P. Luthi scite author profile

P. Luthi

5Publications

37Citation Statements Received

36Citation Statements Given

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University of Lausanne

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Influence of streptozotocin-induced diabetes on blood pressure and on renin formation and release

Kohler

Boillat

Luthi

et al. 1980

Naunyn-Schmiedeberg's Arch. Pharmacol.

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I.v. injection of 40 mg/kg or 65 mg/kg streptozotocin reliably induced diabetes in female Sprague-Dawley rats, but failed to induced hypertension within the following 42 days. In most animals injected with the higher dose and in some animals injected with the lower dose the tail blood flow was permanently impaired so that no blood pressure signals could be obtained by tail plethysmography. This phenomenon occurred also when the drug was injected into the jugular vein and thus was not due to a local effect of streptozotocin. 15 days after 65 mg/kg streptozotocin, the mean arterial pressure of the rats was similar to that of controls, when measured inthe awake state (carotid cannula) or under ether anaesthesia. 42 days after streptozotocin, under pentobarbital anaesthesia, the blood pressure was again normal in the animals given 40 mg/kg of the drug and depressed in the animals given 65 mg/kg of the drug 42 days previously. The increase of blood pressure induced by 1 microgram/kg (-)-noradrenaline i.v. was similar in the latter group of animals and in controls. The renal cortical renin concentration was much lower than in controls 42 days after either dose of streptozotocin, while the plasma renin activity was normal (40 mg/kg) or increased 65 mg/kg). The low renal renin content may have been due to the diabetic state, rather than to the drug itself. Adrenal medullary dopamine-beta-hydroxylase activity was increased 42 days after the higher dose of streptozotocin.

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Chronic clonidine treatment and its withdrawal: Effects on blood pressure and catecholamine synthesizing enzymes in brain-stem nuclei

Atkinson¹,

Lambás‐Señas²,

Parker³

et al. 1986

European Journal of Pharmacology

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Effect of Acute Administration of Prazosin on Blood Pressure, Heart Rate and Plasma Renin Level in the Conscious Normotensive Rat

Atkinson

Luthi

Sonnay

et al. 1986

Clin Exp Pharma Physio

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This study investigated whether the specific alpha-antagonist, prazosin, stimulated basal plasma renin levels and heart rate. Furthermore the beta-adrenergic nervous system was also investigated to ascertain whether it was involved in this effect. Prazosin (0.1 or 1 mg/kg) was injected subcutaneously (s.c.) to conscious normotensive rats, either alone or in combination with the beta-adrenoceptor antagonist, DL-propranolol (1 or 3 mg/kg). Rats bore chronically implanted dorsal aorta cannula for measurement of blood pressure and heart rate and blood sampling for renin determinations. Acute administration of prazosin (1 mg/kg, s.c.) produced a fall in mean arterial pressure accompanied by renin release and tachycardia. A tenfold lower dose of prazosin did not alter blood pressure or heart rate but did stimulate renin release. Acute administration of DL-propranolol, (1 or 3 mg/kg, s.c.) produced falls in blood pressure and heart rate but did not affect plasma renin level. Combinations of prazosin with propranolol gave falls in blood pressure similar to those predicted on the basis of a simple addition of the effects of the two drugs given separately. Prazosin-induced tachycardia and renin release were attenuated by propranolol. It appears that prazosin produces renin release and tachycardia via stimulation of the beta-adrenergic adrenoceptor.

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The Role of Plasma and Renal Renin in the Rise in Blood Pressure Following Unilateral Renal Artery Constriction

Atkinson¹,

Kirchertz²,

Peters-Haefeli³

et al. 1982

Kidney Blood Press Res

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Constriction of the artery to the remaining kidney of control rats uninephrectomized 24 h previously induced a sixfold rise in plasma renin level from 11 ± 1 to 60 ± 11 ng AI mh^-1 h^-1, a 43% decrease of renal cortical renin level, and a 21% rise of mean arterial pressure from 119 + 2 to 144 ± 3 mm Hg. Constriction of the artery to a renin-depleted kidney (with a renin level which was 5% of normal) was not followed by any significant increase in plasma renin level or mean blood pressure. Renin-depleted kidneys were produced by removing the clipped kidney from two-kidney one-clip hypertensive rats, 24 h before the experiment. Such a maneuver induces renin depletion but does not completely normalize blood pressure. When a large dose of frusemide (50 mg/kg i.p.) was injected immediately following removal of the clipped kidney, mean arterial pressure (117 ± 7 mm Hg) returned to control values 24 h later but again constriction of the remaining renal artery failed to induce a rise in plasma renin level or mean arterial pressure. By 7 days after removal of the clipped kidney, plasma renin level and mean arterial pressure were normal and clipping of the remaining kidney (in spite of the fact that kidney renin level was still low) now produced a wave of renin release and an increase in mean arterial pressure. These results suggest that the initial, rapid increase in mean arterial pressure following unilateral renal artery constriction is dependent on an increase in plasma renin level. Our results from animals with kidneys of varying renin levels suggest the existence of a cortical renin content of about 20% of normal below which the kidney is incapable of responding to renal artery constriction with significant renin release. Complete recovery of the renin (and blood pressure) response to clipping occurred when the renin content had reached about 75% of normal.

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COMPARISON OF THE CARDIOVASCULAR EFFECTS OF d- AND 1-PROPRANOLOL FOLLOWING CENTRAL OR PERIPHERAL ADMINISTRATION IN THE ANAESTHETIZED RAT

Besseghir

Atkinson

Péra-Bally

et al. 1978

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P. Luthi

Influence of streptozotocin-induced diabetes on blood pressure and on renin formation and release

Chronic clonidine treatment and its withdrawal: Effects on blood pressure and catecholamine synthesizing enzymes in brain-stem nuclei

Effect of Acute Administration of Prazosin on Blood Pressure, Heart Rate and Plasma Renin Level in the Conscious Normotensive Rat

The Role of Plasma and Renal Renin in the Rise in Blood Pressure Following Unilateral Renal Artery Constriction

COMPARISON OF THE CARDIOVASCULAR EFFECTS OF d- AND 1-PROPRANOLOL FOLLOWING CENTRAL OR PERIPHERAL ADMINISTRATION IN THE ANAESTHETIZED RAT

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