The Hypotensive Effect of Propranolol in Captopril-Treated Patients Does Not Involve the Plasma Renin—Angiotensin—Aldosterone System

1981 ◽  
Vol 61 (s7) ◽  
pp. 441s-444s ◽  
Author(s):  
J. Staessen ◽  
R. Fagard ◽  
P. Lijnen ◽  
L. J. Verschueren ◽  
A. Amery
Keyword(s):  
Blood Pressure ◽  
Angiotensin Ii ◽  
Serum Potassium ◽  
Plasma Renin ◽  
Hypotensive Effect ◽  
Placebo Treatment ◽  
Plasma Aldosterone ◽  
Double Blind ◽  
Plasma Aldosterone Concentration ◽  
Plasma Angiotensin

1. With a double-blind cross-over protocol, 20 hypertensive captopril-treated patients were studied by adding in a variable sequence a placebo and propranolol (80 mg three times a day) to their captopril regimen (200 mg three times a day), during periods each lasting 1 month. During captopril—placebo treatment their diastolic blood pressure remained elevated between 90 and 114 mmHg. 2. The additional administration of propranolol produced a significant hypotensive effect, but no alterations of the plasma angiotensin II and aldosterone concentrations and of the urinary aldosterone excretion occurred. The present data indicate that in captopril-treated patients the hypotensive effect of propranolol is achieved independently of changes in the plasma angiotensin II and aldosterone concentration. 3. The additional administration of propranolol also produced an increase in the serum potassium levels in the absence of any change in the plasma aldosterone concentration or in the urinary aldosterone excretion.

Role of the pituitary in the effects of tonin on adrenal secretion of the rat

1983 ◽  
Vol 61 (3) ◽  
pp. 201-206 ◽  
Author(s):  
Ernesto L. Schiffrin ◽  
Raul Garcia ◽  
Jolanta Gutkowska ◽  
Jacques Genest
Keyword(s):  
Plasma Renin ◽  
Plasma Corticosterone ◽  
Plasma Aldosterone ◽  
High Rate ◽  
Pituitary Hormone ◽  
Plasma Aldosterone Concentration ◽  
Plasma Angiotensin ◽  
Hypophysectomized Rats ◽  
Adrenal Secretion

Chronically catheterized conscious rats were infused intravenously with tonin at 2.4 and 12 μg∙kg−1∙min−1 for 2 h. Plasma aldosterone concentration (PAC) at the end of the experiment was 11.2 ± 2.4 ng% in controls, 8.5 ± 2.8 ng% in rats infused with tonin at the lower rate, and 26.2 ± 3.6 ng% (p < 0.01 vs. controls) in rats infused at the higher rate. Plasma corticosterone (PC) was significantly higher (p < 0.05) in the group infused at the high rate while plasma renin activity (PRA) was significantly reduced in this group of rats. Plasma angiotensin II (AII) concentration was similar in all three groups. PAC was elevated after tonin infusion in the presence of AII blockade. PAC in conscious sodium-depleted rats infused with tonin was not significantly changed, but PRA was significantly reduced (p < 0.01). In chronically hypophysectomized rats, PAC remained unchanged by tonin infusion. The failure of tonin to stimulate aldosterone in hypophysectomized animals indicates a role of a pituitary hormone (probably ACTH) in the effect of tonin on adrenal secretion.

Renin, Angiotensin and Aldosterone in Human Pregnancy and the Menstrual Cycle

1971 ◽  
Vol 16 (3) ◽  
pp. 183-196 ◽  
Author(s):  
J. I. S. Robertson ◽  
R. J. Weir ◽  
G. O. Düsterdieck ◽  
R. Fraser ◽  
M. Tree
Keyword(s):  
Angiotensin Ii ◽  
Plasma Renin ◽  
Normal Pregnancy ◽  
Maternal Plasma ◽  
Plasma Aldosterone ◽  
Sodium Depletion ◽  
Aldosterone Secretion ◽  
Renin Substrate ◽  
Plasma Aldosterone Concentration ◽  
In Pregnancy

