Cameron N E, Cotter M A, Robertson S
Division of Physiology, School of Biomedical Sciences, University of Aberdeen, Scotland, United Kingdom.
Diabetes. 1991 May;40(5):532-9. doi: 10.2337/diab.40.5.532.
Effects of essential fatty acids on nerve conduction, hypoxic resistance, skeletal muscle contractile properties, and capillary density were examined in streptozocin-induced diabetic rats. Nondiabetic and diabetic controls and three diabetic groups treated with 10% supplements of corn oil, evening primrose oil (Efamol), or a mixture of 80% evening primrose oil and 20% fish oil (Efamol Marine) for 2 mo were used. Efamol and Efamol Marine increased plasma gamma-linolenic acid levels, but arachidonic acid was elevated only with Efamol. Diabetes resulted in 15-29% reductions in sciatic motor and sensory saphenous nerve conduction velocity. Efamol prevented conduction deficits more effectively than Efamol Marine, and corn oil had no effect. In vitro measurement of sciatic nerve hypoxic resistance revealed a 49% increase in the time taken for action potential amplitude to decline by 50% with diabetes. Corn oil had no significant effect. With Efamol, hypoxic resistance was within the nondiabetic range. Efamol Marine produced intermediate results. Functional improvements may relate to enhanced vasa nervorum perfusion, because endoneurial capillary density increased by 22% with Efamol, angiogenesis perhaps resulting from eicosanoid production from arachidonic acid. Soleus muscle contractions were prolonged by diabetes. This was partially corrected by treatment, Efamol being most effective. Extensor digitorum longus muscle had reduced tetanic tension with diabetes, and this was prevented by all treatments. Soleus showed a modest increase in capillarization with Efamol, which may have contributed to reduced susceptibility to fatigue. The data suggest involvement of abnormal fatty acid metabolism in the etiology of diabetic neuropathy and myopathy.
在链脲佐菌素诱导的糖尿病大鼠中,研究了必需脂肪酸对神经传导、耐缺氧能力、骨骼肌收缩特性和毛细血管密度的影响。使用非糖尿病和糖尿病对照组以及三个糖尿病组,这三个糖尿病组分别用10%的玉米油、月见草油(Efamol)或80%月见草油与20%鱼油的混合物(Efamol Marine)补充2个月。Efamol和Efamol Marine提高了血浆γ-亚麻酸水平,但只有Efamol使花生四烯酸水平升高。糖尿病导致坐骨神经运动和感觉隐神经传导速度降低15%-29%。Efamol比Efamol Marine更有效地预防了传导缺陷,而玉米油没有效果。坐骨神经耐缺氧能力的体外测量显示,糖尿病使动作电位幅度下降50%所需的时间增加了49%。玉米油没有显著影响。使用Efamol时,耐缺氧能力在非糖尿病范围内。Efamol Marine产生了中等效果。功能改善可能与神经血管灌注增强有关,因为使用Efamol时神经内膜毛细血管密度增加了22%,血管生成可能是由花生四烯酸产生的类花生酸所致。糖尿病使比目鱼肌收缩时间延长。治疗部分纠正了这一情况,Efamol最为有效。糖尿病使趾长伸肌强直张力降低,所有治疗都能预防这种情况。使用Efamol时比目鱼肌的毛细血管化略有增加,这可能有助于降低疲劳易感性。数据表明异常脂肪酸代谢参与了糖尿病神经病变和肌病的病因。
