Imported Infections Versus Herd Immunity Gaps; A Didactic Demonstration of Compartment Models Through the Example of a Minor Measles Outbreak in Hungary
Introduction: In Hungary, where MMR vaccine coverage is 99%, in 2017, a minor measles epidemic started from imported cases due to two major factors – latent susceptible cohorts among the domestic population and the vicinity of measles-endemic countries. Suspended immunization activities due to the C...
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Faculty of Medicine Osijek
2021-04-01
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| Series: | Southeastern European Medical Journal |
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| Online Access: | http://seemedj.mefos.unios.hr/index.php/seemedj/article/view/199/94 |
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doaj-4e2e0b131600436f8ddb1364786aedba2021-04-30T08:50:11ZengFaculty of Medicine OsijekSoutheastern European Medical Journal2459-94842021-04-015111610.26332/seemedj.v5i1.199Imported Infections Versus Herd Immunity Gaps; A Didactic Demonstration of Compartment Models Through the Example of a Minor Measles Outbreak in Hungary Katalin Böröcz0Ákos Markovics 1Zsuzsanna Csizmadia 2Joseph Najbauer3Timea Berki4Peter Németh 5Department of Immunology and Biotechnology, Clinical Centre, University of Pécs Medical School, Pécs, HungaryDepartment of General and Physical Chemistry , Faculty of Natural Sciences, University of Pécs, Pécs, HungaryDepartment of Immunology and Biotechnology, Clinical Centre, University of Pécs Medical School, Pécs, HungaryDepartment of Immunology and Biotechnology, Clinical Centre, University of Pécs Medical School, Pécs, HungaryDepartment of Immunology and Biotechnology, Clinical Centre, University of Pécs Medical School, Pécs, HungaryDepartment of Immunology and Biotechnology, Clinical Centre, University of Pécs Medical School, Pécs, HungaryIntroduction: In Hungary, where MMR vaccine coverage is 99%, in 2017, a minor measles epidemic started from imported cases due to two major factors – latent susceptible cohorts among the domestic population and the vicinity of measles-endemic countries. Suspended immunization activities due to the COVID-19 surge are an ominous precursor to a measles resurgence. This epidemiological demonstration is aimed at promoting a better public understanding of epidemiological data. Materials and Methods: Our previous MMR sero-epidemiological measurements (N of total measles cases = 3919, N of mumps cases = 2132, and N of rubella cases = 2132) were analyzed using open-source epidemiological data (ANTSZ) of a small-scale measles epidemic outbreak (2017, Hungary). A simplified SEIR model was applied in the analysis. Results: In case of measles, due to a cluster-specific inadequacy of IgG levels, the cumulative seropositivity ratios (measles = 89.97%) failed to reach the herd immunity threshold (HIT Measles = 92–95%). Despite the fact that 90% of overall vaccination coverage is just slightly below the HIT, unprotected individuals may pose an elevated epidemiological risk. According to the SEIR model, ≥74% of susceptible individuals are expected to get infected. Estimations based on the input data of a local epidemic may suggest an even lower effective coverage rate (80%) in certain clusters of the population. Conclusion: Serological survey-based, historical and model-computed results are in agreement. A practical demonstration of epidemiological events of the past and present may promote a higher awareness of infectious diseases. Because of the high R0 value of measles, continuous large-scale monitoring of humoral immunity levels is important.http://seemedj.mefos.unios.hr/index.php/seemedj/article/view/199/94mmrvaccinehumoral antibodyepidemicsseir model |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Katalin Böröcz Ákos Markovics Zsuzsanna Csizmadia Joseph Najbauer Timea Berki Peter Németh |
| spellingShingle |
Katalin Böröcz Ákos Markovics Zsuzsanna Csizmadia Joseph Najbauer Timea Berki Peter Németh Imported Infections Versus Herd Immunity Gaps; A Didactic Demonstration of Compartment Models Through the Example of a Minor Measles Outbreak in Hungary Southeastern European Medical Journal mmr vaccine humoral antibody epidemics seir model |
| author_facet |
Katalin Böröcz Ákos Markovics Zsuzsanna Csizmadia Joseph Najbauer Timea Berki Peter Németh |
| author_sort |
Katalin Böröcz |
| title |
Imported Infections Versus Herd Immunity Gaps; A Didactic Demonstration of Compartment Models Through the Example of a Minor Measles Outbreak in Hungary |
| title_short |
Imported Infections Versus Herd Immunity Gaps; A Didactic Demonstration of Compartment Models Through the Example of a Minor Measles Outbreak in Hungary |
| title_full |
Imported Infections Versus Herd Immunity Gaps; A Didactic Demonstration of Compartment Models Through the Example of a Minor Measles Outbreak in Hungary |
| title_fullStr |
Imported Infections Versus Herd Immunity Gaps; A Didactic Demonstration of Compartment Models Through the Example of a Minor Measles Outbreak in Hungary |
| title_full_unstemmed |
Imported Infections Versus Herd Immunity Gaps; A Didactic Demonstration of Compartment Models Through the Example of a Minor Measles Outbreak in Hungary |
| title_sort |
imported infections versus herd immunity gaps; a didactic demonstration of compartment models through the example of a minor measles outbreak in hungary |
| publisher |
Faculty of Medicine Osijek |
| series |
Southeastern European Medical Journal |
| issn |
2459-9484 |
| publishDate |
2021-04-01 |
| description |
Introduction: In Hungary, where MMR vaccine coverage is 99%, in 2017, a minor measles epidemic started from imported cases due to two major factors – latent susceptible cohorts among the domestic population and the vicinity of measles-endemic countries. Suspended immunization activities due to the COVID-19 surge are an ominous precursor to a measles resurgence. This epidemiological demonstration is aimed at promoting a better public understanding of epidemiological data.
Materials and Methods: Our previous MMR sero-epidemiological measurements (N of total measles cases = 3919, N of mumps cases = 2132, and N of rubella cases = 2132) were analyzed using open-source epidemiological data (ANTSZ) of a small-scale measles epidemic outbreak (2017, Hungary). A simplified SEIR model was applied in the analysis.
Results: In case of measles, due to a cluster-specific inadequacy of IgG levels, the cumulative seropositivity ratios (measles = 89.97%) failed to reach the herd immunity threshold (HIT Measles = 92–95%). Despite the fact that 90% of overall vaccination coverage is just slightly below the HIT, unprotected individuals may pose an elevated epidemiological risk. According to the SEIR model, ≥74% of susceptible individuals are expected to get infected. Estimations based on the input data of a local epidemic may suggest an even lower effective coverage rate (80%) in certain clusters of the population.
Conclusion: Serological survey-based, historical and model-computed results are in agreement. A practical demonstration of epidemiological events of the past and present may promote a higher awareness of infectious diseases. Because of the high R0 value of measles, continuous large-scale monitoring of humoral immunity levels is important. |
| topic |
mmr vaccine humoral antibody epidemics seir model |
| url |
http://seemedj.mefos.unios.hr/index.php/seemedj/article/view/199/94 |
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