Health and economic impact of seasonal influenza mass vaccination strategies in European settings: A mathematical modelling and cost-effectiveness analysis

Frank G Sandmann; Edwin van Leeuwen; Sibylle Bernard-Stoecklin; Itziar Casado; Jesús Castilla; Lisa Domegan; Alin Gherasim; Mariëtte Hooiveld; Irina Kislaya; Amparo Larrauri; Daniel Levy-Bruhl; Ausenda Machado; Diogo F P Marques; Iván Martínez-Baz; Clara Mazagatos; Jim McMenamin; Adam Meijer; Josephine L K Murray; Baltazar Nunes; Joan O'Donnell; Arlene Reynolds; Dominic Thorrington; Richard Pebody; Marc Baguelin

doi:10.1016/j.vaccine.2022.01.015

Health and economic impact of seasonal influenza mass vaccination strategies in European settings: A mathematical modelling and cost-effectiveness analysis

Vaccine. 2022 Feb 23;40(9):1306-1315. doi: 10.1016/j.vaccine.2022.01.015. Epub 2022 Jan 31.

Authors

Frank G Sandmann¹, Edwin van Leeuwen², Sibylle Bernard-Stoecklin³, Itziar Casado⁴, Jesús Castilla⁴, Lisa Domegan⁵, Alin Gherasim⁶, Mariëtte Hooiveld⁷, Irina Kislaya⁸, Amparo Larrauri⁶, Daniel Levy-Bruhl³, Ausenda Machado⁸, Diogo F P Marques⁹, Iván Martínez-Baz⁴, Clara Mazagatos⁶, Jim McMenamin⁹, Adam Meijer¹⁰, Josephine L K Murray⁹, Baltazar Nunes⁸, Joan O'Donnell⁵, Arlene Reynolds⁹, Dominic Thorrington¹¹, Richard Pebody¹², Marc Baguelin¹³

Affiliations

¹ UK Health Security Agency, London NW9 5EQ, United Kingdom.; Department of Infectious Disease Epidemiology, London School of Hygiene and Tropical Medicine (LSHTM), London, UK.
² UK Health Security Agency, London NW9 5EQ, United Kingdom.; Department of Infectious Disease Epidemiology, London School of Hygiene and Tropical Medicine (LSHTM), London, UK. Electronic address: Edwin.VanLeeuwen@phe.gov.uk.
³ Santé Publique France, Saint Maurice, France.
⁴ Instituto de Salud Pública de Navarra - IdiSNA, CIBERESP, Pamplona, Spain.
⁵ Health Service Executive-Health Protection Surveillance Centre, Dublin, Ireland.
⁶ National Centre of Epidemiology/CIBER de Epidemiologia y Salud Pública (CIBERESP). Institute of Health Carlos III, Madrid, Spain.
⁷ Nivel (Netherlands Institute for Health Services Research), Utrecht, the Netherlands.
⁸ Instituto Nacional de Saúde Dr. Ricardo Jorge (INSA), Lisbon, Portugal.
⁹ Health Protection Scotland (HPS), Glasgow, UK.
¹⁰ Centre for Infectious Disease Research, Diagnostics and Laboratory Surveillance, National Institute for Public Health and the Environment (RIVM), Bilthoven, the Netherlands.
¹¹ Haute Autorité de Santé (HAS), Saint-Denis, France.
¹² UK Health Security Agency, London NW9 5EQ, United Kingdom.
¹³ UK Health Security Agency, London NW9 5EQ, United Kingdom.; Department of Infectious Disease Epidemiology, London School of Hygiene and Tropical Medicine (LSHTM), London, UK; School of Public Health, Imperial College London, London, UK.

Abstract

Introduction: Despite seasonal influenza vaccination programmes in most countries targeting individuals aged ≥ 65 (or ≥ 55) years and high risk-groups, significant disease burden remains. We explored the impact and cost-effectiveness of 27 vaccination programmes targeting the elderly and/or children in eight European settings (n = 205.8 million).

Methods: We used an age-structured dynamic-transmission model to infer age- and (sub-)type-specific seasonal influenza virus infections calibrated to England, France, Ireland, Navarra, The Netherlands, Portugal, Scotland, and Spain between 2010/11 and 2017/18. The base-case vaccination scenario consisted of non-adjuvanted, non-high dose trivalent vaccines (TV) and no universal paediatric vaccination. We explored i) moving the elderly to "improved" (i.e., adjuvanted or high-dose) trivalent vaccines (iTV) or non-adjuvanted non-high-dose quadrivalent vaccines (QV); ii) adopting mass paediatric vaccination with TV or QV; and iii) combining the elderly and paediatric strategies. We estimated setting-specific costs and quality-adjusted life years (QALYs) gained from the healthcare perspective, and discounted QALYs at 3.0%.

Results: In the elderly, the estimated numbers of infection per 100,000 population are reduced by a median of 261.5 (range across settings: 154.4, 475.7) when moving the elderly to iTV and by 150.8 (77.6, 262.3) when moving them to QV. Through indirect protection, adopting mass paediatric programmes with 25% uptake achieves similar reductions in the elderly of 233.6 using TV (range: 58.9, 425.6) or 266.5 using QV (65.7, 477.9), with substantial health gains from averted infections across ages. At €35,000/QALY gained, moving the elderly to iTV plus adopting mass paediatric QV programmes provides the highest mean net benefits and probabilities of being cost-effective in all settings and paediatric coverage levels.

Conclusion: Given the direct and indirect protection, and depending on the vaccine prices, model results support a combination of having moved the elderly to an improved vaccine and adopting universal paediatric vaccination programmes across the European settings.

Keywords: Economic evaluation; Influenza; Mathematical model; Policy; Public health; Vaccination.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Aged
Child
Cost-Benefit Analysis
Humans
Influenza Vaccines*
Influenza, Human* / epidemiology
Influenza, Human* / prevention & control
Mass Vaccination
Middle Aged
Quality-Adjusted Life Years
Seasons
Vaccination

Substances

Influenza Vaccines