1 型糖尿病患者使用甘精胰岛素/赖脯胰岛素时用葡萄糖或间歇性高强度运动。

Glucose or intermittent high-intensity exercise in glargine/glulisine users with T1DM.

机构信息

Diabetes Research Unit, Université Laval Medical Center, Quebec City, QC, Canada.

出版信息

Med Sci Sports Exerc. 2013 Jan;45(1):3-7. doi: 10.1249/MSS.0b013e31826c6ad3.

DOI:10.1249/MSS.0b013e31826c6ad3

PMID:22895370

Abstract

INTRODUCTION

The effects of glargine/glulisine insulin regimen on exercise blood glucose (BG) and strategies to limit exercise-induced hypoglycemia are not well documented. Intermittent high-intensity exercise has been proposed to prevent hypoglycemia, but its effect in participants with type 1 diabetes using glargine/glulisine is unknown.

METHODS

The study used a repeated-measures design with three randomly ordered exercise conditions. Eleven participants completed 60 min of moderate-intensity exercise at 50% VO(2peak) for all conditions. These conditions varied as follows: participants ingested 0 g of glucose preexercise (0G + MOD), 30 g of glucose preexercise (30G + MOD), or 0 g of glucose preexercise but performed brief high-intensity intervals interspersed every 2 min (0G + MOD/INT) during exercise. If BG fell <4 mmol·L(-1), a 20% dextrose solution was started to maintain BG between 4 and 5 mmol·L(-1).

RESULTS

Consuming 30 g of glucose before exercise (30G + MOD) resulted in a higher preexercise BG (11.7 ± 2.7 mmol·L(-1)) compared with 0 g of glucose before exercise (0G + MOD, 7.8 ± 4.0, and 0G + MOD/INT, 9.2 ± 3.5mmol·L(-1)), P < 0.05. A dextrose infusion was required in 7/11, 4/11, and 1/11 participants for 0G + MOD, 0G + MOD/INT, 30G + MOD conditions, respectively, P < 0.02. The duration and the quantity of dextrose infused were greatest in the 0G + MOD condition, moderate in the to 0G + MOD/INT condition, and minimal in the 30G + MOD condition, P < 0.01.

CONCLUSION

Our results suggest that both moderate-intensity exercise with a 30-g preexercise glucose beverage or interspersed with intermittent high-intensity sprints may be safe strategies to prevent hypoglycemia in glargine/glulisine users.

摘要

简介

甘精胰岛素/赖脯胰岛素方案对运动时血糖（BG）的影响以及限制运动性低血糖的策略尚未得到充分证实。间歇性高强度运动已被提议用于预防低血糖，但在使用甘精胰岛素/赖脯胰岛素的 1 型糖尿病患者中的效果尚不清楚。

方法

该研究采用重复测量设计，共有三种随机运动条件。11 名参与者在所有条件下均完成了 60 分钟 50%VO2peak 的中等强度运动。这些条件如下：参与者在运动前分别摄入 0g 葡萄糖（0G + MOD）、30g 葡萄糖（30G + MOD）或 0g 葡萄糖，但在运动期间每 2 分钟穿插进行短暂的高强度间歇（0G + MOD/INT）。如果 BG 降至<4mmol·L(-1)，则开始输注 20%葡萄糖溶液，以将 BG 维持在 4 至 5mmol·L(-1)之间。

结果

与运动前摄入 0g 葡萄糖（0G + MOD，7.8 ± 4.0mmol·L(-1)）相比，运动前摄入 30g 葡萄糖（30G + MOD）导致更高的运动前 BG（11.7 ± 2.7mmol·L(-1)），P < 0.05。7/11、4/11 和 1/11 名参与者分别在 0G + MOD、0G + MOD/INT 和 30G + MOD 条件下需要输注葡萄糖，P < 0.02。0G + MOD 条件下输注的葡萄糖持续时间和剂量最大，0G + MOD/INT 条件下适中，30G + MOD 条件下最小，P < 0.01。

结论

我们的结果表明，甘精胰岛素/赖脯胰岛素使用者在进行中等强度运动的同时，预先摄入 30g 葡萄糖饮料或穿插间歇性高强度冲刺运动，可能是预防低血糖的安全策略。

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1 型糖尿病患者使用甘精胰岛素/赖脯胰岛素时用葡萄糖或间歇性高强度运动。

Glucose or intermittent high-intensity exercise in glargine/glulisine users with T1DM.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

简介

方法

结果

结论

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