Estimating incidence and prevalence rates of chronic diseases using disease modeling

Hendrike C. Boshuizen; Marinus J. J. C. Poos; Marjan van den Akker; Kees van Boven; Joke C. Korevaar; Margot W. M. de Waal; Marion C. J. Biermans; Nancy Hoeymans

doi:10.1186/s12963-017-0130-8

Estimating incidence and prevalence rates of chronic diseases using disease modeling

Hendrike C. Boshuizen^*, Marinus J. J. C. Poos, Marjan van den Akker, Kees van Boven, Joke C. Korevaar, Margot W. M. de Waal, Marion C. J. Biermans, Nancy Hoeymans

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Background: Morbidity estimates between different GP registration networks show large, unexplained variations. This research explores the potential of modeling differences between networks in distinguishing new (incident) cases from existing (prevalent) cases in obtaining more reliable estimates.

Methods: Data from five Dutch GP registration networks and data on four chronic diseases (chronic obstructive pulmonary disease [COPD], diabetes, heart failure, and osteoarthritis of the knee) were used. A joint model (DisMod model) was fitted using all information on morbidity (incidence and prevalence) and mortality in each network, including a factor for misclassification of prevalent cases as incident cases.

Results: The observed estimates vary considerably between networks. Using disease modeling including a misclassification term improved the consistency between prevalence and incidence rates, but did not systematically decrease the variation between networks. Osteoarthritis of the knee showed large modeled misclassifications, especially in episode of care-based registries.

Conclusion: Registries that code episodes of care rather than disease generally provide lower estimates of the prevalence of chronic diseases requiring low levels of health care such as osteoarthritis. For other diseases, modeling misclassification rates does not systematically decrease the variation between registration networks. Using disease modeling provides insight in the reliability of estimates.

Original language	English
Article number	13
Number of pages	14
Journal	Population Health Metrics
Volume	15
DOIs	https://doi.org/10.1186/s12963-017-0130-8
Publication status	Published - 5 Apr 2017

Keywords

Incidence-prevalence-mortality model
General practitioner
General practice registration
Morbidity
Public health
Burden of disease
ELECTRONIC MEDICAL-RECORDS
ESTIMATING MORBIDITY RATES
GENERAL-PRACTICE
GROUPING SYSTEM
NETHERLANDS

Access to Document

10.1186/s12963-017-0130-8Licence: CC BY

Cite this

@article{28285ab87f02465abb04439ffb28e224,

title = "Estimating incidence and prevalence rates of chronic diseases using disease modeling",

abstract = "Background: Morbidity estimates between different GP registration networks show large, unexplained variations. This research explores the potential of modeling differences between networks in distinguishing new (incident) cases from existing (prevalent) cases in obtaining more reliable estimates.Methods: Data from five Dutch GP registration networks and data on four chronic diseases (chronic obstructive pulmonary disease [COPD], diabetes, heart failure, and osteoarthritis of the knee) were used. A joint model (DisMod model) was fitted using all information on morbidity (incidence and prevalence) and mortality in each network, including a factor for misclassification of prevalent cases as incident cases.Results: The observed estimates vary considerably between networks. Using disease modeling including a misclassification term improved the consistency between prevalence and incidence rates, but did not systematically decrease the variation between networks. Osteoarthritis of the knee showed large modeled misclassifications, especially in episode of care-based registries.Conclusion: Registries that code episodes of care rather than disease generally provide lower estimates of the prevalence of chronic diseases requiring low levels of health care such as osteoarthritis. For other diseases, modeling misclassification rates does not systematically decrease the variation between registration networks. Using disease modeling provides insight in the reliability of estimates.",

keywords = "Incidence-prevalence-mortality model, General practitioner, General practice registration, Morbidity, Public health, Burden of disease, ELECTRONIC MEDICAL-RECORDS, ESTIMATING MORBIDITY RATES, GENERAL-PRACTICE, GROUPING SYSTEM, NETHERLANDS",

