尿酶检测肾损伤的敏感性。

D T Plummer, E O Ngaha, P J Wright, P D Leathwood, M E Blake
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引用次数: 0

摘要

测定了尿酶检测两种肾毒素对肾脏损害的相对敏感性。注射单剂量磷酸钠(10毫摩尔/千克)对近端小管造成损伤,导致排泄到尿液中的乳酸脱氢酶(LDH)活性增加15倍。与此相反,血清LDH保持正常。注射头孢利定(2 g/kg)后,尿LDH升高18倍,尿谷氨酸脱氢酶(GDH)略有升高,结果相似。而血清LDH无明显变化。因此,尿酶在检测肾损伤方面比酶更敏感。所研究的四种酶位于细胞的特定区域,因此可以跟踪细胞器和细胞区域的参与。由于溶酶体酶的排泄保持正常,细胞器似乎没有发生损伤,只有在头孢啶的情况下,线粒体GDH排泄才出现轻微变化。碱性磷酸酶的平均值也正常,提示质膜无明显损伤,但个别大鼠分泌的碱性磷酸酶活性异常。然而,这些大鼠也排泄出高活性的LDH。这表明,对细胞膜的损伤导致乳酸脱氢酶渗漏,在严重的情况下释放质膜酶碱性磷酸酶。不同剂量头孢利定的给药表明尿酶测量与组织学一样敏感,以显示肾损害,LDH是迄今为止最有用的这些酶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The sensitivity of urinary enzyme measurements for detecting renal injury.

The relative sensitivity of urinary enzyme measurements for detecting renal damage was determined for two nephrotoxins. Injection of a single dose of sodium phosphate (10 mmoles/kg) caused damage to the proximal tubules and led to a 15 fold increase in lactate dehydrogenase (LDH) activity excreted into the urine. In contrast to this change the serum LDH remained normal. Similar results were obtained following the injection of cephaloridine (2 g/kg) with an 18 fold increase in urinary LDH and a marginal increase in urinary glutamate dehydrogenase (GDH). By contrast the serum LDH was unchanged. Urinary enzymes are therefore more sensitive for detecting renal injury than enzymes. The four enzymes investigated are located in specific regions of the cell so that the involvement of the organelles and regions of the cell can be followed. Damage to the organelles does not appear to occur as the excretion of the lysosomal enzymes remained normal and only in the case of cephaloridine were marginal changes in the mitochondrial GDH excretion seen. The average alkaline phosphatase was also normal suggesting no gross damage to the plasma membrane although a few individual rats excreted abnormal activities of alkaline phosphatase. These rats however, also excreted high activities of LDH. This suggests that damage to the membrane causes leakage of LDH and in severe cases release of the plasma membrane enzyme alkaline phosphatase. The administration of cephaloridine at various doses showed that urinary enzyme measurements were as sensitive as histology for demonstrating renal damage and that of these enzymes, LDH was by far the most useful.

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