O Langård scite author profile

O Langård

4Publications

46Citation Statements Received

33Citation Statements Given

How they've been cited

119

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Affiliations

Institutt for Eksperimentell Medisinsk Forskning, University of Oslo, Oslo University Hospital

Publications

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Mechanism of renin release during acute ureteral constriction in dogs.

Eide¹,

Löyning²,

Langård³

et al. 1977

Circulation Research

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The relationship between renal arterial pressure and renin release was examined in anesthetized dogs during complete or partial ureteral constriction. During complete ureteral occlusion ureteral pressure rose to 95+/-4 mm Hg and renin release increased from 1.7+/-0.7 to 22.3+/-3.1 mug/min; renal blood flow (RBF) was not significantly changed. Renin release was not further increased during subsequent renal arterial constriction; RBF fell in proportion to perfusion pressure, indicating maximum autoregulated arteriolar dilation. During partial ureteral constriction to a ureteral pressure of 65+/-6 mm Hg, renin release was moderately raised but release mechanisms became fully stimulated when renal arterial pressure was reduced to 104+/-3 mm Hg. By further constricted of the renal artery, RBF fell in proportion to perfusion pressure and renin release remained high and constant. In control experiments without ureteral constriction, renal arterial pressure had to be reduced to below 65+/-8 mm Hg to fully stimulate renin release (22.0+/-3.8 mug/ml which is not different from 22.3+/-3.1 mug/min during ureteral occlusion). During partial ureteral constriction, saline infusion (0.9% NaCl at 40 ml/min) raised urine flow, sodium excretion, renal pelvic pressure, and renin release. Thus, the stimulatory effect on renin release of a rise in ureteral pressure exceeded the inhibitory effect of increased sodium excretion. This observation, together with maximum renin release coinciding with complete arteriolar dilation during various combinations of renal arterial and ureteral constriction, is compatible with the conclusion that arteriolar dilation is predominating stimulus to renin release during ureteral constriction.

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Mechanism of renin release during renal nerve stimulation in dogs

Holdaas

Langård

Eide

et al. 1981

Scandinavian Journal of Clinical and Laboratory Investigation

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During renal nerve stimulation, a predominant vasoconstrictory effect on small arteries would lower blood pressure in the afferent arterioles and induce arteriolar dilation and renin release by the autoregulation mechanism. This hypothesis was examined in anaesthetized dogs by stimulating renal nerves at 4 Hz which permitted continuous reduction of renal blood flow (RBF) by 30-40%; renin release increased almost equally at control and low blood pressure, and in the non-filtering kidney during ureteral occlusion. Examinations of the relationship between RBF and arterial perfusion pressure during mechanical constriction of the renal artery showed that the lowest autoregulating pressure was 25-35 mmHg higher during nerve stimulation than in control experiments, consistent with the hypothesis of arteriolar dilation. Phenoxybenzamine, an inhibitor of alpha-adrenoceptors, abolished vasoconstriction and the effect of nerve stimulation on renin release at control blood pressure; renin release rose from 0.9 +/- 0.4 to 17 +/- 5 microgram/min before, and from 1.7 +/- 0.5 to 4.6 +/- 1.4 microgram/min after phenoxybenzamine infusion. At pressures below the range of autoregulation, phenoxybenzamine did not alter renin release response to nerve stimulation. Propranolol, a Beta-adrenergic inhibitor, attenuated the effect of nerve stimulation on renin release both at control and low blood pressure. We conclude that during renal nerve stimulation (1) renin release is caused by beta-adrenergic stimulation provided the afferent arterioles are dilated and (2) that alpha-adrenergic stimulation dilated the afferent arterioles as a consequence of a predominant vasoconstrictory effect on small arteries. Hence, by inhibiting the beta-adrenergic effect by propranolol, renin release does not increase during renal nerve stimulation. Phenoxybenzamine prevents renin release at control blood pressure because afferent arterioles are not dilated during nerve stimulation. In contrast, phenoxybenzamine does not reduce renin release during nerve stimulation at low blood pressure because afferent arterioles are dilated by the autoregulating mechanism.

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Segmental Tibial Shaft Fractures

Langård

Bø

1976

Acta Orthopaedica Scandinavica

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Influence of ethacrynic acid on intrarenal renin release mechanisms

Eide¹,

Löyning²,

Langård³

et al. 1975

Kidney International

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Ethacrynic acid infused i.v. in anesthetized dogs after inhibiting sympathetic mechanisms of renin release increased renal blood flow rate (RBF) by 54% and practically abolished autoregulation of RBF; renin release increased from 0.8 +/- 0.9 (mean +/- SEM) to 16.4 +/- 3.7 mug/min (P less than 0.05). Without infusion of ethacrynic acid; constriction of the renal artery to a pressure below the range of autoregulation reduced renovascular resistance markedly and renin release rose to 27.2 +/- 5.5 mug/min (P less than 0.05). During arterial constriction, ethacrynic acid had no additional effect on renovascular resistance or renin release averaging 28.4 +/- 6.7 mug/min. Infusion of ethacrynic acid and saline at control pressure increased sodium excretion to about one-half of the filtrate and reduced rein release which did not, however, return to control. Infusion of hypertonic saline during autoregulated vasodilatation induced by arterial constriction had a similar effect, but again renin release continued to exceed control. We propose that ethacrynic acid increases renin release through a hemodynamic mechanism triggered by afferent arteriolar dilation and inhibits renin release by greatly increasing the delivery of sodium to the distal convoluted tubules.

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O Langård

Mechanism of renin release during acute ureteral constriction in dogs.

Mechanism of renin release during renal nerve stimulation in dogs

Segmental Tibial Shaft Fractures

Influence of ethacrynic acid on intrarenal renin release mechanisms

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