Abstract
BackgroundWorld leaders remain committed to globally-coordinated oral poliovirus vaccine (OPV) cessation following successful eradication of wild polioviruses, but the best timing and strategy for implementation depend on existing and emerging conditions.MethodsUsing an existing integrated global poliovirus risk management model, we explore alternatives to the current timing plan of coordinated cessation of each OPV serotype (i.e., OPV1, OPV2, and OPV3 cessation for serotypes 1, 2, and 3, respectively). We assume the current timing plan involves OPV2 cessation in 2016 followed by OPV1 and OPV3 cessation in 2019 and we compare this to alternative timing options, including cessation of all three serotypes in 2018 or 2019, and cessation of both OPV2 and OPV3 in 2017 followed by OPV1 in 2019.ResultsIf Supplemtal Immunization Activity frequency remains sufficiently high through cessation of the last OPV serotype, then all OPV cessation timing options prevent circulating vaccine-derived poliovirus (cVDPV) outbreaks after OPV cessation of any serotype. The various OPV cessation timing options result in relatively modest differences in expected vaccine-associated paralytic poliomyelitis cases and expected total of approximately 10–13 billion polio vaccine doses used. However, the expected amounts of vaccine of different OPV formulations needed changes dramatically with each OPV cessation timing option. Overall health economic impacts remain limited for timing options that only change the OPV formulation but preserve the currently planned year for cessation of the last OPV serotype and the global introduction of inactivated poliovirus vaccine (IPV) introduction. Earlier cessation of the last OPV serotype or later global IPV introduction yield approximately $1 billion in incremental net benefits due to saved vaccination costs, although the logistics of implementation of OPV cessation remain uncertain and challenging.ConclusionsAll countries should maintain the highest possible levels of population immunity to transmission for each poliovirus serotype prior to the coordinated cessation of the OPV serotype to manage cVDPV risks. If OPV2 cessation gets delayed, then global health leaders should consider other OPV cessation timing options.
Highlights
World leaders remain committed to globally-coordinated oral poliovirus vaccine (OPV) cessation following successful eradication of wild polioviruses, but the best timing and strategy for implementation depend on existing and emerging conditions
Ending the use of OPV stops the creation of new circulating vaccine-derived poliovirus (cVDPV), Immunodeficiency-associated vaccine-derived poliovirus (iVDPV), and vaccineassociated paralytic poliomyelitis (VAPP) cases, and OPV cessation represents the only means to eliminate the risks and poliomyelitis cases associated with OPV use [7, 14]
Due to the assumed sufficiently high frequency of Supplemental immunization activity (SIA) leading up to OPV cessation of any serotype for all OPV cessation options, none of the options lead to any subsequent cVDPV cases
Summary
World leaders remain committed to globally-coordinated oral poliovirus vaccine (OPV) cessation following successful eradication of wild polioviruses, but the best timing and strategy for implementation depend on existing and emerging conditions. 3 countries reported poliomyelitis cases due to indigenous WPV1 s in 2014 (i.e., Afghanistan, Nigeria, and Pakistan) but poliofree countries with insufficient population immunity remain at risk of outbreaks due to imported WPV1 as long as circulation continues anywhere [1]. Populations with very low immunity may allow OPV viruses to continue to circulate and eventually evolve to become circulating vaccine-derived polioviruses (cVDPVs) with properties similar to WPVs. Multiple cVDPV outbreaks (defined as transmission that led to 1 or more cases of paralytic poliomyelitis) occurred to date [5,6,7,8], including re-established (cVDPV2) in Northern Nigeria since 2005 [9, 10]. Ending the use of OPV stops the creation of new cVDPVs, iVDPVs, and VAPP cases, and OPV cessation represents the only means to eliminate the risks and poliomyelitis cases associated with OPV use [7, 14]
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