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Somogyi Róbert és Méder Zsombor cikke megjelent az Epidemics szakfolyóiratban


Optimal capacity sharing for global genomic surveillance



  • Countries should share their genomic sequencing capacities, esp. during pandemics.
  • For prevalence estimation, a square-root-rule determines opt. capacity distribution.

  • To identify mutations, sequencing efforts should pivot where most infections occur.

  • In 2021, sequencing of SARS-CoV-2 was both highly unequal and suboptimal.


Recent technological advances and substantial cost reductions have made the genomic surveillance of pathogens during pandemics feasible. Our paper focuses on full genome sequencing as a tool that can serve two goals: the estimation of variant prevalences, and the identification of new variants.


Assuming that capacity constraints limit the number of samples that can be sequenced, we solve for the optimal distribution of these capacities among countries.

Our results show that if the principal goal of sequencing is prevalence estimation, then the optimal capacity distribution is less than proportional to the weights (e.g., sizes) of countries.


If, however, the main aim of sequencing is the detection of new variants, capacities should be allocated to countries or regions that have the most infections. Applying our results to the sequencing of SARS-CoV-2 in 2021, we provide a comparison between the observed and a suggested optimal capacity distribution worldwide and in the EU. We believe that following such quantifiable guidance will increase the efficiency of genomic surveillance for pandemics.


Capacity constraint, Genomic surveillance, Optimal allocation, International cooperation