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Hôpital Nestlé, University of Bern, University Hospital of Bern

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Cardiovascular counterregulation during sympathetic inhibition in normal subjects and patients with mild hypertension.

Weidmann¹,

Beretta-Piccoli²,

Link³

et al. 1983

Hypertension

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SUMMARY The influence of agents that inhibit sympathetic nerve activity on cardiovascular responsiveness as related to major pressor factors has been unclear. Therefore, these components were evaluated in 11 normal subjects and 13 patients with mild essential hypertension before and after 4 weeks of sympathetic neuron blockade with the agent debrisoquine. In these normal and mildly hypertensive subjects, sympathetic neuron blockade caused approximately similar decreases in urinary and supine or upright plasma norepinephrine (NE) levels (average changes in the two groups, -4 1 % and -45%, respectively; p < 0.05 to < 0.005), the chronotropic dose of isoproterenol ( -45% and -38%), and the NE pressor dose ( -4 7 % and -5 1 % , p < 0.01), while the relationship between NE-induced changes in blood pressure and concomitant plasma NE concentrations was displaced to the left (p < 0.01). Supine heart rate was also lowered ( -10% and -8 % , p < 0.05). Compared to the orthostatic variations during placebo conditions, mild postural decreases in blood pressure were apparent in both the normal and hypertensive groups ( -8% and -7.5%). However, supine blood pressure was unchanged following debrisoquine treatment. Other parameters were also not consistently changed, such as total blood volume, exchangeable body sodium, urinary electrolytes, plasma epinephrine, renin, and angiotensin II (AH) levels, the pressor dose of infused All, and the relationship between All-induced changes in blood pressure and plasma AH measured before and during All infusion. These findings demonstrate that the reduction in sympathetic outflow during sympathetic neuron blockade may elicit a hyperresponsiveness of alpha-and beta-adrenergic receptors that is equal in normal subjects and patients with mild essential hypertension. (Hypertension 5: 873-880, 1983) KEY WORDS.• sympathetic nervous system • sympathetic inhibition blood pressure regulation • norepinephrine • renin • angiotensin II cardiovascular pressor responsiveness • cardiac beta-receptor response T HE arterial blood pressure is determined both by the absolute quantities of pressor factors and by cardiovascular responsiveness. In normal humans, the pressor effects of norepinephrine (NE) and angiotensin II (All) correlate inversely with their preexisting blood levels, 1 " 1 and this may contribute to blood pressure homeostasis. However, cardiovascular NE responsiveness tends to be exaggerated relative to plasma NE concentrations in normotensive offspring of hypertensive families 4 and patients with borderline 5 or established 23 -6 essential hypertension. Moreover,

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Calcium and blood pressure regulation in normal and hypertensive subjects.

Bianchetti¹,

Beretta-Piccoli²,

Weidmann³

et al. 1983

Hypertension

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To elucidate the mechanisms involved in calcium-mediated blood pressure (BP) control, plasma norepinephrine (NE), epinephrine, renin activity, and angiotensin II (AII) levels and the cardiovascular pressor responsiveness to NE and AII were assessed before and during acute mild hypercalcemia or short-term calcium (Ca) inhibition with nifedipine in 20 normal and five borderline hypertensive subjects. In normal subjects, systolic BP and plasma NE and epinephrine concentrations were increased significantly (p less than 0.05) during an acute rise in serum Ca of 3.1 mg/dl (intermediate rate Ca infusion, 0.05 mg/kg/min for 3 hours), but not following an increase of 1 mg/dl (low rate Ca infusion, 0.034 mg/kg/min for 2 hours). In the borderline hypertensive group, low-rate Ca infusion elevating serum Ca by 1 mg/dl was associated with a slight increase in systolic BP (p less than 0.05) and plasma catecholamines. In both groups, the pressor responses to infused NE and AII, and plasma renin and AII levels, were unchanged during mild to moderate hypercalcemia. Nifedipine given for 2 weeks (average dose, 48 mg/d) reduced BP significantly (p less than 0.05) in the borderline hypertensive subjects only and NE pressor responses in both groups (p less than 0.025), but had no significant effect on plasma catecholamines, renin, or AII levels. These findings suggest that the adrenergic BP control mechanism may be more dependent on clinical variations in calcium metabolism than the angiotensin BP regulatory mechanism. Acute hypercalcemia may increase BP at least in part by causing an increase in adrenergic activity without an equivalent decrease in cardiovascular reactivity. Calcium inhibition with nifedipine may modify noradrenergic BP control by lowering the NE pressor reactivity without causing an equivalent increase in adrenergic activity.

