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BMC Medicine
Published in: BMC Medicine 1/2018

Open Access 01-12-2018 | Research article

The impact of demographic changes, exogenous boosting and new vaccination policies on varicella and herpes zoster in Italy: a modelling and cost-effectiveness study

Authors: Alessia Melegaro, Valentina Marziano, Emanuele Del Fava, Piero Poletti, Marcello Tirani, Caterina Rizzo, Stefano Merler

Published in: BMC Medicine | Issue 1/2018

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Abstract

Background

The present study aims to evaluate the cost-effectiveness of the newly introduced varicella and herpes zoster (HZ) vaccination programmes in Italy. The appropriateness of the introduction of the varicella vaccine is highly debated because of concerns about the consequences on HZ epidemiology and the expected increase in the number of severe cases in case of suboptimal coverage levels.

Methods

We performed a cost-utility analysis based on a stochastic individual-based model that considers realistic demographic processes and two different underlying mechanisms of exogenous boosting (temporary and progressive immunity). Routine varicella vaccination is given with a two-dose schedule (15 months, 5–6 years). The HZ vaccine is offered to the elderly (65 years), either alone or in combination with an initial catch-up campaign (66–75 years). The main outcome measures are averted cases and deaths, costs per quality-adjusted life years gained, incremental cost-effectiveness ratios, and net monetary benefits associated with the different vaccination policies.

Results

Demographic processes have contributed to shaping varicella and HZ epidemiology over the years, decreasing varicella circulation and increasing the incidence of HZ. The recent introduction of varicella vaccination in Italy is expected to produce an enduring reduction in varicella incidence and, indirectly, a further increase of HZ incidence in the first decades, followed by a significant reduction in the long term. However, the concurrent introduction of routine HZ vaccination at 65 years of age is expected to mitigate this increase and, in the longer run, to reduce HZ burden to its minimum. From an economic perspective, all the considered policies are cost-effective, with the exception of varicella vaccination alone when considering a time horizon of 50 years. These results are robust to parameter uncertainties, to the two different hypotheses on the mechanism driving exogenous boosting, and to different demographic projection scenarios.

