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Population Health Metrics
Published in: Population Health Metrics 1/2017

Open Access 01-12-2017 | Research

On the plausibility of socioeconomic mortality estimates derived from linked data: a demographic approach

Authors: Mathias Lerch, Adrian Spoerri, Domantas Jasilionis, Francisco Viciana Fernandèz

Published in: Population Health Metrics | Issue 1/2017

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Abstract

Background

Reliable estimates of mortality according to socioeconomic status play a crucial role in informing the policy debate about social inequality, social cohesion, and exclusion as well as about the reform of pension systems. Linked mortality data have become a gold standard for monitoring socioeconomic differentials in survival. Several approaches have been proposed to assess the quality of the linkage, in order to avoid the misclassification of deaths according to socioeconomic status. However, the plausibility of mortality estimates has never been scrutinized from a demographic perspective, and the potential problems with the quality of the data on the at-risk populations have been overlooked.

Methods

Using indirect demographic estimation (i.e., the synthetic extinct generation method), we analyze the plausibility of old-age mortality estimates according to educational attainment in four European data contexts with different quality issues: deterministic and probabilistic linkage of deaths, as well as differences in the methodology of the collection of educational data. We evaluate whether the at-risk population according to educational attainment is misclassified and/or misestimated, correct these biases, and estimate the education-specific linkage rates of deaths.

Results

The results confirm a good linkage of death records within different educational strata, even when probabilistic matching is used. The main biases in mortality estimates concern the classification and estimation of the person-years of exposure according to educational attainment. Changes in the census questions about educational attainment led to inconsistent information over time, which misclassified the at-risk population. Sample censuses also misestimated the at-risk populations according to educational attainment.

Conclusion

The synthetic extinct generation method can be recommended for quality assessments of linked data because it is capable not only of quantifying linkage precision, but also of tracking problems in the population data. Rather than focusing only on the quality of the linkage, more attention should be directed towards the quality of the self-reported socioeconomic status at censuses, as well as towards the accurate estimation of the at-risk populations.
Footnotes
1
Inconsistencies in the information on education were possible for some cases, e.g. higher educational attainment in 2000 compared to 1990, especially for certain age groups, but not the other way round.
 
2
In Switzerland, a significant share of missing values have been imputed by the Statistical Office (especially at the 2000 Census), and we allocated the remaining numbers among each sex and age-specific subpopulation proportionally. In Finland and Lithuania, missings were regrouped with the lowest educated stratum based on previous tests of similarity. In Andalucia, all missings were imputed by the statistical office.
 
3
To test the effect of emigration of native Swiss, one may adjust the sex-, age-, and education-specific population counts in 2000 for the numbers of Swiss nationals who moved abroad since 1990. However, we are unable to perform this sensitivity analysis as only total numbers are published by the Swiss Federal Statistical Office; the small number of 76,000 is unlikely to introduce significant biases.
 
4
We experimented with different redistributions across our three broad education categories of the counts of the two new detailed educational classes in the 2011 Census, but results changed only marginally (not shown).
 
