A dynamic microsimulation method for estimating dementia costs in the United States
Bryan Tysinger, Hanke Heun‐Johnson, Duncan Leaf, Johanna Thunell, Dana Goldman, Julie ZissimopoulosAbstract
INTRODUCTION
Addressing dementia's substantial economic burden on individuals, families, health systems, governments, and payers, requires integrating national data and advanced analytic methods.
METHODS
We described data sources, measures, and simulation methods of a dynamic microsimulation model developed for quantifying dementia costs in the United States and for assessing impact of innovation and change over time. Model internal validation was assessed.
RESULTS
Using nationally representative Health and Retirement Study data on adults over age 50, Medicare and other national data, we produced estimates of individual‐level health and economic outcomes over time. Estimates and simulation enabled measurement of population‐level dementia prevalence, medical and long‐term care costs, unpaid caregiving valuation, quality‐of‐life, and earnings for persons living with dementia and care partners. Counterfactual scenarios quantified dementia‐related quality‐of‐life and earnings losses. Simulated outcomes aligned with observed data.
CONCLUSIONS
Transparent methods support replication, extension, and informed use of dementia cost estimates in research and policy.