BACKGROUND: There are plans to introduce the oral rotavirus vaccine Rotarix (GlaxoSmithKline), 1 of 2 recently developed vaccines against rotavirus, in Peru. METHODS: We modeled the cost-effectiveness of adding a rotavirus vaccine to the Peruvian immunization program under 3 scenarios for the timing of vaccination: (1) strictly according to schedule, at 2 and 4 months of age (on time); (2) distributed around the target ages in the same way as the actual timings in the program (flexible); and (3) flexible but assuming vaccination is not initiated for infants >12 weeks of age (restricted). We assumed an introductory price of US $7.50 per dose, and varied the annual rate of price decrease in sensitivity analyses. RESULTS: The discounted cost per disability-adjusted life-year averted for restricted, flexible, and on-time schedules was $621, $615, and $581, respectively. For each of the 3 scenarios, the percentage reduction in deaths due to rotavirus infection was 53%, 66%, and 69%, respectively. The cost per disability-adjusted life-year averted for alternative "what-if" scenarios ranged from $229 (assuming a 1-dose schedule, administered on time) to $1491 (assuming a 2-dose schedule, with half the baseline vaccine efficacy rates and a restricted timing policy). CONCLUSIONS: On the basis of current World Health Organization guidelines, rotavirus vaccination represents a highly cost-effective intervention in Peru. Withholding the vaccine from children who present for their first dose after 12 weeks of age would reduce the number of deaths averted by approximately 20%. A single dose may be more cost-effective than 2 doses, but more evidence on the protection conferred by a single dose is required.
BACKGROUND: There are plans to introduce the oral rotavirus vaccine Rotarix (GlaxoSmithKline), 1 of 2 recently developed vaccines against rotavirus, in Peru. METHODS: We modeled the cost-effectiveness of adding a rotavirus vaccine to the Peruvian immunization program under 3 scenarios for the timing of vaccination: (1) strictly according to schedule, at 2 and 4 months of age (on time); (2) distributed around the target ages in the same way as the actual timings in the program (flexible); and (3) flexible but assuming vaccination is not initiated for infants >12 weeks of age (restricted). We assumed an introductory price of US $7.50 per dose, and varied the annual rate of price decrease in sensitivity analyses. RESULTS: The discounted cost per disability-adjusted life-year averted for restricted, flexible, and on-time schedules was $621, $615, and $581, respectively. For each of the 3 scenarios, the percentage reduction in deaths due to rotavirus infection was 53%, 66%, and 69%, respectively. The cost per disability-adjusted life-year averted for alternative "what-if" scenarios ranged from $229 (assuming a 1-dose schedule, administered on time) to $1491 (assuming a 2-dose schedule, with half the baseline vaccine efficacy rates and a restricted timing policy). CONCLUSIONS: On the basis of current World Health Organization guidelines, rotavirus vaccination represents a highly cost-effective intervention in Peru. Withholding the vaccine from children who present for their first dose after 12 weeks of age would reduce the number of deaths averted by approximately 20%. A single dose may be more cost-effective than 2 doses, but more evidence on the protection conferred by a single dose is required.
Authors: Sonja Merten; Christian Schaetti; Cele Manianga; Bruno Lapika; Raymond Hutubessy; Claire-Lise Chaignat; Mitchell Weiss Journal: Am J Trop Med Hyg Date: 2013-07-22 Impact factor: 2.345
Authors: Emily R Smith; Emily E Rowlinson; Volga Iniguez; Kizee A Etienne; Rosario Rivera; Nataniel Mamani; Rick Rheingans; Maritza Patzi; Percy Halkyer; Juan S Leon Journal: Vaccine Date: 2011-09-02 Impact factor: 3.641
Authors: Andrew J Mirelman; Sarah Blythe Ballard; Mayuko Saito; Margaret N Kosek; Robert H Gilman Journal: Vaccine Date: 2015-05-15 Impact factor: 3.641
Authors: Ellen R Rafferty; Janna M Schurer; Michael B Arndt; Robert K M Choy; Eugenio L de Hostos; David Shoultz; Marwa Farag Journal: PLoS One Date: 2017-08-23 Impact factor: 3.240
Authors: Sarah-Blythe Ballard; Aaron Tallant; Rosio G Guerra; Dawn Quigley; Regan Stiegmann; Andrew J Mirelman; Mark S Riddle; Robert H Gilman Journal: Vaccine Date: 2020-02-01 Impact factor: 4.169