Incremental clinical and economic impact of recombinant zoster vaccination: real-world data in a budget impact model
Autor: | William L. Herring, Lina S. Sy, Bradley Ackerson, Desiree Van Oorschot, Yuanhui Zhang, Hung-Fu Tseng, Justin Carrico, Brandon J. Patterson, Desmond Curran, Katia Bruxvoort |
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Rok vydání: | 2020 |
Předmět: |
Budgets
Pediatrics medicine.medical_specialty Time Factors Cost-Benefit Analysis viruses MEDLINE Pharmaceutical Science Pharmacy Herpes Zoster 03 medical and health sciences 0302 clinical medicine medicine Herpes Zoster Vaccine Humans 030212 general & internal medicine Economic impact analysis Randomized Controlled Trials as Topic Vaccines Synthetic integumentary system business.industry 030503 health policy & services Health Policy Vaccination virus diseases Budget impact Middle Aged United States Zoster vaccine 0305 other medical science business Real world data medicine.drug |
Zdroj: | Journal of Managed Care & Specialty Pharmacy. 26:1567-1575 |
ISSN: | 2376-1032 2376-0540 |
Popis: | In 2017, the FDA approved the adjuvanted recombinant zoster vaccine (RZV) for the prevention of herpes zoster (HZ) in immunocompetent adults aged 50 years and older. RZV joined zoster vaccine live (ZVL) as U.S.-marketed vaccines against HZ. The Advisory Committee on Immunization Practices preferentially recommended use of RZV over ZVL. In order to inform population-based decision makers (PBDMs) about the incremental clinical and economic impact of RZV adoption, budget impact (BI) models may be used. Populating such models with national data can inform PBDMs about the incremental value of RZV adoption nationally; however, heterogeneity across health plans requires the inclusion of plan-specific data to ensure the relevance of modeling outcomes for plan-specific decision makers.To investigate the clinical and economic outcomes associated with the adoption of RZV in nationally representative populations with commercial and Medicare coverage and to demonstrate the effect of the heterogeneity of health plans using real-world data from a large, integrated delivery network (IDN).We used a publicly available BI model. The model accounts for national and IDN-collected population characteristics (size, age distribution) and epidemiological data (incidence of HZ and complications, HZ recurrence rate), vaccine characteristics from randomized controlled trials and observational studies (efficacy, waning, second dose compliance for RZV, adverse event rate), national costs (vaccine, direct medical for HZ, complications, and vaccine adverse events), and current and anticipated vaccine coverage. We assessed incremental clinical (HZ cases and complications) and economic (per-member-per-month [PMPM] costs) impact at 5-year to 15-year time horizons, comparing scenarios where RZV is solely implemented with one where only ZVL is utilized.Following the adoption of RZV, the incremental HZ cases avoided over 5 and 15 years were estimated to be 1,800 and 15,000 for a commercial plan, 3,800 and 21,000 for a Medicare plan, and 8,600 and 71,000 for a specific IDN. The incremental PMPM budget impact over the same time horizons was estimated to be $0.42 and $0.31, respectively, for a commercial plan, $0.35 and $0.10 for a Medicare plan, and $0.39 and $0.25 for a specific IDN. The differences in results across plans resulted from the population age distribution, the vaccine copay (applied in the Medicare scenario only), the vaccine coverage in the plan, and other plan-specific factors affecting disease epidemiology and costs per case of HZ.Model projections indicated that RZV adoption avoided HZ cases and related complications, with the PMPM budget impact dependent on plan-specific factors. As health gains increased over time, the incremental costs incurred were found to decrease as the shorter-term costs of adopting the new vaccine were increasingly offset by the longer-term benefits of vaccination.GlaxoSmithKline Biologicals SA funded this study (GSK study identifier: HO-17-18378) and was involved in all stages of study conduct, including analysis of the data. GlaxoSmithKline Biologicals SA also paid all costs associated with the development and publication of this manuscript. Patterson, Van Oorschot, and Curran are employees of the GSK group of companies and hold shares in the GSK group of companies. Herring, Carrico, and Zhang are employees of RTI Health Solutions, which received funding via a contractual agreement with the GSK group of companies to perform the work contributing to this research. Ackerson, Bruxvoort, Sy, and Tseng are employees of Kaiser Permanente Southern California, which was contracted by the GSK group of companies for the conduct of this study and were members of the KPSC study team. Ackerson, Bruxvoort, Sy, and Tseng report research contracts with the following pharmaceutical companies unrelated to this study: Dynavax (Ackerson, Bruxvoort, and Sy); the GSK group of companies (Ackerson, Bruxvoort, Sy, and Tseng); Novavax (Ackerson, Sy, and Tseng); and Seqirus (Ackerson, Bruxvoort, Sy, and Tseng). Tseng reports having served as a paid consultant for the GSK group of companies. The authors declare no other financial and nonfinancial relationships and activities. Findings from this study were presented at AMCP Nexus 2019; October 29-November 1, 2019; National Harbor, MD. |
Databáze: | OpenAIRE |
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