Current developments in dementia risk prediction modelling: An updated systematic review

Eugene Tang, Stephanie Harrison, Linda Errington, Mark Gordon, Pieter Visser, Gerald Novak, Carole Dufoil, Carol Brayne, Louise Robinson, Lenore Launer, Blossom Stephan

    Research output: Contribution to journalReview articlepeer-review

    88 Citations (Scopus)


    Background: Accurate identification of individuals at high risk of dementia influences clinical care, inclusion criteria for clinical trials and development of preventative strategies. Numerous models have been developed for predicting dementia. To evaluate these models we undertook a systematic review in 2010 and updated this in 2014 due to the increase in research published in this area. Here we include a critique of the variables selected for inclusion and an assessment of model prognostic performance. Methods: Our previous systematic review was updated with a search from January 2009 to March 2014 in electronic databases (MEDLINE, Embase, Scopus, Web of Science). Articles examining risk of dementia in non-demented individuals and including measures of sensitivity, specificity or the area under the curve (AUC) or c-statistic were included. Findings: In total, 1,234 articles were identified from the search; 21 articles met inclusion criteria. New developments in dementia risk prediction include the testing of non-APOE genes, use of non-traditional dementia risk factors, incorporation of diet, physical function and ethnicity, and model development in specific subgroups of the population including individuals with diabetes and those with different educational levels. Four models have been externally validated. Three studies considered time or cost implications of computing the model. Interpretation: There is no one model that is recommended for dementia risk prediction in populationbased settings. Further, it is unlikely that one model will fit all. Consideration of the optimal features of new models should focus on methodology (setting/sample, model development and testing in a replication cohort) and the acceptability and cost of attaining the risk variables included in the prediction score. Further work is required to validate existing models or develop new ones in different populations as well as determine the ethical implications of dementia risk prediction, before applying the particular models in population or clinical settings.

    Original languageEnglish
    Article numbere0136181
    Pages (from-to)Art: e0136181
    Number of pages31
    JournalPLoS One
    Issue number9
    Publication statusPublished - 3 Sep 2015


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