Spatial modeling of vaccine deserts as barriers to controlling SARS-CoV-2

• Published in: Communications medicine Vol. 2; no. 1; p. 141
• Main Authors: Rader, Benjamin, Astley, Christina M, Sewalk, Kara, Delamater, Paul L, Cordiano, Kathryn, Wronski, Laura, Rivera, Jessica Malaty, Hallberg, Kai, Pera, Megan F, Cantor, Jonathan, Whaley, Christopher M, Bravata, Dena M, Lee, Leslie, Patel, Anita, Brownstein, John S
• Format: Journal Article
• Language: English
• Published: England Springer Nature B.V 10.11.2022; Nature Publishing Group UK; Nature Portfolio
• Subjects: American Rescue Plan Act 2021-US; Censuses; Coronaviruses; COVID-19 vaccines; Demography; Disease control; Disease transmission; Drug stores; Health care access; Hispanic Americans; Immunization; Pharmacy; Population; Public health; Rural areas; Severe acute respiratory syndrome coronavirus 2; United States > US; Chicago Illinois
• ISSN: 2730-664X; 2730-664X
• DOI: 10.1038/s43856-022-00183-8

COVID-19 vaccine distribution is at risk of further propagating the inequities of COVID-19, which in the United States (US) has disproportionately impacted the elderly, people of color, and the medically vulnerable. We sought to measure if the disparities seen in the geographic distribution of other COVID-19 healthcare resources were also present during the initial rollout of the COVID-19 vaccine. Using a comprehensive COVID-19 vaccine database (VaccineFinder), we built an empirically parameterized spatial model of access to essential resources that incorporated vaccine supply, time-willing-to-travel for vaccination, and previous vaccination across the US. We then identified vaccine deserts-US Census tracts with localized, geographic barriers to vaccine-associated herd immunity. We link our model results with Census data and two high-resolution surveys to understand the distribution and determinates of spatially accessibility to the COVID-19 vaccine. We find that in early 2021, vaccine deserts were home to over 30 million people, >10% of the US population. Vaccine deserts were concentrated in rural locations and communities with a higher percentage of medically vulnerable populations. We also find that in locations of similar urbanicity, early vaccination distribution disadvantaged neighborhoods with more people of color and older aged residents. Given sufficient vaccine supply, data-driven vaccine distribution to vaccine deserts may improve immunization rates and help control COVID-19.