TY - JOUR
T1 - Current and future effects of varicella and herpes zoster vaccination in Germany - insights from a mathematical model in a country with universal varicella vaccination
AU - Horn, Johannes
AU - Karch, André
AU - Damm, Oliver
AU - Kretzschmar, Mirjam
AU - Siedler, Anette
AU - Ultsch, Bernhard
AU - Weidemann, Felix
AU - Wichmann, Ole
AU - Hengel, Hartmut
AU - Greiner, Wolfgang
AU - Mikolajczyk, Rafael T
PY - 2016
Y1 - 2016
N2 - Varicella zoster virus (VZV) is primarily known for causing varicella in childhood, but can reactivate again as herpes zoster (HZ) after a period of latency, mainly in persons older than 50 years. Universal varicella vaccination was introduced in Germany in 2004, while HZ vaccination has not been recommended yet. We aimed to quantify the potential long-term effects of universal childhood varicella vaccination and HZ vaccination of the elderly on varicella and HZ incidence in Germany over a time-horizon of 100 years, using a transmission model calibrated to pre-vaccination data and und validated against early post-vaccination data. Using current vaccination coverage rates of 87% (64%) with one (two) varicella vaccine dose(s), the model predicts a decrease in varicella cases by 89% for the year 2015. In the long run, the incidence reduction will stabilize at about 70%. Under the assumption of the boosting hypothesis of improved HZ protection caused by exposure to VZV, the model predicts a temporary increase in HZ incidence of up to 20% for around 50 years. HZ vaccination of the elderly with an assumed coverage of 20% has only limited effects in counteracting this temporary increase in HZ incidence. However, HZ incidence is shown to decrease in the long-term by 58% as vaccinated individuals get older and finally reach age-classes with originally high HZ incidence. Despite substantial uncertainties around several key variables, the model's results provide valuable insights that support decision-making regarding national VZV vaccination strategies.
AB - Varicella zoster virus (VZV) is primarily known for causing varicella in childhood, but can reactivate again as herpes zoster (HZ) after a period of latency, mainly in persons older than 50 years. Universal varicella vaccination was introduced in Germany in 2004, while HZ vaccination has not been recommended yet. We aimed to quantify the potential long-term effects of universal childhood varicella vaccination and HZ vaccination of the elderly on varicella and HZ incidence in Germany over a time-horizon of 100 years, using a transmission model calibrated to pre-vaccination data and und validated against early post-vaccination data. Using current vaccination coverage rates of 87% (64%) with one (two) varicella vaccine dose(s), the model predicts a decrease in varicella cases by 89% for the year 2015. In the long run, the incidence reduction will stabilize at about 70%. Under the assumption of the boosting hypothesis of improved HZ protection caused by exposure to VZV, the model predicts a temporary increase in HZ incidence of up to 20% for around 50 years. HZ vaccination of the elderly with an assumed coverage of 20% has only limited effects in counteracting this temporary increase in HZ incidence. However, HZ incidence is shown to decrease in the long-term by 58% as vaccinated individuals get older and finally reach age-classes with originally high HZ incidence. Despite substantial uncertainties around several key variables, the model's results provide valuable insights that support decision-making regarding national VZV vaccination strategies.
KW - varicella vaccination
KW - herpes zoster
KW - transmission model
KW - uncertainty
KW - varicella
KW - zoster vaccination
U2 - 10.1080/21645515.2015.1135279
DO - 10.1080/21645515.2015.1135279
M3 - Article
C2 - 26835890
SN - 2164-5515
VL - 12
SP - 1766
EP - 1776
JO - Human vaccines & immunotherapeutics
JF - Human vaccines & immunotherapeutics
IS - 7
ER -