ESTIMATING GLOBAL AND COUNTRY-SPECIFIC EXCESS MORTALITY DURING THE COVID-19 PANDEMIC

Article

Knutson, Victoria; Aleshin-Guendel, Serge; Karlinsky, Ariel; Msemburi, William; Wakefield, Jon

University of Washington; University of Washington Seattle; Hebrew University of Jerusalem; Hebrew University of Jerusalem; World Health Organization; University of Washington; University of Washington Seattle

ANNALS OF APPLIED STATISTICS

1932-6157

10.1214/22-AOAS1673

2023

1353-1374

Estimating the true mortality burden of COVID-19 for every country in the world is a difficult, but crucial, public health endeavor. Attributing deaths, direct or indirect, to COVID-19 is problematic. A more attainable target is the excess deaths, the number of deaths in a particular period, relative to that expected during normal times, and we develop a model for this endeavor. The excess mortality requires two numbers, the total deaths and the expected deaths, but the former is unavailable for many countries, and so modeling is required for such countries. The expected deaths are based on historic data, and we develop a model for producing estimates of these deaths for all countries. We allow for uncertainty in the modeled expected numbers when calculating the excess. The methods we describe were used to produce the World Health Organization (WHO) excess death estimates. To achieve both interpretability and transparency we developed a relatively simple overdispersed Poisson count framework within which the various data types can be modeled. We use data from countries with national monthly data to build a predictive log-linear regression model with time-varying coefficients for countries without data. For a number of countries, subnational data only are available, and we construct a multinomial model for such data, based on the assumption that the fractions of deaths in subregions remain approximately constant over time. Our inferential approach is Bayesian, with the covariate predictive model being implemented in the fast and accurate INLA software. The subnational modeling was carried out using MCMC in Stan. Based on our modeling, the point estimate for global excess mortality during 2020-2021 is 14.8 million, with a 95% credible interval of (13.2, 16.6) million.

访问原文