Conclusions

The recent introduction of a combined varicella and HZ vaccination programme in Italy will produce significant reductions in the burden of both diseases and is found to be a cost-effective policy. This programme will counterbalance the increasing trend of zoster incidence purely due to demographic processes.
Appendix
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Literature
1.
Gauthier A, Breuer J, Carrington D, Martin M, Rémy V. Epidemiology and cost of herpes zoster and post-herpetic neuralgia in the United Kingdom. Epidemiol Infect. 2008;137:38–47.CrossRefPubMed
2.
Gialloreti LE, Merito M, Pezzotti P, Naldi L, Gatti A, Beillat M, et al. Epidemiology and economic burden of herpes zoster and post-herpetic neuralgia in Italy: a retrospective, population-based study. BMC Infect Dis. 2010;10:230–11.CrossRefPubMedPubMedCentral
3.
Goldman GS, King PG. Review of the United States universal varicella vaccination program: herpes zoster incidence rates, cost-effectiveness, and vaccine efficacy based primarily on the Antelope Valley Varicella Active Surveillance Project data. Vaccine. 2013;31:1680–94.CrossRefPubMedPubMedCentral
4.
Bechini A, Boccalini S, Baldo V, Castiglia P, Gallo T, Giuffrida S, et al. Impact of universal vaccination against varicella in Italy. Hum Vaccin Immunother. 2015;11:63–71.CrossRefPubMed
5.
Signorelli C, Guerra R, Siliquini R, Ricciardi W. Italy’s response to vaccine hesitancy: an innovative and cost effective National Immunization Plan based on scientific evidence. Vaccine. 2017;35:4057–9.CrossRefPubMed
6.
Brisson M, Edmunds WJ, Gay NJ. Varicella vaccination: impact of vaccine efficacy on the epidemiology of VZV. J Med Virol. 2003;70:S31–7.CrossRefPubMed
7.
8.
Jumaan AO, Yu O, Jackson LA, Bohlke K, Galil K, Seward JF. Incidence of herpes zoster, before and after varicella-vaccination-associated decreases in the incidence of varicella, 1992–2002. J Infect Dis. 2005;191:2002–7.CrossRefPubMed
9.
Reynolds MA, Chaves SS, Harpaz R, Lopez AS, Seward JF. The impact of the varicella vaccination program on herpes zoster epidemiology in the United States: a review. J Infect Dis. 2008;197:S224–7.CrossRefPubMed
10.
Kawai K, Gebremeskel BG, Acosta CJ. Systematic review of incidence and complications of herpes zoster: towards a global perspective. BMJ Open. 2014;4:e004833.CrossRefPubMedPubMedCentral
11.
Marziano V, Poletti P, Guzzetta G, Ajelli M, Manfredi P, Merler S. The impact of demographic changes on the epidemiology of herpes zoster: Spain as a case study. Proc R Soc B. 2015;282:20142509.CrossRefPubMed
12.
Mitka M. FDA approves shingles vaccine: herpes zoster vaccine targets older adults. J Am Med Assoc. 2006;296:157–8.CrossRef
13.
Oxman MN, Levin MJ, Johnson GR, Schmader KE, Straus SE, Gelb LD, et al. A vaccine to prevent herpes zoster and postherpetic neuralgia in older adults. N Engl J Med. 2009;352:2271–84.CrossRef
14.
Karhunen M, Leino T, Salo H, Davidkin I, Kilpi T, Auranen K. Modelling the impact of varicella vaccination on varicella and zoster. Epidemiol Infect. 2010;138:469–81.CrossRefPubMed
15.
Poletti P, Melegaro A, Ajelli M, Del Fava E, Guzzetta G, Faustini L, et al. Perspectives on the impact of varicella immunization on herpes zoster. A model-based evaluation from three European countries. PLoS One. 2013;8:e60732.CrossRefPubMedPubMedCentral
16.
Brisson M, Melkonyan G, Drolet M, De Serres G, Thibeault R, De Wals P. Modeling the impact of one- and two-dose varicella vaccination on the epidemiology of varicella and zoster. Vaccine. 2010;28:3385–97.CrossRefPubMed
17.
van Hoek AJ, Melegaro A, Zagheni E, Edmunds WJ, Gay NJ. Modelling the impact of a combined varicella and zoster vaccination programme on the epidemiology of varicella zoster virus in England. Vaccine. 2011;29:2411–20.CrossRefPubMed
18.
Guzzetta G, Poletti P, Del Fava E, Ajelli M, Scalia Tomba G, Merler S, et al. Hope-Simpson's progressive immunity hypothesis as a possible explanation for herpes zoster incidence data. Am J Epidemiol. 2013;177:1134–42.CrossRefPubMed
19.
Guzzetta G, Poletti P, Merler S, Manfredi P. The epidemiology of herpes zoster after varicella immunization under different biological hypotheses: perspectives from mathematical modeling. Am J Epidemiol. 2016;183:765–73.CrossRefPubMedPubMedCentral
20.
