Herd Immunity to Ebolaviruses is not a Realistic Target for Current Vaccination Strategies

Masterson, Stuart G; Lobel, Leslie; Carroll, Miles W.; Wass, Mark N.; Michaelis, Martin

doi:10.1101/289249

Cited by 3 publications

(4 citation statements)

References 50 publications

(59 reference statements)

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“…In the literature, R 0 and HIT values are generally estimated as follows: R 0 Measles = 12–18, HIT Measles = 92–95%, R 0Mumps = 4–12, HIT Mumps = 75–86%, R 0Rubella = 5–7, HIT Rubella = 83–86% [35]. Often used models for population-level estimation are the HIT ( I c ); I c = 1 − (1/ R 0 ), and the critical vaccination coverage ( V c ); V c = I c / E , where E is vaccine effectiveness [34–37]. Despite the remarkable theoretical knowledge, public health practice aims at 100% coverage, with all the doses recommended, bearing in mind that – because of the diversity of individual immune responses – 100% is never achievable.…”

Section: Discussionmentioning

confidence: 99%

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Application of a fast and cost-effective ‘three-in-one’ MMR ELISA as a tool for surveying anti-MMR humoral immunity: the Hungarian experience

et al. 2020

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In Hungary, between February 2017 and July 2019, 70 confirmed measles cases were reported, raising questions about the adequacy of population-level immunity. Although the assumed vaccination coverage is ≥99%, in a recent study, we detected potential gaps in the anti-measles humoral immunity. In Hungary, according to a decree by the Ministry of Public Welfare, beginning from 2021, the healthcare provider should conduct a serosurvey of anti-measles protection levels of healthcare professionals. To facilitate the compliance with this requirement, we developed a quick ‘three-in-one’ or ‘triple’ MMR (measles, mumps and rubella) indirect ELISA (IgG); an assay format that is currently not available commercially. High throughput applicability of the ‘three-in-one’ ELISA was verified using 1736 sera from routine laboratory residual samples, using an automated platform (Siemens BEP 2000 Advance). Assay verification was performed by comparing the full antigen repertoire-based ‘target’ assay with in-house ‘control’ assays using recombinant viral antigen coatings, and by validated commercially available kits. Indirect immunofluorescence was used as an independent reference method. Data were analysed using OriginLab, IBM SPSS, RStudio and MedCalc. In case of measles, we combined our current results with previously published data (Ntotal measles = 3523). Evaluation of anti-mumps and anti-rubella humoral antibody levels was based on the measurement of 1736 samples. The lowest anti-measles seropositivity (79.3%) was detected in sera of individuals vaccinated between 1978 and 1987. Considering the antigen-specific seropositivity ratios of all samples measured, anti-measles, -mumps and -rubella IgG antibody titres were adequate in 89.84%, 91.82% and 92.28%, respectively. Based on the virus-specific herd immunity threshold (HIT) values (HITMeasles = 92–95%, HITMumps = 75–86%, HITRubella = 83–86), it can be stated that regarding anti-measles immunity, certain age clusters of the population may have inadequate levels of humoral immunity. Despite the potential gaps in herd immunity, the use of MMR vaccine remains an effective and low-cost approach for the prevention of measles, mumps and rubella infections.

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Section: Discussionmentioning

confidence: 99%

“…the critical vaccination coverage (V c ); V c = I c /E, where E is vaccine effectiveness [34][35][36][37]. Despite the remarkable theoretical knowledge, public health practice aims at 100% coverage, with all the doses recommended, bearing in mind thatbecause of the diversity of individual immune responses -100% is never achievable.…”

mentioning

confidence: 99%

Application of a fast and cost-effective ‘three-in-one’ MMR ELISA as a tool for surveying anti-MMR humoral immunity: the Hungarian experience

et al. 2020

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“…To illustrate the problems of achieving herd immunity Masterson et al showed this is not a realistic target for current vaccination strategies, using Ebola outbreaks as an example [32]. They analysed the requirements for a prophylactic program based on the basic reproductive number R0.…”

Section: Ebola Vaccinationsmentioning

confidence: 99%

Herd Immunity: A Realistic Target?

Naafs¹

2018

BJSTR

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In this mini-review herd immunity is discussed by reviewing some recent vaccination campaigns for HPV, MEN-C, MEN-W and Ebola. It is concluded that vaccination coverage is rapidly declining due to societal factors, financial and logistical hurdles. Herd immunity depends now on unpredictable herd effects, Secondary declining transmission dynamics and carriage figures favour strong herd effects. Different target populations in the MEN-W vaccination programs of the UK and the Netherlands don't improve public confidence in an anti-vaxxers climate. Herd immunity is not a realistic target anymore and is dependent on herd effects varying with vaccination coverage percentages and this should be explained to the public in a clear way.

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“…While there is a vaccine for diphtheria, measles, mumps, pertussis, polio, rubella, smallpox, and influenza, Ebola vaccines, although proven effective, are not being used due to questions on the effectiveness of the vaccine over a long period, and also the vaccination would be costly. Several patients who were tried to be vaccinated in West Africa during the Ebola outbreak refused to vaccinate [25] [26]. There is also no vaccine developed to date for the coronaviruses like SARS and MERS.…”

Section: Herd Immunitymentioning

confidence: 99%

A Comparative Study of Challenges and Strategic Management: Lessons Learned from SARS, MERS, HIV & Ebola Outbreaks

Saraff¹,

Rishipal²,

Bhattacharyya³

et al. 2018

EAI Endorsed Transactions on Smart Cities

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INTRODUCTION: The challenges related to several viral outbreaks spanning over the centuries have exceeded human resources and capacities of the health departments to deal with the consequent adversities. Each epidemic or pandemic faced has brought out the inequalities and gaps in our systems and infrastructure. OBJECTIVES: The focus of the current paper is to do a comparative study of complex challenges faced and strategies adopted by governments during the SARS, MERS, HIV, and Ebola outbreaks. METHODS: To achieve the objective, a comprehensive summary of the challenges that the world has faced, and lessons learned from the strategic management of these viral outbreaks were analysed. CONCLUSION: An inclusive approach for the development of a multi-pronged strategic framework to benefit the concerned or affected stakeholders is discussed. These actions can guide health care workers and individuals to be aware of health hazards and complexities.

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Herd Immunity to Ebolaviruses is not a Realistic Target for Current Vaccination Strategies

Cited by 3 publications

References 50 publications

Application of a fast and cost-effective ‘three-in-one’ MMR ELISA as a tool for surveying anti-MMR humoral immunity: the Hungarian experience

Application of a fast and cost-effective ‘three-in-one’ MMR ELISA as a tool for surveying anti-MMR humoral immunity: the Hungarian experience

Herd Immunity: A Realistic Target?

A Comparative Study of Challenges and Strategic Management: Lessons Learned from SARS, MERS, HIV & Ebola Outbreaks

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