Nerve conduction defects are retarded by tight metabolic control in type I diabetes.

Hyllienmark L; Golster H; Samuelsson U; Ludvigsson J

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Nerve conduction defects are retarded by tight metabolic control in type I diabetes.

机译：在I型糖尿病中，严格的代谢控制可延缓神经传导缺陷。

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This follow-up study examines whether the development of nerve dysfunction is retarded by tight metabolic control in patients with type I diabetes mellitus. Seventy-one patients and 115 age-matched healthy control subjects underwent studies of nerve conduction in peroneal and sural nerves. The presence of diabetes was associated with a reduction in peroneal motor nerve conduction velocity (MCV) by 5.9 m/s, sural sensory nerve conduction velocity (SCV) by 3.4 m/s, and sural sensory nerve action potential (SNAP) amplitude by 22%. Dysfunction in peroneal MCV, sural SCV, and sural SNAP were related to long-term poor metabolic control. Eleven of 12 patients with HbA1c <6.5% had normal nerve conduction or abnormality in only one nerve as compared to 2 of 15 patients with HbA1c >8.0%. It is concluded that tight long-term metabolic control (HbA1c <6.5%) can retard nerve dysfunction in patients with type I diabetes mellitus and a mean disease duration of 12 years.

机译：这项后续研究检查了I型糖尿病患者中严格的代谢控制是否会阻碍神经功能障碍的发展。对71位患者和115位年龄相匹配的健康对照对象进行了腓骨和腓肠神经神经传导的研究。糖尿病的存在与腓骨运动神经传导速度（MCV）降低5.9 m / s，腓肠感觉神经传导速度（SCV）降低3.4 m / s，腓肠感觉神经动作电位（SNAP）幅度降低22有关％。腓骨MCV，sural SCV和sural SNAP的功能障碍与长期不良的代谢控制有关。 HbA1c <6.5％的12例患者中只有11条神经传导正常或异常，而HbA1c> 8.0％的15例中有2例神经正常。结论是严格的长期代谢控制（HbA1c <6.5％）可以延缓I型糖尿病患者的神经功能障碍，平均病程为12年。

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《Muscle and Nerve》 |2001年第2期|共7页
作者
Hyllienmark L; Golster H; Samuelsson U; Ludvigsson J;
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正文语种 eng
中图分类人体生理学;神经病学与精神病学;
关键词
Diabetes Mellitus; Insulin-Dependent; Hypoglycemic Agents; Neural Conduction; 糖尿病; 胰岛素依赖型; 降血糖药; 神经传导;

机译：Diabetes Mellitus;Insulin-Dependent;Hypoglycemic Agents;Neural Conduction;糖尿病;胰岛素依赖型;降血糖药;神经传导;

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专利

1. Nerve conduction defects are retarded by tight metabolic control in type I diabetes. [J] . Hyllienmark L, Golster H, Samuelsson U, Muscle and Nerve . 2001,第2期

机译：在I型糖尿病中，严格的代谢控制可延缓神经传导缺陷。
2. Effect of Yoga asanas on nerve conduction in type 2 diabetes. [J] . Malhotra V, Singh S, Tandon OP, Indian journal of physiology and pharmacology . 2002,第3期

机译：瑜伽体式对2型糖尿病神经传导的影响。
3. Acute effects of adrenergic-mediated ischemia on nerve conduction in subjects with type 2 diabetes. [J] . Hogikyan RV, Wald JJ, Feldman EL, Metabolism: Clinical and Experimental . 1999,第4期

机译：肾上腺素介导的局部缺血对2型糖尿病患者神经传导的急性影响。
4. The Control Strength of Glucokinase in hepatocytes: A Predictor of Metabolic Defects in Maturity Onset Diabetes of the Young, Type 2 [C] . Loranne Agius, Susan Aiston, Christopher B. Newgard NATO advanced research workshop on technological and medical implications of metabolic control analysis . 2000

机译：肝细胞葡萄糖氨基酶的控制强度：年轻型成熟糖尿病代谢缺陷的预测因子，2型
5. The effect of whole wheat and wheat milling fractions on metabolic parameters of adiposity, glucose control, and lipid metabolism using a rat model of obesity with type 2 diabetes. [D] . dos Santos, Ana. 2014

机译：使用2型糖尿病肥胖大鼠模型，全麦和小麦碾磨组分对肥胖代谢参数，葡萄糖控制和脂质代谢的影响。
6. Defects in nerve conduction velocity and different muscle fibre-type specificity contribute to muscle weakness in Ts1Cje Down syndrome mouse model [O] . Usman Bala, Melody Pui-Yee Leong, Chai Ling Lim, 2012

机译：Ts1Cje Down综合征小鼠模型中神经传导速度的缺陷和不同的肌肉纤维类型特异性导致肌肉无力
7. Long-term follow-up after tight control of blood pressure in type 2 diabetes. [O] . Holman, RR, Paul, SK, Bethel, MA, 2008

机译：严格控制2型糖尿病患者的血压后进行长期随访。

Nerve conduction defects are retarded by tight metabolic control in type I diabetes.

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