A modelling study has shown that expediting COVID-19 vaccination reduces hospitalisations and deaths, increases quality-adjusted life years (QALYs) and is cost saving in the USA.

The researchers adapted a computational model that represented the US population (n = 327 million), its interactions, COVID-19 spread and vaccination, as well as potential COVID-related economic outcomes over 3 years. The vaccine was assumed to prevent infection with no waning immunity. Experimental scenarios compared various vaccine coverage levels (from 10%−90%) and vaccination rates, with varying times to achieve the various coverage levels (180-360 days). Third-party payer cost data included total direct medical costs (including vaccination and hospitalisation), and the societal perspective included direct and indirect costs (productivity loss from COVID-19 illness). Costs were reported in 2020 values and were discounted at 3% per annum.

When a given vaccination coverage is achieved in 270 days with 70% vaccine efficacy, each 1% in coverage would avert 876 800 cases, varying according to the number of people already vaccinated: each 1% increase from 40% to 50% coverage would prevent 1.5 million COVID-19 cases, 56 240 hospitalisations, 6660 deaths, gain 77 590 quality-adjusted life years (QALYs), save $US602.8 million in direct medical costs and $1.3 billion in indirect costs. Speeding up the time to vaccination coverage to 180 days could save another 5.8 million cases, 215,790 hospitalisations, 26 370 deaths, 206 520 QALYs, $3.5 billion in direct medical costs, and $4.3 billion in indirect costs.

The authors point out that "increasing vaccination coverage can be as important as or even more important than having a higher efficacy vaccine. . . Our results also show how the time it takes to reach different coverage levels can affect the impact and value of the COVID-19 vaccine, showing the importance of achieving high coverage levels as soon as possible".