Literature
1.
Avendano M, Kok R, Glymour M, Berkman L, Kawachi I, Kunst A, et al. Consortium wsfmotE: do Americans have higher mortality than Europeans at all levels of the education distribution?: a comparison of the United States and 14 European countries. In: Crimmins EM, Preston SH, Cohen B, editors. International differences in mortality at older ages: dimensions and sources. Washington, D.C: The National Academic Press; 2011. p. 313–32.
2.
Valkonen T. Les inégalités sociales devant la mort. In: Graziella Caselli JV, Wunsch G, editors. Démographie: analyse et synthèse. Volume III. Paris: PUF-INED; 2002. p. 319–50.
3.
Fellegi IP, Sunter AB. A theory for record linkage. J Am Stat Assoc. 1969;64(328):1183–210.CrossRef
4.
Blakely T, Fawcett J. Bias measuring mortality gradients by occupational class in New Zealand. The New Zealand Medical Journal. 2005;118(1208):U1253.PubMed
5.
Rey G, Rican S, Luce D, Menvielle G, Jougla E. Measuring social inequalities in cause-specific mortality in France: comparison between linked and unlinked approaches. Rev Epidemiol Sante Publique. 2013;61:221–31.CrossRefPubMed
6.
Jasilionis D, Stankuniene V, Ambrozaitiene D, Jdanov DA, Shkolnikov VM. Ethnic mortality differentials in Lithuania: contradictory evidence from census-linked and unlinked mortality estimates. J Epidemiol Community Health. 2012;66:e7.CrossRefPubMed
7.
Lerch M, Oris M, Wanner P, Forney Y, Dutreuilh C. Religious affiliation and mortality in Switzerland, 1991-2004. Population-E. 2010;2:217–50.CrossRef
8.
Shkolnikov VM, Jasilionis D, Andreev EM, Jdanov DA, Stankuniene V, Ambrozaitiene D. Linked versus unlinked estimates of mortality and length of life by education and marital status: evidence from the first record linkage study in Lithuania. Soc Sci Med. 2007;64(7):1392–406.CrossRefPubMed
9.
Christen P: Data matching-concepts and techniques for record linkage, entity resolution, and duplicate detection. Berlin: Springer Berlin Heidelberg; 2012.
10.
Lariscy JT. Differential record linkage by Hispanic ethnicity and age in linked mortality studies: implications for the epidemiologic paradox. Journal of Aging and Health. 2011;23(8):1263–84.CrossRefPubMedPubMedCentral
11.
Kabudula C, Joubert J, Tuoane-Nkhasi M, Kahn K, Rao C, Gómez-Olivé F, et al. Evaluation of record linkage of mortality data between a health and demographic surveillance system and national civil registration system in South Africa. Popul Health Metrics. 2014;12(1):1–11.CrossRef
12.
O'Reilly D, Rosato M, Conolly S. Unlinked vital events in census-based longitudinal studies can bias subsequent analysis. J Clin Epidemiol. 2008;61:380–5.CrossRefPubMed
13.
Moore CL, Amin J, Gidding HF, Law MG. A new method for assessing how sensitivity and specificity of linkage studies affects estimation. PLoS One. 2014;9(7):e103690.CrossRefPubMedPubMedCentral
14.
Hill K, You D, Choi Y. Death distribution methods for estimating adult mortality: sensitivity analysis with simulated data error. Demogr Res. 2009;21(9):235–54.CrossRef
15.
Murray C, Rajaratnam J, Marcus J, Laakso T, Lopez A. What can we conclude from death registration? Improved methods for evaluating completeness. PLoS Med. 2010;7(4):e1000262.CrossRefPubMedPubMedCentral
16.
Bopp M, Spoerri A, Zwahlen M, Gutzwiller F, Paccaud F, Braun-Fahrländer C, et al. Cohort profile: the Swiss National Cohort–a longitudinal study of 6.8 million people. Int J Epidemiology. 2009;38(2):379–84.CrossRef
17.
Spoerri A, Zwahlen M, Egger M, Bopp M. The Swiss National Cohort: a unique database for national and international researchers. International Journal of Public Health. 2010;55:239–42.CrossRefPubMed
18.
Schmidlin K, Clough-Gorr KM, Spoerri A, Egger M, Zwahlen M. Impact of unlinked deaths and coding changes on mortality trends in the Swiss National Cohort. BMC Med Inform Decis Mak. 2013;13:1.CrossRefPubMedPubMedCentral
19.
Fernández FV, Montañés Cobo V, Cánovas Balboa R, Poza Cruz E. Base de Datos Longitudinal de Población de Andalucía (BDLPA): Modelo de datos y sistema de gestión. In: Jornadas de Estadistica de las Comunidades Autonomas, 20–23 Octubre 2010; 2010.
20.
Bennett NG, Horiuchi S. Estimating the completeness of death registration in a closed population. Population Index. 1981;47(2):207–21.CrossRef
21.
Bennett NG, Horiuchi S. Mortality estimation from registered deaths in less developed countries. Demography. 1984;21(2):217–33.CrossRefPubMed
22.
23.
United Nations. Methods for estimating adult mortality. New York: United Nations Department of Economic and Social Affairs; 2002.
24.
Moultrie T, Dorrington R, Hill A, Hill K, Timaeus I, Zaba B: Tools for Demographic Estimation. Paris: International Union for the Scientific Study of population (IUSSP); 2013.
25.
BFS. Abschlussbericht zur Volkszählung 2000. Neuchatel: Bundesamt für Statistik (BFS); 2005.
Metadata
Title
On the plausibility of socioeconomic mortality estimates derived from linked data: a demographic approach
Authors
Mathias Lerch
Adrian Spoerri
Domantas Jasilionis
Francisco Viciana Fernandèz
Publication date
01-12-2017
Publisher
BioMed Central
Published in
Population Health Metrics / Issue 1/2017
Electronic ISSN: 1478-7954
DOI
https://doi.org/10.1186/s12963-017-0143-3

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