Terada K, Kawano S, Yoshihiro K, Morita T. Proliferative response to varicella-zoster virus is inversely related to development of high levels of varicella-zoster virus specific IgG antibodies. Scand J Infect Dis. 2009;25:775–8.CrossRef
21.
Vossen MTM, Gent M-R, Weel JFL, de Jong MD, van Lier RAW, Kuijpers TW. Development of virus-specific CD4+ T cells on reexposure to varicella-zoster virus. J Infect Dis. 2004;190:72–82.CrossRefPubMed
22.
Ogunjimi B, Smits E, Hens N, Hens A, Lenders K, Ieven M, et al. Exploring the impact of exposure to primary varicella in children on varicella-zoster virus immunity of parents. Viral Immunol. 2011;24:151–7.CrossRefPubMed
23.
Thomas SL, Wheeler JG, Hall AJ. Contacts with varicella or with children and protection against herpes zoster in adults: a case-control study. Lancet. 2002;360:678–82.CrossRefPubMed
24.
Brisson M, Gay NJ, Edmunds WJ, Andrews N. Exposure to varicella boosts immunity to herpes-zoster: implications for mass vaccination against chickenpox. Vaccine. 2002;20:2500–7.CrossRefPubMed
25.
Gaillat J, Gajdos V, Launay O, Malvy D, Demoures B, Lewden L, et al. Does monastic life predispose to the risk of Saint Anthony’s fire (herpes zoster)? Clin Infect Dis. 2011;53:405–10.CrossRefPubMed
26.
Marangi L, Mirinaviciute G, Flem E, Scalia Tomba G, Guzzetta G, Freiesleben de Blasio B et al. The natural history of varicella zoster virus infection in Norway: Further insights on exogenous boosting and progressive immunity to herpes zoster. PLoS ONE. 2017; 12: e0176845–17
27.
Damm O, Ultsch B, Horn J, Mikolajczyk RT, Greiner W, Wichmann O. Systematic review of models assessing the economic value of routine varicella and herpes zoster vaccination in high-income countries. BMC Public Health. 2015;15:222.CrossRef
28.
van Lier A, Lugnér A, Opstelten W, Jochemsen P, Wallinga J, Schellevis F, et al. Distribution of health effects and cost-effectiveness of varicella vaccination are shaped by the impact on herpes zoster. EBioMedicine. 2015;2:1494–9.CrossRefPubMedPubMedCentral
29.
Bilcke J, van Hoek AJ, Beutels P. Childhood varicella-zoster virus vaccination in Belgium: cost-effective only in the long run or without exogenous boosting? Hum Vaccin Immunother. 2014;9:812–22.CrossRef
30.
Brisson M, Edmunds WJ. The cost-effectiveness of varicella vaccination in Canada. Vaccine. 2002;20:1113–25.CrossRefPubMed
31.
32.
33.
34.
Merler S, Ajelli M. Deciphering the relative weights of demographic transition and vaccination in the decrease of measles incidence in Italy. Proc R Soc B. 2014;281:20132676.CrossRefPubMed
35.
Trentini F, Poletti P, Merler S, Melegaro A. Measles immunity gaps and the progress towards elimination: a multi-country modelling analysis. Lancet Infect Dis. 2017;17:1089–97.CrossRefPubMed
36.
Johnson RW. Zoster-associated pain: what is known, who is at risk and how can it be managed? Herpes. 2007;14((Suppl 2)):30–4.PubMed
37.
Seward JF, Zhang JX, Maupin TJ, Mascola L, Jumaan AO. Contagiousness of varicella in vaccinated cases: a household contact study. J Am Med Assoc. 2004;292:704–8.CrossRef
38.
Civen R, Chaves SS, Jumaan AO, Wu H, Mascola L, Gargiullo PM, et al. The incidence and clinical characteristics of herpes zoster among children and adolescents after implementation of varicella vaccination. Pediatr Infect Dis J. 2009;28:954–9.CrossRefPubMed
39.
Ministero della Salute. Piano Nazionale Prevenzione Vaccinale. Rome: Gazzetta Ufficiale; 2017.
40.
Vázquez M, LaRussa PS, Gershon AA, Steinberg SP, Freudigman K, Shapiro ED. The effectiveness of the varicella vaccine in clinical practice. N Engl J Med. 2001;344:955–60.CrossRefPubMed
41.
42.
Fattore G. Proposta di linee guida per la valutazione economica degli interventi sanitari in Italia. Pharmacoeconomics Ital Res Articles. 2009;11:83–93.CrossRef
43.
Woods B, Revill P, Sculpher M, Claxton K. Country-level cost-effectiveness thresholds: initial estimates and the need for further research. Value Health. 2016;19:929–35.CrossRefPubMedPubMedCentral
44.
Baio G, Dawid AP. Probabilistic sensitivity analysis in health economics. Stat Methods Med Res. 2011;24:615–34.CrossRefPubMed
45.
Briggs AH. A Bayesian approach to stochastic cost-effectiveness analysis. Health Econ. 1999;8:257–61.CrossRefPubMed
46.
Stinnett AA, Mullahy J. Net health benefits: a new framework for the analysis of uncertainty in cost-effectiveness analysis. Med Dec Making. 1998;18:202–12.CrossRef
47.
