 by 63.1%, cervical cancer by 50.7%, and genital warts by 79.9% (female individuals) and 80.1% (male individuals). The incremental cost-effectiveness ratio was S$12 464 for strategy 1 and $27 837 for Strategy 2. These values decreased to $7477 and $22 574, respectively, if a two-dose regimen was adapted. CONCLUSION: School-based quadrivalent HPV vaccination offered clinical and economic benefits, and is cost-effective in Singapore.
OBJECTIVE: To investigate the clinical and economic impacts of school-based administration of the quadrivalent HPV vaccine. METHODS: A retrospective health-economic analysis was conducted using data collected in Singapore between 2004 and 2005. A dynamic transmission model was adapted for universal vaccination that provided 80% coverage among students aged 11-12 years. Strategy 1 involved only girls, with a 5-year catch-up vaccination to provide 50% coverage among those aged 13-17 years. Strategy 2 included both girls and boys with no catch-up vaccination. Outcomes included the predicted incidence of HPV-related disease over 100 years. RESULTS: Current coverage was assumed to be 5%. Strategy 1 would reduce cervical intraepithelial neoplasia grade 1 (CIN1) by 63.8%, cervical intraepithelial neoplasia grade 2-3 (CIN2-3) by 62.9%, cervical cancer by 50.9%, and genital warts by 78.0% (female individuals) and 73.6% (male individuals). Strategy 2 would reduce CIN1 by 64.0%, CIN2-3 by 63.1%, cervical cancer by 50.7%, and genital warts by 79.9% (female individuals) and 80.1% (male individuals). The incremental cost-effectiveness ratio was S$12 464 for strategy 1 and $27 837 for Strategy 2. These values decreased to $7477 and $22 574, respectively, if a two-dose regimen was adapted. CONCLUSION: School-based quadrivalent HPV vaccination offered clinical and economic benefits, and is cost-effective in Singapore.