Tissue electrical admittance (electrolyte concentration) in rat renal medulla: effects of furosemide and acetazolamide.

B Badzyńska, J Sadowski, E Kompanowska-Jezierska
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引用次数: 9

Abstract

Fluctuations of total electrolyte concentration in the renal medulla were estimated from continuous measurement of tissue electrical admittance (reciprocal impedance) by means of needle electrodes placed in the kidney of anaesthetized rats. To compare effects of two diuretic agents with different sites of action, rats received either furosemide, 0.3 mg/kg i.v. followed by an infusion at 0.3 mg/kg.h, or acetazolamide, a single injection of 10 mg/kg. At this dosage similar increases in renal excretion were obtained with either drug. After furosemide (a loop diuretic) admittance fell sharp within first 10 min, then partly recovered and reached a plateau 35 min after injection. Acetazolamide (inhibitor of proximal reabsorption) caused no changes in admittance compared to the pattern observed in untreated control animals. We conclude that dissipation of tissue electrolytes from the renal medulla is not simply a consequence of diuresis and natriuresis but depends critically on the site of transport inhibition in the nephron.

大鼠肾髓质组织导纳(电解质浓度):速尿和乙酰唑胺的影响。
通过在麻醉大鼠肾脏中放置针电极连续测量组织导纳(互反阻抗)来估计肾髓质中总电解质浓度的波动。为了比较两种利尿剂在不同作用部位的作用效果,大鼠分别给予速尿0.3 mg/kg静脉注射,然后以0.3 mg/kg.h的速度输注,或乙酰唑胺10 mg/kg单次注射。在此剂量下,两种药物的肾排泄均有相似的增加。速尿(一种循环利尿剂)后,导纳在前10分钟急剧下降,然后部分恢复,并在注射后35分钟达到平台。与未治疗的对照动物相比,乙酰唑胺(近端重吸收抑制剂)没有引起导纳的变化。我们的结论是,组织电解质从肾髓质的耗散不仅仅是利尿和尿钠的结果,而是取决于肾元中运输抑制的部位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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