Add to ORKGAbstract: Our study utilizes network science to examine how uneven vaccine distribution affects mass vaccination strategies in the United States. Using mobility network data and epidemiological models, we find that distributing a fixed quantity of additional vaccines across Census Block Groups (CBGs) can vary case count reductions by up to 200%. This highlights the impact of vaccination heterogeneity in mobility networks on epidemic outcomes. Our efficient algorithm identifies optimal vaccine distribution for maximum case reduction. Simulations show a possible 9.5% decrease in case numbers with just a 1% increase in the national vaccination rate if vaccines are optimally distributed. This result surpasses those from other vaccine...
Published: 14 January 2022A twenty-year-old idea from network science is that vaccination campaigns ...
Vaccination is the most efficient means of preventing influenza infection and its complications. Whi...
As immunization campaigns are accelerating, understanding how to distribute the scarce doses of vacc...
A novel statistical model based on a two-layer, contact and information, graph is suggested in order...
We propose and study an epidemiological model on a social network that takes into account heterogene...
<div><p>Schools are known to play a significant role in the spread of influenza. High vaccination co...
Publisher Copyright: © 2022 Molla et al. This is an open access article distributed under the terms ...
As immunization campaigns are accelerating, understanding how to distribute the scarce doses of vacc...
We employ the epidemic Renormalization Group (eRG) framework to understand, reproduce and predict th...
The resurgence of measles is largely attributed to the decline in vaccine adoption and the increase ...
Background: Approval of novel vaccines for COVID-19 has brought hope and expectations, but not witho...
Abstract Many countries that had early access to COVID-19 vaccines implemented vaccination strategie...
The effectiveness of a mass vaccination program can engender its own undoing if individuals choose t...
November 2020 received a string of encouraging results from leading vaccine developers raising hopes...
We evaluate the efficiency of various heuristic strategies for allocating vaccines against COVID-19 ...
Published: 14 January 2022A twenty-year-old idea from network science is that vaccination campaigns ...
Vaccination is the most efficient means of preventing influenza infection and its complications. Whi...
As immunization campaigns are accelerating, understanding how to distribute the scarce doses of vacc...
A novel statistical model based on a two-layer, contact and information, graph is suggested in order...
We propose and study an epidemiological model on a social network that takes into account heterogene...
<div><p>Schools are known to play a significant role in the spread of influenza. High vaccination co...
Publisher Copyright: © 2022 Molla et al. This is an open access article distributed under the terms ...
As immunization campaigns are accelerating, understanding how to distribute the scarce doses of vacc...
We employ the epidemic Renormalization Group (eRG) framework to understand, reproduce and predict th...
The resurgence of measles is largely attributed to the decline in vaccine adoption and the increase ...
Background: Approval of novel vaccines for COVID-19 has brought hope and expectations, but not witho...
Abstract Many countries that had early access to COVID-19 vaccines implemented vaccination strategie...
The effectiveness of a mass vaccination program can engender its own undoing if individuals choose t...
November 2020 received a string of encouraging results from leading vaccine developers raising hopes...
We evaluate the efficiency of various heuristic strategies for allocating vaccines against COVID-19 ...
Published: 14 January 2022A twenty-year-old idea from network science is that vaccination campaigns ...
Vaccination is the most efficient means of preventing influenza infection and its complications. Whi...
As immunization campaigns are accelerating, understanding how to distribute the scarce doses of vacc...