Sex-specific immunization for sexually transmitted infections such as human papillomavirus: insights from mathematical models

Bogaards, Johannes A.; Kretzschmar, Mirjam; Xiridou, Maria; Meijer, Chris J. L. M.; Berkhof, Johannes; Wallinga, Jacco

Sex-specific immunization for sexually transmitted infections such as human papillomavirus: insights from mathematical models

Files

pmed.1001147.pdf (345.79 KB)

Authors

Bogaards, Johannes A.

Kretzschmar, Mirjam

Xiridou, Maria

Meijer, Chris J. L. M.

Berkhof, Johannes

Wallinga, Jacco

Issue Date

2011-12-20

Type

Article

Language

en_US

Keywords

Sex-Specific Immunization , Sexually Transmitted Infections , Human Papillomavirus , Mathematical Models

Abstract

Background: Sex-specific differences regarding the transmissibility and the course of infection are the rule rather than the exception in the epidemiology of sexually transmitted infections (STIs). Human papillomavirus (HPV) provides an example: disease outcomes differ between men and women, as does the potential for transmission to the opposite sex. HPV vaccination of preadolescent girls was recently introduced in many countries, and inclusion of boys in the vaccination programs is being discussed. Here, we address the question of whether vaccinating females only, males only, or both sexes is the most effective strategy to reduce the population prevalence of an STI like HPV. Methods and Findings: We use a range of two-sex transmission models with varying detail to identify general criteria for allocating a prophylactic vaccine between both sexes. The most effective reduction in the population prevalence of infection is always achieved by single-sex vaccination; vaccinating the sex with the highest prevaccine prevalence is the preferred strategy in most circumstances. Exceptions arise only when the higher prevaccine prevalence is due to a substantially lower rate of natural immunity, or when natural immunity is lifelong, and a prolonged duration of infectiousness coincides with increased transmissibility. Predictions from simple models were confirmed in simulations based on an elaborate HPV transmission model. Our analysis suggests that relatively inefficient genital transmission from males to females might render male vaccination more effective in reducing overall infection levels. However, most existing HPV vaccination programs have achieved sufficient coverage to continue with female-only vaccination. Conclusions: Increasing vaccine uptake among preadolescent girls is more effective in reducing HPV infection than including boys in existing vaccination programs. As a rule, directing prophylactic immunization at the sex with the highest prevaccine prevalence results in the largest reduction of the population prevalence.

Citation

Bogaards, J. A., Kretzschmar, M., Xiridou, M., Meijer, C. J., Berkhof, J., & Wallinga, J. (2011). Sex-specific immunization for sexually transmitted infections such as human papillomavirus: insights from mathematical models. PLoS medicine, 8(12), e1001147. https://doi.org/10.1371/journal.pmed.1001147

Publisher

PLoS Medicine