Examination of the relationship between D-amino acid profiles and cognitive function in individuals with mild cognitive impairment: a machine learning approach
Sou Sugiki, Shigeki Tsuchiya, Ren Kimura, Shun Katada, Koichi Misawa, Hisashi Tsujimura, Masanobu Hibi

TL;DR
This study explores using D-amino acid levels and machine learning to detect early signs of cognitive decline in older adults.
Contribution
A novel machine learning approach combining D-amino acid profiles and noninvasive data for MCI screening is proposed.
Findings
Nonlinear models like kernel SVM and ANN achieved high accuracy (AUC 0.78-0.79) in detecting MCI.
D-alanine and D-proline levels in blood showed significant correlations between venous and fingertip samples.
Combining D-amino acid data with subject information improves screening effectiveness for MCI.
Abstract
The global prevalence of dementia is significantly increasing. Early detection and prevention strategies, particularly for mild cognitive impairment (MCI), are crucial but currently hindered by the lack of established biomarkers. Here, we aimed to develop a high-precision screening method for MCI by combining D-amino acid profiles from peripheral blood samples with noninvasive subject information using nonlinear machine learning (ML) algorithms. A cross-sectional study was conducted with 200 participants aged 50–89 years, classified into cognitively normal and MCI-suspected groups based on Mini-Mental State Examination scores. High-throughput techniques were used to analyze the D-amino acid profiles, specifically D-alanine (%) and D-proline (%), in peripheral blood. Correlation analysis was performed between D-amino acid levels in venous and fingertip blood. The predictive performance…
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Taxonomy
TopicsAmino Acid Enzymes and Metabolism · Neurological Disease Mechanisms and Treatments · Epigenetics and DNA Methylation
