Theory of Partitioning of Disease Prevalence and Mortality in Observational Data

Overview

Journal Theor Popul Biol

Specialties Biology
Genetics
Reproductive Medicine

Date 2017 Jan 29

PMID 28130147

Citations 14

Authors

I Akushevich

A P Yashkin

J Kravchenko

F Fang

K Arbeev

F Sloan

A I Yashin

Affiliations

Soon will be listed here.

Abstract

In this study, we present a new theory of partitioning of disease prevalence and incidence-based mortality and demonstrate how this theory practically works for analyses of Medicare data. In the theory, the prevalence of a disease and incidence-based mortality are modeled in terms of disease incidence and survival after diagnosis supplemented by information on disease prevalence at the initial age and year available in a dataset. Partitioning of the trends of prevalence and mortality is calculated with minimal assumptions. The resulting expressions for the components of the trends are given by continuous functions of data. The estimator is consistent and stable. The developed methodology is applied for data on type 2 diabetes using individual records from a nationally representative 5% sample of Medicare beneficiaries age 65+. Numerical estimates show excellent concordance between empirical estimates and theoretical predictions. Evaluated partitioning model showed that both prevalence and mortality increase with time. The primary driving factors of the observed prevalence increase are improved survival and increased prevalence at age 65. The increase in diabetes-related mortality is driven by increased prevalence and unobserved trends in time-periods and age-groups outside of the range of the data used in the study. Finally, the properties of the new estimator, possible statistical and systematical uncertainties, and future practical applications of this methodology in epidemiology, demography, public health and health forecasting are discussed.

Citing Articles

Decomposition of Heart Failure Prevalence and Mortality Among Older Adults in the United States: Medicare-Based Partitioning Analysis.

Yu B, Kravchenko J, Yashkin A, Akushevich I JMIR Public Health Surveill. 2024; 10:e51989.

PMID: 39621935 PMC: 11611790. DOI: 10.2196/51989.

Spatiotemporal analysis of diarrhea-related hospitalizations of children in Brazil's Midwest region from 2011 to 2020.

Sartori A, Oliveira L, Pessatto M Rev Bras Epidemiol. 2024; 27:e240035.

PMID: 38922201 PMC: 11207105. DOI: 10.1590/1980-549720240035.

Decomposition of disparities in life expectancy with applications to administrative health claims and registry data.

Akushevich I, Yashkin A, Kovtun M, Stallard E, Yashin A, Kravchenko J Theor Popul Biol. 2023; 153:50-68.

PMID: 37295513 PMC: 10526891. DOI: 10.1016/j.tpb.2023.05.001.

Forecasting prevalence and mortality of Alzheimer's disease using the partitioning models.

Akushevich I, Yashkin A, Kovtun M, Kravchenko J, Arbeev K, Yashin A Exp Gerontol. 2023; 174:112133.

PMID: 36842469 PMC: 10103071. DOI: 10.1016/j.exger.2023.112133.

Underlying mechanisms of change in cancer prevalence in older U.S. adults: contributions of incidence, survival, and ascertainment at early stages.

Akushevich I, Yashkin A, Kovtun M, Yashin A, Kravchenko J Cancer Causes Control. 2022; 33(9):1161-1172.

PMID: 35799033 PMC: 9360135. DOI: 10.1007/s10552-022-01595-6.

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