Response of the renal inner medulla to hypoxia: possible defense mechanisms.

Nephron Physiology Pub Date : 2012-01-01 Epub Date: 2012-11-30 DOI:10.1159/000345516

Namhee Kim, Laura Voicu, Gregory M T Hare, Surinder Cheema-Dhadli, Chee Kiong Chong, Stephen K W Chan, Daniel G Bichet, Mitchell L Halperin, C David Mazer

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引用次数: 7

Abstract

Background/aims: Owing to the precarious blood supply to the renal medulla and the high metabolic requirement of the medullary thick ascending limb of Henle's loop, this nephron segment should be especially vulnerable when its supply of O(2) declines.

Methods: Rats were exposed to 8 or 21% O(2) at different time points up to 5 h, and samples were collected for urine flow rate, urine (U(osm)) and renal papillary (RP(osm)) osmolality, urinary excretion of Na(+), Cl(-), K(+) and Mg(2+), blood gases, erythropoietin and vasopressinase activity in plasma. Other groups of rats were pretreated with desmopressin acetate (dDAVP) or underwent bilateral nephrectomy (BNX) 1 h prior to the exposure.

Results: Hypoxic rats had water diuresis (WD) within 2.5 h, as evidenced by lower U(osm) (333 ± 42 mosm/l) and RP(osm) (869 ± 57 mosm/l), thus suggesting that hypoxia led to a failure to achieve osmotic equilibrium within the renal papilla. Circulating vasopressinase activity increased, which was partially renal in origin because it was lower after BNX. The renal concentrating ability during hypoxia was maintained with dDAVP pretreatment, suggesting that dDAVP may have improved O(2) delivery and the active reabsorption of Na(+) in the renal medullary region.

Conclusions: WD or high vasopressinase activity may be valuable diagnostic tools to assess renal medullary hypoxia. Pretreatment with dDAVP may prevent these changes during hypoxia.

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肾内髓质对缺氧的反应:可能的防御机制。

背景/目的:由于肾髓质血供不稳定和Henle’s袢厚升肢的高代谢需求，当O(2)供应下降时，该肾单位段应特别脆弱。方法:大鼠在不同时间点暴露于8%或21% O(2)至5 h，采集尿流率、尿(U(osm))和肾乳头(RP(osm))渗透压、尿中Na(+)、Cl(-)、K(+)和Mg(2+)排泄、血气、血浆促红细胞生成素和加压酶活性等指标。其他各组大鼠在暴露前1小时用醋酸去氨加压素(dDAVP)预处理或行双侧肾切除术(BNX)。结果:缺氧大鼠在2.5 h内出现水利尿(WD)，表现为U(osm)(333±42 mosm/l)和RP(osm)(869±57 mosm/l)降低，提示缺氧导致肾乳头内渗透平衡无法实现。循环血管加压酶活性增加，部分原因是肾脏，因为BNX后它较低。dDAVP预处理维持了缺氧时肾脏的浓缩能力，提示dDAVP可能改善了肾髓区O(2)的传递和Na(+)的主动重吸收。结论:WD或高血管加压酶活性可能是评估肾髓质缺氧的有价值的诊断工具。davp预处理可以预防缺氧时的这些变化。

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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