Aldosterone secretion is frequently, although not invariably, increased above the normal non-pregnant range in normal pregnancy. Substantial increases in plasma aldosterone concentration have also been demonstrated as early as the sixteenth week. In pregnancy, aldosterone secretion rate responds in the usual way to changes in sodium intake. Plasma renin concentration is frequently, but not invariably, raised above the normal non-pregnant range. Plasma renin-substrate is consistently raised in pregnancy. Plasma angiotensin II has also been shown usually to be raised in a series of pregnant women. A significant positive correlation has been shown between the maternal plasma aldosterone concentration and the product of the concurrent plasma renin and renin-substrate concentrations. This suggests that the increased plasma aldosterone in pregnancy is the consequence of an increase in circulating angiotensin II, which in turn is related to the level of both renin and its substrate in maternal blood. For these reasons, estimations of renin activity in pregnancy are of dubious value. The increased renin, angiotensin and aldosterone concentrations may represent a tendency to maternal sodium depletion, probably mainly a consequence of the increased glomerular filtration rate. It is possible that the nausea and other symptoms of early pregnancy may be a consequence of this tendency to sodium depletion, with its attendant hormonal changes. In ‘pre-eclampsia’, renin and aldosterone values are generally slightly lower than in normal pregnancy. Human chorion can apparently synthesize renin independently of the kidney. The physiological significance of this remains at present obscure, but it seems unlikely that this source contributes much, if at all, to the often elevated maternal plasma renin. Plasma renin, renin-activity and angiotensin II concentrations, and aldosterone secretion are increased in the luteal phase of the menstrual cycle.

scholarly journals Effects of Ramipril on the Aldosterone/Renin Ratio and the Aldosterone/Angiotensin II Ratio in Patients With Primary Aldosteronism

Hypertension ◽  
2020 ◽  
Vol 76 (2) ◽  
pp. 488-496 ◽  
Author(s):  
Zeng Guo ◽  
Marko Poglitsch ◽  
Diane Cowley ◽  
Oliver Domenig ◽  
Brett C. McWhinney ◽  
...  
Keyword(s):  
Angiotensin Ii ◽  
Plasma Renin Activity ◽  
Ace Inhibitors ◽  
Primary Aldosteronism ◽  
Characteristic Curve ◽  
False Negative ◽  
Plasma Renin ◽  
Plasma Aldosterone ◽  
Renin Activity ◽  
Plasma Aldosterone Concentration

The aldosterone/renin ratio (ARR) is currently considered the most reliable approach for case detection of primary aldosteronism (PA). ACE (Angiotensin-converting enzyme) inhibitors are known to raise renin and lower aldosterone levels, thereby causing false-negative ARR results. Because ACE inhibitors lower angiotensin II levels, we hypothesized that the aldosterone/equilibrium angiotensin II (eqAngII) ratio (AA2R) would remain elevated in PA. Receiver operating characteristic curve analysis involving 60 patients with PA and 40 patients without PA revealed that the AA2R was not inferior to the ARR in screening for PA. When using liquid chromatography-tandem mass spectrometry to measure plasma aldosterone concentration, the predicted optimal AA2R cutoff for PA screening was 8.3 (pmol/L)/(pmol/L). We then compared the diagnostic performance of the AA2R with the ARR among 25 patients with PA administered ramipril (5 mg/day) for 2 weeks. Compared with basally, plasma levels of equilibrium angiotensin I (eqAngI) and direct renin concentration increased significantly ( P <0.01 or P <0.05) after ramipril treatment, whereas eqAngII and ACE activity (eqAngII/eqAngI) decreased significantly ( P <0.01). The changes of plasma renin activity and plasma aldosterone concentration in the current study were not significant. On day 14, 4 patients displayed false-negative results using ARR_direct renin concentration (plasma aldosterone concentration/direct renin concentration), 3 of whom also showed false-negative ARR_plasma renin activity (plasma aldosterone concentration/plasma renin activity). On day 15, 2 patients still demonstrated false-negative ARR_plasma renin activity, one of whom also showed a false-negative ARR_direct renin concentration. No false-negative AA2R results were observed on either day 14 or 15. In conclusion, compared with ARR which can be affected by ACE inhibitors causing false-negative screening results, the AA2R seems to be superior in detecting PA among subjects receiving ACE inhibitors.