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Disturbed noradrenergic blood pressure control in normotensive members of hypertensive families.

Bianchetti¹,

Weidmann²,

Beretta-Piccoli³

et al. 1984

Heart

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The possible influence of a family history of hypertension on some variables of adrenergic blood pressure regulation was assessed. Blood pressure, heart rate, plasma renin activity, adrenaline and noradrenaline concentrations, and plasma or urinary electrolyte estimations did not differ significantly between two groups of normotensive subjects matched for age and sex with and without a family history of hypertension. Compared with subjects without a family history, however, an appreciably decreased pressor dose of infused noradrenaline, a distinct shift to the left in the relation between noradrenaline induced changes in mean arterial pressure and concomitant plasma noradrenaline concentrations, and an enhanced pressor response to given increases in plasma noradrenaline concentrations occurred in the group with a family history. These findings suggest that an imbalance between cardiovascular noradrenaline responsiveness and circulating noradrenaline is a common familial disturbance which could possibly predispose to the development of essential hypertension.

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Acute effects of combined vasodilation and beta‐adrenoceptor blockade with prizidilol on renal function.

Boehringer¹,

Weidmann²,

Link³

et al. 1983

Brit J Clinical Pharma

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1 The effects of a single oral dose of 600 mg of prizidilol on renal function were studied 5 to 6 h after dosing in six normal subjects and eight patients with essential hypertension. 2 Mean arterial blood pressure was reduced to 92% of the control value in normal subjects and to 75% in hypertensive patients. Heart rate increased slightly. 3 In normal subjects, effective renal plasma flow was increased to 107% of control values while glomerular filtration rate (83%), filtration fraction (79%), sodium (84%) and potassium (50%) clearances were significantly decreased. 4 In hypertensive subjects, effective renal plasma flow was increased to 120% of control values, while glomerular filtration rate (67%), filtration fraction (57%), sodium (27%) and potassium (72%) clearances were significantly decreased. 5 Plasma noradrenaline increased significantly in normal subjects (150%) and in patients (173%).Plasma renin activity, aldosterone and epinephrine levels did not change consistently. 6 The results indicate that the acute effects of prizidilol on blood pressure and renal function are more marked in hypertensive than in normotensive subjects. Prizidilol increases renal plasma flow like hydralazine and depresses glomerular filtration rate and fractional sodium excretion like endralazine. In addition to the fall in arterial pressure, efferent vasodilation and/or a specific effect on the glomerular ultrafiltration coefficient Kf may account for the striking decrease in filtration fraction.

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Studies on Aldosterone Responsiveness to Angiotensin II during Clinical Variations in Calcium Metabolism in Normal Man

Bianchetti

Beretta-Piccoli

Weidmann

et al. 1982

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1. Angiotensin II was infused at stepwise increasing dose rates (2, 4 and 10 pmol min-1 kg-1) in 12 normal subjects. Infusions were performed in the presence of normocalcaemia, mild hypercalcemia induced by concomitant calcium gluconate infusion, and after 2 weeks of treatment with nifedipine. 2. Pre-infusion plasma levels of angiotensin II, renin or aldosterone were not altered by acute mild hypercalcaemia or administration of nifedipine. The angiotensin II-induced increases in plasma aldosterone were also similar under the three study conditions. 3. Variations in calcium metabolism occurring under clinical conditions appear to play a minor role in modulating the angiotensin II-dependent pathway of aldosterone regulation in normal man.

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Cardiovascular counterregulation during sympathetic inhibition in normal subjects and patients with mild hypertension.

Calcium and blood pressure regulation in normal and hypertensive subjects.

Disturbed noradrenergic blood pressure control in normotensive members of hypertensive families.

Acute effects of combined vasodilation and beta‐adrenoceptor blockade with prizidilol on renal function.

Studies on Aldosterone Responsiveness to Angiotensin II during Clinical Variations in Calcium Metabolism in Normal Man

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