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自发性高血压大鼠高血压发展过程中钠平衡与肾神经支配的关系

Relationship between sodium balance and renal innervation during hypertension development in the spontaneously hypertensive rat.

作者信息

Greenberg S, Osborn J L

机构信息

Department of Physiology, Medical College of Wisconsin, Milwaukee.

出版信息

J Hypertens. 1994 Dec;12(12):1359-64.

PMID:7706694
Abstract

INTRODUCTION

The spontaneously hypertensive rat (SHR) has been shown to possess elevated efferent sympathetic nerve activity, and renal denervation delays the development of hypertension in this genetic strain. Evidence that the renal sympathetic nerves have direct effects on tubular function suggests that one of the mechanisms for increasing arterial pressure in the SHR might involve neurally mediated sodium retention.

AIMS AND METHODS

The present study examined the relationships between renal sympathetic tone, daily sodium balance and the development of hypertension in SHR over a 4-week period. Conscious, unrestrained, 7-week-old SHR with innervated or denervated kidneys were placed on a fixed sodium intake by intravenous infusion (5.72 mumol/day per 100 g body weight). Urinary sodium excretion was determined once a day for 28 consecutive days; systolic blood pressure (SBP) and body weight were monitored twice a week.

RESULTS

Renal denervation delayed the onset of and retarded the development of hypertension. Despite the difference in SBP, daily sodium balance was equal in the innervated and the denervated SHR. The positive sodium balances exhibited by both groups are attributed to the rapid growth observed during the time course of the experiment. The growth rate was also similar in the two groups.

CONCLUSION

The present data indicate that, although the renal nerves may mediate enhanced transient tubular sodium reabsorption, sodium retention does not contribute directly to the development of hypertension in the SHR. Rather, it appears that the elevation of arterial pressure might occur as a requirement to excrete excess sodium and thus maintain a daily sodium balance.

摘要

引言

自发性高血压大鼠(SHR)已被证明具有升高的传出交感神经活动,并且肾去神经支配可延缓该遗传品系高血压的发展。肾交感神经对肾小管功能有直接影响的证据表明,SHR中动脉压升高的机制之一可能涉及神经介导的钠潴留。

目的和方法

本研究在4周时间内研究了SHR的肾交感神经张力、每日钠平衡与高血压发展之间的关系。将有意识、不受束缚、7周龄且肾脏有神经支配或去神经支配的SHR通过静脉输注(每100克体重5.72微摩尔/天)给予固定的钠摄入量。连续28天每天测定一次尿钠排泄量;每周监测两次收缩压(SBP)和体重。

结果

肾去神经支配延迟了高血压的发作并减缓了其发展。尽管SBP存在差异,但有神经支配和去神经支配的SHR的每日钠平衡是相等的。两组均表现出的正钠平衡归因于实验过程中观察到的快速生长。两组的生长速率也相似。

结论

目前的数据表明,虽然肾神经可能介导肾小管钠重吸收的短暂增强,但钠潴留并不直接导致SHR高血压的发展。相反,似乎动脉压升高可能是为了排泄多余的钠从而维持每日钠平衡而出现的。

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