Riemannian manifold-based geometric clustering of continuous glucose monitoring to improve personalized diabetes management.

IF 7 2区 医学 Q1 BIOLOGY
Computers in biology and medicine Pub Date : 2024-12-01 Epub Date: 2024-10-16 DOI:10.1016/j.compbiomed.2024.109255
Jiafeng Song, Jocelyn McNeany, Yifei Wang, Tanicia Daley, Arlene Stecenko, Rishikesan Kamaleswaran
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引用次数: 0

Abstract

Background: Continuous Glucose Monitoring (CGM) provides a detailed representation of glucose fluctuations in individuals, offering a rich dataset for understanding glycemic control in diabetes management. This study explores the potential of Riemannian manifold-based geometric clustering to analyze and interpret CGM data for individuals with Type 1 Diabetes (T1D) and healthy controls (HC), aiming to enhance diabetes management and treatment personalization.

Methods: We utilized CGM data from publicly accessible datasets, covering both T1D individuals on insulin and HC. Data were segmented into daily intervals, from which 27 distinct glycemic features were extracted. Uniform Manifold Approximation and Projection (UMAP) was then applied to reduce dimensionality and visualize the data, with model performance validated through correlation analysis between Silhouette Score (SS) against HC cluster and HbA1c levels.

Results: UMAP effectively distinguished between T1D on daily insulin and HC groups, with data points clustering according to glycemic profiles. Moderate inverse correlations were observed between SS against HC cluster and HbA1c levels, supporting the clinical relevance of the UMAP-derived metric.

Conclusions: This study demonstrates the utility of UMAP in enhancing the analysis of CGM data for diabetes management. We revealed distinct clustering of glycemic profiles between healthy individuals and diabetics on daily insulin indicating that in most instances insulin does not restore a normal glycemic phenotype. In addition, the SS quantifies day by day the degree of this continued dysglycemia and therefore potentially offers a novel approach for personalized diabetes care.

基于黎曼流形的连续血糖监测几何聚类,改善个性化糖尿病管理。
背景:连续血糖监测(CGM)能详细反映个体的血糖波动,为了解糖尿病管理中的血糖控制提供了丰富的数据集。本研究探讨了基于黎曼流形的几何聚类在分析和解释 1 型糖尿病(T1D)患者和健康对照组(HC)的 CGM 数据方面的潜力,旨在加强糖尿病管理和治疗的个性化:我们利用公开数据集中的 CGM 数据,涵盖了使用胰岛素的 T1D 患者和健康对照组。数据被分割成每日间隔,从中提取出 27 个不同的血糖特征。然后应用统一模形逼近和投影(UMAP)来降低维度和可视化数据,并通过剪影评分(SS)与血糖仪群组和 HbA1c 水平之间的相关性分析来验证模型的性能:结果:UMAP 有效区分了每日使用胰岛素的 T1D 和 HC 组,数据点根据血糖特征进行聚类。在SS与HC组和HbA1c水平之间观察到了适度的反相关性,支持了UMAP衍生指标的临床相关性:本研究证明了 UMAP 在加强 CGM 数据分析以促进糖尿病管理方面的实用性。我们揭示了健康人与每日使用胰岛素的糖尿病患者之间血糖特征的不同聚类,这表明在大多数情况下,胰岛素并不能恢复正常的血糖表型。此外,SS 还能逐日量化这种持续性血糖异常的程度,因此有可能为个性化糖尿病护理提供一种新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Computers in biology and medicine
Computers in biology and medicine 工程技术-工程:生物医学
CiteScore
11.70
自引率
10.40%
发文量
1086
审稿时长
74 days
期刊介绍: Computers in Biology and Medicine is an international forum for sharing groundbreaking advancements in the use of computers in bioscience and medicine. This journal serves as a medium for communicating essential research, instruction, ideas, and information regarding the rapidly evolving field of computer applications in these domains. By encouraging the exchange of knowledge, we aim to facilitate progress and innovation in the utilization of computers in biology and medicine.
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