Worth the Wait: Delayed Recall after 1 Week Predicts Cognitive and Medial Temporal Lobe Trajectories in Older Adults

Lindbergh, Cutter A.; Walker, Nicole; Joie, Renaud La; Weiner‐Light, Sophia; Staffaroni, Adam M.; Casaletto, Kaitlin B.; Elahi, Fanny M.; Walters, Samantha; You, Michelle; Cotter, Devyn; Asken, Breton M; Apple, Alexandra C.; Tsoy, Elena; Neuhaus, John; Fonseca, Corrina; Wolf, Amy; Cobigo, Yann; Rosen, Howie; Kramer, Joel H.

doi:10.1017/s1355617720001009

Cited by 8 publications

(4 citation statements)

References 18 publications

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“…The XGBoost classifier performed well in predicting AD risk, selecting three features (i.e., Everyday Cognition Questionnaire (Study partner) -Total, Alzheimers Disease Assessment Scale (13 items) and Delayed Total Recall) with AUC ROC values consistently above 97% (Figure 1, surpassing the performance of the latest AD-specific model (Rye et al 2022). Our findings support the idea that memory paradigms, such as delayed total recall, can serve as effective measures to track neurodegenerative disease trajectories (Lindbergh et al 2021). Moreover, these features may be sensitive to neurodegenerative disease trajectories more so than Mini-Mental State Examination or Montreal Cognitive Assessment.…”

Section: Discussionsupporting

confidence: 74%

XGBoost for Interpretable Alzheimer’s Decision Support

Kadem,

Noseworthy,

Doyle

2023

AAAI-SS

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Despite their necessity in directing patient care worldwide, simple and accurate diagnostic tools for early Alzheimer’s disease (AD) do not exist. To support healthcare decision-making and planning, this research leverages large, multi-site accessible data and state-of-the-art supervised machine learning (XGBoost) to enable rapid, accurate, low-cost, accessible, non-invasive, interpretable, and early clinical evaluation of AD. Machine learning was employed to combine three key features: Everyday Cognition Questionnaire, Alzheimers Disease Assessment Scale, and Delayed Total Recall, achieving area under the receiver operating characteristic curves scores consistently above 97%. The selected features are important because they are non-invasive and easily collected. Low performance on delayed recall alone appears to distinguish most AD patients, consistent with the pathophysiology of AD where individuals having problems storing new information into long-term memory. Distinguishing this research from existing literature was the focus of enhancing the model's interpretability while maintaining performance of more complex and opaque models. The interpretable model enables understanding of the decision process, vital for clinical adoption of machine learning tools in AD evaluation. In summary, we present a methodology which identified accessible and noninvasive features, each with their absolute thresholds, together with a clinically operable decision route, to accurately and rapidly detect, differentiate, and diagnose Alzheimer's disease patients.

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Section: Discussionsupporting

confidence: 74%

XGBoost for Interpretable Alzheimer’s Decision Support

Kadem,

Noseworthy,

Doyle

2023

AAAI-SS

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“…Third, the UK Biobank cognitive test battery was not comprehensive and omitted measures that may be sensitive to early cognitive changes in AD, such as tests of episodic memory that capture long-delay recall and recognition, 63 , 64 and measures of verbal fluency, 23 language, 65 , 66 and working memory 67 or other approaches. 68 With more sensitive measures, we may have detected even earlier changes. Fourth, caution in interpreting test differences is merited because the samples differed in size and composition.…”

Section: Discussionmentioning

confidence: 97%

“…Second, we restricted analysis to individuals with European ancestry—the predominant population of previous AD-GRS studies—and our results may not reflect patterns in other populations. Third, the UK Biobank cognitive test battery was not comprehensive and omitted measures that may be sensitive to early cognitive changes in AD, such as tests of episodic memory that capture long-delay recall and recognition, and measures of verbal fluency, language, and working memory or other approaches . With more sensitive measures, we may have detected even earlier changes.…”

Section: Discussionmentioning

confidence: 99%

Association of Genetic Variants Linked to Late-Onset Alzheimer Disease With Cognitive Test Performance by Midlife

et al. 2022

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Key Points Question At what age do individuals with higher genetic risk of Alzheimer disease first show cognitive differences from individuals with lower genetic risk, and which of 32 cognitive measures show the earliest difference? Findings In this cross-sectional study of 405 050 individuals, higher genetic risk of Alzheimer disease significantly modified the association of age with 13 of 32 cognitive measures. Best-fitting models suggested that higher genetic risk of Alzheimer disease was associated with changes in cognitive scores of individuals older than 56 years for all 13 measures and older than 47 years for 9 measures. Meaning These findings suggest that by early midlife, subtle differences in cognitive measures may emerge among individuals with higher genetic risk of Alzheimer disease.

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“…They emphasize the importance of avoiding floor and ceiling effects which may arise due to the long delays employed and variability across individuals in premorbid IQ, learning strategies, motivation and habituation to test situations. Moreover, in order to avoid rehearsal, it is desirable not to inform subjects that they will be asked again after some time about the newly learned information (C. Butler et al, 2009;Lindbergh et al, 2021;Weston et al, 2018;Zimmermann & Butler, 2018). For the first time, Alviarez-Schulze et al ( 2022) have shown evidence on the relevance of warning or not warning subjects of long-term reassessment of newly learned information by revealing that subjects who were informed of a future assessment after 1 week showed less long-term forgetting.…”

Section: Clinical Considerationsmentioning

confidence: 99%

A review of accelerated long-term forgetting in Alzheimer’s disease: Current situation and prospects.

García-Martínez¹,

Sánchez‐Juan²,

Butler³

2023

Neuropsychology

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Objective: Advances in our understanding of the Alzheimer’s disease (AD) continuum through in vivo biomarkers have highlighted the need to develop neuropsychological tests that are more sensitive to subtle cognitive changes in the preclinical stages of the disease. Recent data suggest that the assessment of memory retention over extended delays, to detect so-called accelerated long-term forgetting (ALF), may be a reliable way to discriminate between presymptomatic AD and healthy aging. This review aims to present the scientific evidence published to date on this particular aspect of memory. Method: A comprehensive review of all published articles on ALF in AD to the present day. Results: We present findings relating to ALF in neurological disease, discuss theoretical aspects related to the integration of the concept of ALF in the framework of memory models, explain mechanisms that may be involved in its genesis and present supportive work from research in animal models. We focus particularly on aspects relevant to the assessment of ALF in clinical practice. Conclusions: Despite many advances, further research will be needed to define more precisely what ALF is, what neural structures and mechanisms are involved in its occurrence, whether there are distinct patterns of forgetting according to etiology, and when and how to detect ALF most reliably.

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Worth the Wait: Delayed Recall after 1 Week Predicts Cognitive and Medial Temporal Lobe Trajectories in Older Adults

Cited by 8 publications

References 18 publications

XGBoost for Interpretable Alzheimer’s Decision Support

XGBoost for Interpretable Alzheimer’s Decision Support

Association of Genetic Variants Linked to Late-Onset Alzheimer Disease With Cognitive Test Performance by Midlife

A review of accelerated long-term forgetting in Alzheimer’s disease: Current situation and prospects.

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