author = "Boshuizen, {Hendrike C.} and Poos, {Marinus J. J. C.} and {van den Akker}, Marjan and {van Boven}, Kees and Korevaar, {Joke C.} and {de Waal}, {Margot W. M.} and Biermans, {Marion C. J.} and Nancy Hoeymans",

year = "2017",

month = apr,

day = "5",

doi = "10.1186/s12963-017-0130-8",

language = "English",

volume = "15",

journal = "Population Health Metrics",

issn = "1478-7954",

publisher = "BioMed Central Ltd",

}

TY - JOUR

T1 - Estimating incidence and prevalence rates of chronic diseases using disease modeling

AU - Boshuizen, Hendrike C.

AU - Poos, Marinus J. J. C.

AU - van den Akker, Marjan

AU - van Boven, Kees

AU - Korevaar, Joke C.

AU - de Waal, Margot W. M.

AU - Biermans, Marion C. J.

AU - Hoeymans, Nancy

PY - 2017/4/5

Y1 - 2017/4/5

N2 - Background: Morbidity estimates between different GP registration networks show large, unexplained variations. This research explores the potential of modeling differences between networks in distinguishing new (incident) cases from existing (prevalent) cases in obtaining more reliable estimates.Methods: Data from five Dutch GP registration networks and data on four chronic diseases (chronic obstructive pulmonary disease [COPD], diabetes, heart failure, and osteoarthritis of the knee) were used. A joint model (DisMod model) was fitted using all information on morbidity (incidence and prevalence) and mortality in each network, including a factor for misclassification of prevalent cases as incident cases.Results: The observed estimates vary considerably between networks. Using disease modeling including a misclassification term improved the consistency between prevalence and incidence rates, but did not systematically decrease the variation between networks. Osteoarthritis of the knee showed large modeled misclassifications, especially in episode of care-based registries.Conclusion: Registries that code episodes of care rather than disease generally provide lower estimates of the prevalence of chronic diseases requiring low levels of health care such as osteoarthritis. For other diseases, modeling misclassification rates does not systematically decrease the variation between registration networks. Using disease modeling provides insight in the reliability of estimates.

AB - Background: Morbidity estimates between different GP registration networks show large, unexplained variations. This research explores the potential of modeling differences between networks in distinguishing new (incident) cases from existing (prevalent) cases in obtaining more reliable estimates.Methods: Data from five Dutch GP registration networks and data on four chronic diseases (chronic obstructive pulmonary disease [COPD], diabetes, heart failure, and osteoarthritis of the knee) were used. A joint model (DisMod model) was fitted using all information on morbidity (incidence and prevalence) and mortality in each network, including a factor for misclassification of prevalent cases as incident cases.Results: The observed estimates vary considerably between networks. Using disease modeling including a misclassification term improved the consistency between prevalence and incidence rates, but did not systematically decrease the variation between networks. Osteoarthritis of the knee showed large modeled misclassifications, especially in episode of care-based registries.Conclusion: Registries that code episodes of care rather than disease generally provide lower estimates of the prevalence of chronic diseases requiring low levels of health care such as osteoarthritis. For other diseases, modeling misclassification rates does not systematically decrease the variation between registration networks. Using disease modeling provides insight in the reliability of estimates.

KW - Incidence-prevalence-mortality model

KW - General practitioner

KW - General practice registration

KW - Morbidity

KW - Public health

KW - Burden of disease

KW - ELECTRONIC MEDICAL-RECORDS

KW - ESTIMATING MORBIDITY RATES

KW - GENERAL-PRACTICE

KW - GROUPING SYSTEM

KW - NETHERLANDS

U2 - 10.1186/s12963-017-0130-8

DO - 10.1186/s12963-017-0130-8

M3 - Article

C2 - 28381229

SN - 1478-7954

VL - 15

JO - Population Health Metrics

JF - Population Health Metrics

M1 - 13

ER -