高血糖诱导的正常和糖尿病大鼠小肠心律失常归因于交感迷走神经失衡。

Hyperglycemia-induced small intestinal dysrhythmias attributed to sympathovagal imbalance in normal and diabetic rats.

作者信息

Ouyang X, Li S, Foreman R, Farber J, Lin L, Yin J, Chen J D Z

机构信息

Nanjing Medical University, Nanjing, Jiangsu, China; Veterans Research and Education Foundation, VA Medical Center, Oklahoma City, OK, USA; Diabetes Care & Research Center, Jiangsu Province Institute of Geriatrics, Nanjing, Jiangsu, China; Department of Physiology, University of Oklahoma, Oklahoma City, OK, USA.

出版信息

Neurogastroenterol Motil. 2015 Mar;27(3):406-15. doi: 10.1111/nmo.12506. Epub 2015 Jan 28.

DOI:10.1111/nmo.12506

PMID:25630445

Abstract

BACKGROUND

Hyperglycemia is known to induce dysrhythmias in the stomach; however, it is unknown whether they are also induced in the small intestine. Autonomic dysfunction is commonly noted in diabetes but the role it plays in hyperglycemia-induced dysrhythmias remains unknown. This study aimed to explore the effects of hyperglycemia on intestinal myoelectrical activity and the role of autonomic functions in hyperglycemia.

METHODS

Small intestinal myoelectrical activity (slow wave and spike activity) and autonomic functions (assessed by the spectral analysis of heart rate variability) were measured in Goto-Kakizaki diabetic rats and control rats treated with acute glucagon. Blood glucose was measured and its correlation with intestinal slow waves was determined.

KEY RESULTS

(1) The diabetic rats showed reduced regularity in intestinal slow waves in fasting and fed states (p < 0.001 for both), and increased sympathovagal balance (p < 0.05) in comparison with the control rats. The regularity in intestinal slow waves was negatively correlated with the HbA1c level in all rats (r = -0.663, p = 0.000). (2) Glucagon injection in the control rats induced transient hyperglycemia, intestinal slow wave dysrhythmias and impaired autonomic functions, similar to those observed in the diabetic rats. The increase in blood glucose was correlated with the decrease in the regularity of intestinal slow waves (r = -0.739, p = 0.015).

CONCLUSIONS & INFERENCES: Both spontaneous and glucagon-induced hyperglycemia results in slow wave dysrhythmias in the small intestine. Impairment in autonomic functions (increased sympathovagal balance) may play a role in hyperglycemia-induced dysrhythmias.

摘要

背景

已知高血糖会诱发胃部心律失常；然而，小肠是否也会诱发心律失常尚不清楚。自主神经功能障碍在糖尿病中很常见，但它在高血糖诱发的心律失常中所起的作用仍不清楚。本研究旨在探讨高血糖对肠道肌电活动的影响以及自主神经功能在高血糖中的作用。

方法

在Goto-Kakizaki糖尿病大鼠和用急性胰高血糖素治疗的对照大鼠中测量小肠肌电活动（慢波和锋电位活动）和自主神经功能（通过心率变异性频谱分析评估）。测量血糖并确定其与肠道慢波的相关性。

主要结果

（1）与对照大鼠相比，糖尿病大鼠在禁食和进食状态下肠道慢波的规律性降低（两者均p < 0.001），交感迷走神经平衡增加（p < 0.05）。所有大鼠肠道慢波的规律性与糖化血红蛋白水平呈负相关（r = - (2) 对照大鼠注射胰高血糖素会诱发短暂性高血糖、肠道慢波心律失常和自主神经功能受损，类似于在糖尿病大鼠中观察到的情况。血糖升高与肠道慢波规律性降低相关（r = -0.739，p = 0.015）。

结论与推论

自发性和胰高血糖素诱发的高血糖都会导致小肠慢波心律失常。自主神经功能受损（交感迷走神经平衡增加）可能在高血糖诱发的心律失常中起作用。 0.663，p = 0.000）。

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高血糖诱导的正常和糖尿病大鼠小肠心律失常归因于交感迷走神经失衡。

Hyperglycemia-induced small intestinal dysrhythmias attributed to sympathovagal imbalance in normal and diabetic rats.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

KEY RESULTS

背景

方法

主要结果

结论与推论

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