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目的:研究低硒对微循环功能的影响。方法:采用低硒饲料饲养大鼠14 周,造成大鼠贫硒后,测定其血浆中前列腺环素(PGI2) 和血栓烷A2(TXA2) 水平及部分血液流变学指标。结果: 低硒组血硒含量及谷胱甘肽过氧化物酶( GSH- PX) 活性显著低于用常规饲料饲养的对照组,血浆6 - 酮- PGF1α浓度也显著低于对照组,但其血浆脂质过氧化物(LPO) 水平显著高于对照组( P< 0 .05) 。与此同时,低硒组与对照组在红细胞聚集指数、血沉方程K 值和红细胞变形能力等血液流变学指标上差异显著( P< 0 .05) ,低硒组的红细胞聚集指数和血沉方程K 值分别为对照组的114 .8 %和149 .0 % , 而红细胞变形能力仅为对照组的73 .8 % 。在低硒饲料中补硒可在一定程度上纠正这些变化。结论:硒不足可通过影响PGI2 的合成和红细胞特性而损害微循环功能。
Objective: To study the effect of low selenium on the microcirculation function. Methods: Rats were fed with low-selenium diet for 14 weeks. After selenium was selenium-deficient, PGI2, TXA2 levels and some hemorrheological indexes were determined. Results: The content of selenium and the activity of glutathione peroxidase (GSH - PX) in low selenium group were significantly lower than those of control group fed with conventional diet, and the plasma concentration of 6 - keto - PGF1α was also significantly lower than that of control group Plasma lipid peroxidation (LPO) levels were significantly higher than the control group (P <0 .05). At the same time, hematological indexes such as erythrocyte aggregation index, erythrocyte aggregation index, erythrocyte erythrocyte sedimentation index and erythrocyte deformability in the low-selenium group and the control group were significantly different (P <0 .05). The erythrocyte aggregation index and erythrocyte sedimentation rate K values were 114 in the control group. 8% and 149. 0%, while the erythrocyte deformability was only 73 in the control group. 8%. Selenium in low-selenium feed to some extent to correct these changes. CONCLUSION: Insufficiency of selenium can impair microcirculation function by affecting PGI2 synthesis and erythrocyte properties.