Literature DB >> 30597156

A forecasting model of disease prevalence based on the McKendrick-von Foerster equation.

I Akushevich1, A Yashkin2, J Kravchenko3, F Fang4, K Arbeev2, F Sloan5, A I Yashin2.   

Abstract

A new model for disease prevalence based on the analytical solutions of McKendric-von Foerster's partial differential equations is developed. Derivation of the model and methods to cross check obtained results are explicitly demonstrated. Obtained equations describe the time evolution of the healthy and unhealthy age-structured sub-populations and age patterns of disease prevalence. The projection of disease prevalence into the future requires estimates of time trends of age-specific disease incidence, relative survival functions, and prevalence at the initial age and year available in the data. The computational scheme for parameter estimations using Medicare data, analytical properties of the model, application for diabetes prevalence, and relationship with partitioning models are described and discussed. The model allows natural generalization for the case of several diseases as well as for modeling time trends in cause-specific mortality rates.
Copyright © 2018. Published by Elsevier Inc.

Entities:  

Keywords:  Forecasting; Lee-Carter; Medicare; Partitioning; Prevalence; Projections; Time series; Type II Diabetes

Mesh:

Year:  2018        PMID: 30597156      PMCID: PMC6916255          DOI: 10.1016/j.mbs.2018.12.017

Source DB:  PubMed          Journal:  Math Biosci        ISSN: 0025-5564            Impact factor:   2.144


  13 in total

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2.  A dynamic Markov model for forecasting diabetes prevalence in the United States through 2050.

Authors:  Amanda A Honeycutt; James P Boyle; Kristine R Broglio; Theodore J Thompson; Thomas J Hoerger; Linda S Geiss; K M Venkat Narayan
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4.  Global estimates of diabetes prevalence for 2013 and projections for 2035.

Authors:  L Guariguata; D R Whiting; I Hambleton; J Beagley; U Linnenkamp; J E Shaw
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5.  Theory of partitioning of disease prevalence and mortality in observational data.

Authors:  I Akushevich; A P Yashkin; J Kravchenko; F Fang; K Arbeev; F Sloan; A I Yashin
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6.  Projection of diabetes burden through 2050: impact of changing demography and disease prevalence in the U.S.

Authors:  J P Boyle; A A Honeycutt; K M Narayan; T J Hoerger; L S Geiss; H Chen; T J Thompson
Journal:  Diabetes Care       Date:  2001-11       Impact factor: 19.112

7.  Projection of the year 2050 burden of diabetes in the US adult population: dynamic modeling of incidence, mortality, and prediabetes prevalence.

Authors:  James P Boyle; Theodore J Thompson; Edward W Gregg; Lawrence E Barker; David F Williamson
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8.  Recovery and survival from aging-associated diseases.

Authors:  Igor Akushevich; Julia Kravchenko; Svetlana Ukraintseva; Konstantin Arbeev; Anatoliy I Yashin
Journal:  Exp Gerontol       Date:  2013-05-23       Impact factor: 4.032

9.  Alzheimer disease in the United States (2010-2050) estimated using the 2010 census.

Authors:  Liesi E Hebert; Jennifer Weuve; Paul A Scherr; Denis A Evans
Journal:  Neurology       Date:  2013-02-06       Impact factor: 9.910

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Journal:  Ophthalmology       Date:  2014-06-26       Impact factor: 12.079
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  2 in total

1.  Partitioning of time trends in prevalence and mortality of bladder cancer in the United States.

Authors:  Igor Akushevich; Arseniy P Yashkin; Brant A Inman; Frank Sloan
Journal:  Ann Epidemiol       Date:  2020-06-03       Impact factor: 3.797

2.  Geographic disparities in mortality from Alzheimer's disease and related dementias.

Authors:  Igor Akushevich; Arseniy P Yashkin; Anatoliy I Yashin; Julia Kravchenko
Journal:  J Am Geriatr Soc       Date:  2021-05-19       Impact factor: 7.538
  2 in total

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