Littlewood KJ, Ouwens MJNM, Sauboin C, Tehard B, Alain S, Denis F. Cost-effectiveness of routine varicella vaccination using the measles, mumps, rubella and varicella vaccine in France: an economic analysis based on a dynamic transmission model for varicella and herpes zoster. Clin Ther. 2015;37:830–7.CrossRefPubMed
48.
van Hoek AJ, Melegaro A, Gay NJ, Bilcke J, Edmunds WJ. The cost-effectiveness of varicella and combined varicella and herpes zoster vaccination programmes in the United Kingdom. Vaccine. 2012;30:1225–34.CrossRefPubMed
49.
Horn J, Damm O, Greiner W, Hengel H, Kretzschmar ME, Siedler A, et al. Influence of demographic changes on the impact of vaccination against varicella and herpes zoster in Germany – a mathematical modelling study. BMC Med. 2018;16:1–9.CrossRef
50.
Morrison VA, Johnson GR, Schmader KE, Levin MJ, Zhang JH, Looney DJ, et al. Long-term persistence of zoster vaccine efficacy. Clin Infect Dis. 2015;60:900–9.CrossRefPubMed
51.
Tseng H-F, Harpaz R, Luo Y, Hales CM, Sy LS, Tartof SY, et al. Declining effectiveness of herpes zoster vaccine in adults aged ≥ 60 years. J Infect Dis. 2016;213:1872–5.CrossRefPubMed
52.
Lal H, Cunningham AL, Godeaux O, Chlibek R, Díez-Domingo J, Hwang S-J, et al. Efficacy of an adjuvanted herpes zoster subunit vaccine in older adults. N Engl J Med. 2015;372:2087–96.CrossRefPubMed
53.
Cunningham AL, Lal H, Kovac M, Chlibek R, Hwang S-J, Díez-Domingo J, et al. Efficacy of the herpes zoster subunit vaccine in adults 70 years of age or older. N Engl J Med. 2016;375:1019–32.CrossRefPubMed
54.
55.
Marchetti S, Guzzetta G, Flem E, Mirinaviciute G, Scalia Tomba G, Manfredi P. Modeling the impact of combined vaccination programs against varicella and herpes zoster in Norway. Vaccine 2018; 36: 1116–125.
56.
Trucchi C, Gabutti G, Rota MC, Bella A. Burden of varicella in Italy, 2001–2010: analysis of data from multiple sources and assessment of universal vaccination impact in three pilot regions. J Med Microbiol. 2015;64:1387–94.CrossRefPubMed
57.
Signorelli C, Odone A, Cella P, Iannazzo S, D'Ancona F, Guerra R. Infant immunization coverage in Italy (2000-2015). Ann Ist Super Sanità. 2017;53:231–7.PubMed
58.
Vázquez M, Shapiro ED. Varicella vaccine and infection with varicella-zoster virus. N Engl J Med. 2005;352:439–40.CrossRefPubMed
59.
Thiry N, Beutels P, Van Damme P, Van Doorslaer E. Economic evaluations of varicella vaccination programmes. PharmacoEconomics. 2003;21:13–38.CrossRefPubMed
60.
Coudeville L, Brunot A, Szucs TD, Dervaux B. The economic value of childhood varicella vaccination in France and Germany. Value Health. 2005;8:209–22.CrossRefPubMed
61.
Kind P, Hardman G, Macran S. UK population norms for EQ-5D. Centre for Health Economics Discussion Paper Series. Report No. 172. York: University of York; 1999. p. 1–98.
62.
Bala MV, Wood LL, Zarkin GA, Norton EC, Gafni A, O'Brien B. Valuing outcomes in health care: a comparison of willingness to pay and quality-adjusted life-years. J Clin Epidemiol. 1998;51:667–76.CrossRefPubMed
63.
Chaves SS, Zhang J, Civen R, Watson BM, Carbajal T, Perella D, et al. Varicella disease among vaccinated persons: clinical and epidemiological characteristics, 1997-2005. J Infect Dis. 2008;197(Suppl 2):S127–31.CrossRefPubMed
64.
Fornaro P, Gandini F, Marin M, Pedrazzi C, Piccoli P, Tognetti D, et al. Epidemiology and cost analysis of varicella in Italy: results of a sentinel study in the pediatric practice. Pediatr Infect Dis J. 1999;18:414–9.CrossRefPubMed
65.
Zotti CM, Maggiorotto G, Migliardi A. I costi della varicella. Ann Ig. 2002;14:29–33.PubMed
66.
Giaquinto C, Sturkenboom M, Mannino S, Arpinelli F, Nicolosi A, Cantarutti L. Epidemiologia ed esiti della varicella in Italia: risultati di uno studio prospettico sui bambini (0–14 anni) seguiti dai pediatri di libera scelta (Studio Pedianet). Ann Ig. 2002;14:21–7.PubMed
Metadata
Title
The impact of demographic changes, exogenous boosting and new vaccination policies on varicella and herpes zoster in Italy: a modelling and cost-effectiveness study
Authors
Alessia Melegaro
Valentina Marziano
Emanuele Del Fava
Piero Poletti
Marcello Tirani
Caterina Rizzo
Stefano Merler
Publication date
01-12-2018
Publisher
BioMed Central
Published in
BMC Medicine / Issue 1/2018
Electronic ISSN: 1741-7015
DOI
https://doi.org/10.1186/s12916-018-1094-7

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