Utilize este identificador para referenciar este registo: http://hdl.handle.net/10400.1/12285
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dc.contributor.authorPereira, Telma-
dc.contributor.authorFerreira, Francisco L.-
dc.contributor.authorCardoso, Sandra-
dc.contributor.authorSilva, Dina-
dc.contributor.authorde Mendonça, Alexandre-
dc.contributor.authorGuerreiro, Manuela-
dc.contributor.authorMadeira, Sara C.-
dc.identifier.citationBMC Medical Informatics and Decision Making. 2018 Dec 19;18(1):137pt_PT
dc.description.abstractBackground Predicting progression from Mild Cognitive Impairment (MCI) to Alzheimer’s Disease (AD) is an utmost open issue in AD-related research. Neuropsychological assessment has proven to be useful in identifying MCI patients who are likely to convert to dementia. However, the large battery of neuropsychological tests (NPTs) performed in clinical practice and the limited number of training examples are challenge to machine learning when learning prognostic models. In this context, it is paramount to pursue approaches that effectively seek for reduced sets of relevant features. Subsets of NPTs from which prognostic models can be learnt should not only be good predictors, but also stable, promoting generalizable and explainable models. Methods We propose a feature selection (FS) ensemble combining stability and predictability to choose the most relevant NPTs for prognostic prediction in AD. First, we combine the outcome of multiple (filter and embedded) FS methods. Then, we use a wrapper-based approach optimizing both stability and predictability to compute the number of selected features. We use two large prospective studies (ADNI and the Portuguese Cognitive Complaints Cohort, CCC) to evaluate the approach and assess the predictive value of a large number of NPTs. Results The best subsets of features include approximately 30 and 20 (from the original 79 and 40) features, for ADNI and CCC data, respectively, yielding stability above 0.89 and 0.95, and AUC above 0.87 and 0.82. Most NPTs learnt using the proposed feature selection ensemble have been identified in the literature as strong predictors of conversion from MCI to AD. Conclusions The FS ensemble approach was able to 1) identify subsets of stable and relevant predictors from a consensus of multiple FS methods using baseline NPTs and 2) learn reliable prognostic models of conversion from MCI to AD using these subsets of features. The machine learning models learnt from these features outperformed the models trained without FS and achieved competitive results when compared to commonly used FS algorithms. Furthermore, the selected features are derived from a consensus of methods thus being more robust, while releasing users from choosing the most appropriate FS method to be used in their classification task.pt_PT
dc.description.sponsorshipPTDC/EEI-SII/1937/2014; SFRH/BD/95846/2013; SFRH/BD/118872/2016pt_PT
dc.subjectFeature selection;pt_PT
dc.subjectNeuropsychological datapt_PT
dc.subjectTime windowspt_PT
dc.subjectMild cognitive impairmentpt_PT
dc.subjectPrognostic predictionpt_PT
dc.subjectAlzheimer's diseasept_PT
dc.subjectEnsemble learningpt_PT
dc.titleNeuropsychological predictors of conversion from mild cognitive impairment to Alzheimer’s disease: a feature selection ensemble combining stability and predictabilitypt_PT
dc.rights.holderThe Author(s).-
degois.publication.titleBMC Medical Informatics and Decision Makingpt_PT
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