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1型糖尿病成人在现实运动环境中血糖风险指数和标准动态血糖监测指标的评估:1型糖尿病与运动倡议的事后分析

Assessment of Glycemia Risk Index and Standard Continuous Glucose Monitoring Metrics in a Real-World Setting of Exercise in Adults With Type 1 Diabetes: A Post-Hoc Analysis of the Type 1 Diabetes and Exercise Initiative.

作者信息

Morrison Dale, Vogrin Sara, Zaharieva Dessi P

机构信息

Department of Medicine, St Vincent's Hospital Melbourne, The University of Melbourne, Melbourne, VIC, Australia.

Department of Endocrinology and Diabetes, St Vincent's Hospital Melbourne, Melbourne, VIC, Australia.

出版信息

J Diabetes Sci Technol. 2024 Jul;18(4):787-794. doi: 10.1177/19322968241246458. Epub 2024 Apr 17.

DOI:10.1177/19322968241246458
PMID:38629861
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11307213/
Abstract

BACKGROUND

Standardized reporting of continuous glucose monitoring (CGM) metrics does not provide extra weighting for very high or very low glucose, despite their distinct clinical significance, and thus may underestimate glycemic risk in people with type 1 diabetes (T1D) during exercise. Glycemia Risk Index (GRI) is a novel composite metric incorporating clinician-validated extra weighting for glycemic extremes, which may provide a novel summary index of glycemia risk around exercise.

METHODS

Adults (≥18 years) in the T1D EXercise Initiative study wore CGM and activity trackers for four weeks. For this analysis, exercise days were defined as 24 hours following ≥20 minutes of exercise, with no other exercise in the 24-hour period. Sedentary days were defined as any 24 hours with no recorded exercise within that period or the preceding 24 hours. Linear mixed-effects regression was used to evaluate exercise effects on GRI and CGM metrics within 24 hours postexercise.

RESULTS

In 408 adults with T1D with >70% CGM and activity data, GRI on exercise (N = 3790) versus sedentary days (N = 1865) was significantly lower (mean [SD]: 29.9 [24.0] vs 34.0 [26.1], respectively, absolute mean difference -1.70 [-2.73, -0.67], < .001), a ~5% reduction in glycemic risk. Percent time in range (TIR; 70-180 mg/dL) increased on exercise days (absolute mean difference 2.67 [1.83, 3.50], < .001), as did time below range (TBR; relative mean difference 1.17 [1.12, 1.22], < .001), while time above range (TAR) decreased (relative mean difference 0.84 [0.79, 0.88], < .001).

CONCLUSIONS

Glycemia Risk Index improved on exercise versus sedentary days, despite increased TBR, which is weighted most heavily in the GRI calculation, due to a robust reduction in TAR.

摘要

背景

连续血糖监测(CGM)指标的标准化报告并未对极高或极低血糖给予额外加权,尽管它们具有独特的临床意义,因此可能低估1型糖尿病(T1D)患者运动期间的血糖风险。血糖风险指数(GRI)是一种新的综合指标,纳入了经临床验证的对血糖极值的额外加权,这可能为运动前后的血糖风险提供一个新的汇总指标。

方法

T1D运动倡议研究中的成年人(≥18岁)佩戴CGM和活动追踪器四周。对于本分析,运动日定义为运动≥20分钟后的24小时,且在该24小时内无其他运动。久坐日定义为该时间段或前24小时内无运动记录的任何24小时。采用线性混合效应回归评估运动对运动后24小时内GRI和CGM指标的影响。

结果

在408名CGM和活动数据>70%的T1D成年人中,运动日(N = 3790)与久坐日(N = 1865)的GRI显著降低(均值[标准差]:分别为29.9[24.0]和34.0[26.1],绝对均值差-1.70[-2.73,-0.67],P <.001),血糖风险降低约5%。运动日血糖在目标范围内的时间百分比(TIR;70 - 180 mg/dL)增加(绝对均值差2.67[1.83,3.50],P <.001),低于目标范围的时间(TBR;相对均值差1.17[1.12,1.22],P <.001)也增加,而高于目标范围的时间(TAR)减少(相对均值差0.84[0.79,0.88],P <.001)。

结论

与久坐日相比,运动日的血糖风险指数有所改善,尽管TBR增加,而TBR在GRI计算中权重最大,这是由于TAR显著降低。

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