Developing Foundation Model for Early Detection of Alzheimer's Disease and Related Dementias (ADRD) from midlife

痴呆 队列 家族史 疾病 老年学 人口 限制 风险评估 医学 终身风险 计算机科学 队列研究 心理学 人工智能 风险因素 病史 生命历程法 人口学 梅德林 卷积神经网络 认知障碍 阿尔茨海默病 样品(材料)
作者
Samuel Danso,Ibrahim Alqatawneh,Adewale Samuel Owo,Tamlyn Watermeyer,Joe Butler,Poorna Gunasekera
出处
期刊:Alzheimers & Dementia [Wiley]
卷期号:21 (S6): e106904-e106904
标识
DOI:10.1002/alz70860_106904
摘要

Abstract Background While recent development of Artificial Intelligence (AI)‐based approaches have demonstrated to be effective in predicting risk of ADRD, these have mostly focused on AD subtype, aged and homogenous populations (Grueso et al, 2022; Rahim et al., 2023), thereby limiting their applicability to other types of ADRD and younger populations. Inspired by earlier work (Danso et al 2021), we propose an AI‐based deep‐learning framework for early detection of ADRD based on heterogeneous and diverse population from midlife (Figure 1). Method We obtained two datasets from the European Prevention of Alzheimer's Dementia‐ EPAD ( n = 2096) and PREVENT Dementia Programme ( n = 700) available online (AD workbench, 2020). Following procedures described in Danso et al (2018) a harmonised cohort was curated containing individuals with no diagnosis of dementia. We then created three risk groups (High risk = ApoE4 allele and family history of AD; Medium risk = ApoE4 allele but no family history of AD; Low risk = no ApoE4 allele and no family history of AD) following the risk definition by Ritchie & Ritchie (2012). Convolutional Neural Network (CNN) and Long‐ Short Term Memory (LSTM) models were developed using 5‐fold cross validation and then applied optimisation procedures to obtain optimal parameters for the trained models. Result The harmonisation resulted in a cohort ( n = 2796; mean age =62; range = 40 – 89years; female =57.5%, Caucasian = 95%), containing medical history, physiological, lifestyle, neuroimaging, and sociodemographic features. Overall, CNN outperformed LSTM by 7% points for accuracy and f1‐score (Table 1), with mean AUROC scores of 97% and 94% respectively (Figure 2), and mean validation loss scores (CNN = 0.36; LSTM =0.46). Conclusion The superior performance of CNN is consistent with the literature and the relatively low validation loss demonstrates its generalisability. While this model is currently optimised for AD with limited features, a Transfer Learning paradigm is being employed to further train the CNN model to predict risk of other AD sub‐types after including BioHermes dataset into pipeline. Future work will also explore modifications of the CNN architecture for multimodal features with explainability capabilities.
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