Hypertension in Dahl salt-sensitive rats: biochemical and immunohistochemical studies

1992 ◽  
Vol 83 (1) ◽  
pp. 13-22 ◽  
Author(s):  
J. Bouhnik ◽  
J. P. Richoux ◽  
H. Huang ◽  
F. Savoie ◽  
T. Baussant ◽  
...  
Keyword(s):  
Blood Pressure ◽  
Angiotensin Ii ◽  
Plasma Renin Activity ◽  
Plasma Renin ◽  
High Salt ◽  
Renin Activity ◽  
Deficient Diet ◽  
High Salt Diet ◽  
Salt Diet ◽  
Plasma Angiotensin

1. The renin-angiotensin and kinin-kallikrein systems of Dahl salt-sensitive and salt-resistant rats fed diets with different salt contents were analysed using biochemical and immunocytochemical techniques. 2. Blood pressure increased by 45% in salt-sensitive rats only, after 4 weeks on a high-salt diet. The plasma renin activity and plasma angiotensin II concentration remained at the same levels in salt-sensitive rats on the high-salt diet as on the normal salt diet, whereas the plasma renin activity and plasma angiotensin II concentration of salt-resistant rats fed the high-salt diet were lower. The plasma renin activity and the plasma angiotensin II concentration were elevated in both salt-resistant and salt-sensitive rats fed the salt-deficient diet but were much more elevated in salt-resistant than in salt-sensitive rats. 3. The kidney immunocytochemical data paralleled the data on plasma parameters. Salt-sensitive rats had fewer renin positive juxtaglomerular apparatuses than salt-resistant rats on the normal diet, and the increase on the sodium-deficient diet was also smaller in salt-sensitive rats. Salt-sensitive rats fed the high-salt diet and the standard diet had almost no angiotensin II immunoreactivity compared with the salt-resistant rats on the same diets. 4. The total renal kallikrein content of salt-sensitive rats was lower than that of salt-resistant rats on all three diets, as was the amount of kallikrein excreted in the urine on the standard and the high-salt diets. The differences resulted from a reduction in active kallikrein. The increase in kallikrein in salt-sensitive and salt-resistant rats on the salt-deficient diet was not significantly different. 5. There were similar changes in immunopositive kallikrein in the kidneys of salt-sensitive and salt-resistant rats with diet, with a large increase in kallikrein biosynthesis on the low-salt diet. The plasma concentration of high-molecular-mass kininogen was not significantly different in salt-sensitive and salt-resistant rats, but there was a significant increase in T-kininogen in salt-sensitive rats fed the high-salt diet. 6. In conclusion, the absence of decreases in the plasma renin activity and the plasma angiotensin II concentration in salt-sensitive rats fed the high-salt diet might partially explain the increase in blood pressure.

Differential Effects of Acute and Chronic β-Adrenoreceptor Blockade on Blood Pressure and the Renin—Angiotensin—Aldosterone System in Essential Hypertension

1976 ◽  
Vol 51 (s3) ◽  
pp. 537s-540s
Author(s):  
R. Kolloch ◽  
K. O. Stumpe ◽  
H. Vetter ◽  
W. Gramann ◽  
F. Krück
Keyword(s):  
Blood Pressure ◽  
Essential Hypertension ◽  
Chronic Administration ◽  
Plasma Renin ◽  
Plasma Aldosterone ◽  
Receptor Blockade ◽  
Plasma Aldosterone Concentration ◽  
Group 2 ◽  
Β Receptor ◽  
Group 1

1. Serial measurements of plasma renin activity (PRA), plasma aldosterone concentration (PA) and blood pressure were performed overnight in patients with borderline (group 1) and sustained essential hypertension (group 2) before and after acute and chronic administration of either propranolol or pindolol. 2. Group 1 patients exhibited a typical rhythm of recumbent PRA with low values before midnight and large increases early in the morning. 3. In contrast, no rhythm and very low PRA values were observed in patients of group 2. Blood pressure was higher in group 2 than in group 1. There was a significant correlation between the hyporeninaemic and hypotensive effect of either acute (r = 0·79) or chronic (r = 0·4) β-receptor blockade. 4. In group 1, after β-receptor blockade the day—night profile of renin was similar to that observed in group 2 before treatment. Thus, in this latter subgroup, low-renin profiles might reflect reduced β-adrenoreceptor activity. 5. Plasma aldosterone was lower in group 2 but appeared to be inappropriately high relative to renin. 6. The data suggest that in hypertensive patients classified according to their blood pressure and recumbent PRA profiles a significant relationship exists between changes in PRA and arterial pressure. Thus patients with high PRA respond better to treatment than patients with low renin. We conclude that in the patients studied sympathetic nervous system activity mainly determined renin values as well as anti-hypertensive effectiveness of the β-blocking drugs.

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