Predicting Hypoglycemia and Hyperglycemia Risk During and After Activity for Adolescents with Type 1 Diabetes.

IF 5.7 2区医学 Q1 ENDOCRINOLOGY & METABOLISM Diabetes technology & therapeutics Pub Date : 2024-05-14 DOI:10.1089/dia.2024.0061

Simon Bergford, Michael C Riddell, Robin L Gal, Susana R Patton, Mark A Clements, Jennifer L Sherr, Peter Calhoun

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Abstract

Objective: To predict hypoglycemia and hyperglycemia risk during and after activity for adolescents with type 1 diabetes (T1D) using real-world data from the Type 1 Diabetes Exercise Initiative Pediatric (T1DEXIP) study. Methods: Adolescents with T1D (n = 225; [mean ± SD] age = 14 ± 2 years; HbA1c = 7.1 ± 1.3%; T1D duration = 5 ± 4 years; 56% using hybrid closed loop), wearing continuous glucose monitors (CGMs), logged 3738 total activities over 10 days. Repeated Measures Random Forest (RMRF) and Repeated Measures Logistic Regression (RMLR) models were used to predict a composite risk of hypoglycemia (<70 mg/dL) and hyperglycemia (>250 mg/dL) within 2 h after starting exercise. Results: RMRF achieved high precision predicting composite risk and was more accurate than RMLR Area under the receiver operating characteristic curve (AUROC 0.737 vs. 0.661; P < 0.001). Activities with minimal composite risk had a starting glucose between 132 and 160 mg/dL and a glucose rate of change at activity start between -0.4 and -1.9 mg/dL/min. Time <70 mg/dL and time >250 mg/dL during the prior 24 h, HbA1c level, and insulin on board at activity start were also predictive. Separate models explored factors at the end of activity; activities with glucose between 128 and 133 mg/dL and glucose rate of change between 0.4 and -0.6 mg/dL/min had minimal composite risk. Conclusions: Physically active adolescents with T1D should aim to start exercise with an interstitial glucose between 130 and 160 mg/dL with a flat or slightly decreasing CGM trend to minimize risk for developing dysglycemia. Incorporating factors such as historical glucose and insulin can improve prediction modeling for the acute glucose responses to exercise.

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预测 1 型糖尿病青少年活动期间和活动后的低血糖和高血糖风险。

目的利用 "1 型糖尿病儿童运动倡议"（T1DEXIP）研究的实际数据，预测 1 型糖尿病（T1D）青少年在活动期间和活动后的低血糖和高血糖风险：1型糖尿病青少年（n=225；[平均±SD] 年龄=14±2岁；HbA1c=7.1±1.3%；1型糖尿病病程=5±4年；56%使用混合闭环）佩戴连续血糖监测仪（CGM），在10天内记录了3738次活动。采用重复测量随机森林（RMRF）和重复测量逻辑回归（RMLR）模型预测开始运动后两小时内发生低血糖（250 mg/dL）的综合风险：RMRF对综合风险的预测精度很高，而且比RMLR更准确（AUROC为0.737，RMLR为0.661；前24小时内的P250 mg/dL、HbA1c水平和活动开始时的胰岛素也具有预测作用）。不同的模型对活动结束时的因素进行了探讨；血糖在 128 至 133 毫克/分升之间、血糖变化率在 0.4 至 -0.6 毫克/分升/分钟之间的活动的综合风险最小：结论：T1D 青少年患者在开始运动时，其血糖应在 130-160 mg/dL 之间，CGM 的变化趋势为持平或略有下降，这样才能将发生血糖异常的风险降至最低。纳入历史血糖和胰岛素等因素可以改善运动时急性血糖反应的预测模型。

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

Diabetes technology & therapeutics 医学-内分泌学与代谢

CiteScore

10.60

自引率

14.80%

发文量

145

审稿时长

3-8 weeks

期刊介绍： Diabetes Technology & Therapeutics is the only peer-reviewed journal providing healthcare professionals with information on new devices, drugs, drug delivery systems, and software for managing patients with diabetes. This leading international journal delivers practical information and comprehensive coverage of cutting-edge technologies and therapeutics in the field, and each issue highlights new pharmacological and device developments to optimize patient care.