Machine Learning Prediction of Prediabetes in a Young Male Chinese Cohort with 5.8-Year Follow-Up

Liu, Chi-Hao; Chang, Chun-Feng; Chen, I-Chien; Lin, Fan-Min; Tzou, Shiow-Jyu; Hsieh, Chung-Bao; Chu, Ta-Wei; Pei, Dee

doi:10.3390/diagnostics14100979

Diagnostics

2024

DOI: 10.3390/diagnostics14100979

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Machine Learning Prediction of Prediabetes in a Young Male Chinese Cohort with 5.8-Year Follow-Up

Chi-Hao Liu,

Chun-Feng Chang,

I-Chien Chen

et al.

Abstract: The identification of risk factors for future prediabetes in young men remains largely unexamined. This study enrolled 6247 young ethnic Chinese men with normal fasting plasma glucose at the baseline (FPGbase), and used machine learning (Mach-L) methods to predict prediabetes after 5.8 years. The study seeks to achieve the following: 1. Evaluate whether Mach-L outperformed traditional multiple linear regression (MLR). 2. Identify the most important risk factors. The baseline data included demographic, biochemi… Show more

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Clustering‐based risk stratification of prediabetes populations: Insights from the Taiwan and UK Biobanks

Onthoni,

Chen,

Lai

et al. 2024

J of Diabetes Invest

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Aims/IntroductionThis study aimed to identify low‐ and high‐risk diabetes groups within prediabetes populations using data from the Taiwan Biobank (TWB) and UK Biobank (UKB) through a clustering‐based Unsupervised Learning (UL) approach, to inform targeted type 2 diabetes (T2D) interventions.Materials and MethodsData from TWB and UKB, comprising clinical and genetic information, were analyzed. Prediabetes was defined by glucose thresholds, and incident T2D was identified through follow‐up data. K‐means clustering was performed on prediabetes participants using significant features determined through logistic regression and LASSO. Cluster stability was assessed using mean Jaccard similarity, silhouette score, and the elbow method.ResultsWe identified two stable clusters representing high‐ and low‐risk diabetes groups in both biobanks. The high‐risk clusters showed higher diabetes incidence, with 15.7% in TWB and 13.0% in UKB, compared to 7.3% and 9.1% in the low‐risk clusters, respectively. Notably, males were predominant in the high‐risk groups, constituting 76.6% in TWB and 52.7% in UKB. In TWB, the high‐risk group also exhibited significantly higher BMI, fasting glucose, and triglycerides, while UKB showed marginal significance in BMI and other metabolic indicators. Current smoking was significantly associated with increased diabetes risk in the TWB high‐risk group (P < 0.001). Kaplan–Meier curves indicated significant differences in diabetes complication incidences between clusters.ConclusionsUL effectively identified risk‐specific groups within prediabetes populations, with high‐risk groups strongly associated male gender, higher BMI, smoking, and metabolic markers. Tailored preventive strategies, particularly for young males in Taiwan, are crucial to reducing T2D risk.

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Clustering‐based risk stratification of prediabetes populations: Insights from the Taiwan and UK Biobanks

Onthoni,

Chen,

Lai

et al. 2024

J of Diabetes Invest

View full text Add to dashboard Cite

show abstract

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Machine Learning Prediction of Prediabetes in a Young Male Chinese Cohort with 5.8-Year Follow-Up

Cited by 1 publication

References 49 publications

Clustering‐based risk stratification of prediabetes populations: Insights from the Taiwan and UK Biobanks

Clustering‐based risk stratification of prediabetes populations: Insights from the Taiwan and UK Biobanks

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