Multiple effects of calcium entry blockers on renal function in hypertension.

Romero, J. Carlos; Raij, Leopoldo; Granger, J. P.; Ruilope, Luís M.; Rodicio, José L.

doi:10.1161/01.hyp.10.2.140

Cited by 99 publications

(24 citation statements)

References 80 publications

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“…" 29 This response is what would be expected if the primary effect of verapamil were reduction in preglomerular vascular resistance. If filtration rate were measured in patients shortly after the start of verapamil treatment, an increase in GFR might be observed if the acute hypotensive effects of the calcium entry blocker were prevented; in several studies in patients, increases in GFR have been reported soon after the start of treatment with the calcium entry blocker.…”

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confidence: 71%

The antihypertensive mechanism of verapamil. Alteration of glomerular filtration rate regulation.

Lin

Young

1988

Hypertension

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SUMMARY The renal hemodynamic and renin release responses to verapamil were analyzed to determine if the antihypertensive action of the calcium entry blocker could be due to its renal effects. Hemodynamic and renin release measurements were compared in a control group of nine anesthetized rabbits and in a group of 10 rabbits given verapamil (200 /ig/kg i.v. initially, 4 ^g/kg/min thereafter), starting 30 minutes before data collection. Measurements were made over a range of controlled renal perfusion pressure from 100 to 40 mm Hg. The renal blood flow at 100 mm Hg of the verapamiltreated group was 18% greater (p<0.02) than that of the control group, while the glomerular filtration rate was 51% greater (p<0.001) than that of the control group. Renal blood flow and glomerular filtration rate autoregulation were highly effective in the control group down to 80 mm Hg, but both variables were poorly regulated in the verapamil-treated group. The filtration fraction of the treated group was 36.9 ± 1.5% versus 28.5 ± 1.6% in the control group (p<0.003) at 100 mm Hg, and the filtration fraction of the treated group remained significantly greater down to 40 mm Hg. Renin release rates of the two groups were similar at the 100 mm Hg pressure level, but the increase in release due to the progressive reduction in perfusion pressure was significantly greater in the treated group than in the control group. At the 80 mm Hg pressure level, the mean release rate for the treated group was more than three times greater (p<0.05) than that of the control group. These findings demonstrate that verapamil is an effective renal vasodilator and that the effect is proportionally greater on the preglomenilar than on the postglomerular resistance. This action could be the basis for its antihypertensive efficacy. (Hypertension 11: 639-644, 1988) KEY WORDS • renal hemodynamics • renin * renal blood flow • vasodilation filtration fraction • hypertension • rabbit T HE primary effect of calcium entry blockers is to reduce the rate of entry of calcium into the cytoplasm of a wide range of cell types. In vascular smooth muscle this effect results in a decrease in cytosolic calcium concentration and a reduction in contractile activity, leading to vasodilation. A variety of calcium entry blockers have proved to be effective in the treatment of hypertension, and the general vasodilator action is believed by many to be the mechanism of the effect. However, many effective vasodilators do not reduce the steady state level of arterial pressure in hypertensive patients, and several maneuvers that drastically affect total peripheral resistance (e.g., pregnancy, amputation, closing an arteriovenous

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confidence: 71%

The antihypertensive mechanism of verapamil. Alteration of glomerular filtration rate regulation.

Lin

Young

1988

Hypertension

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“…8 They have also been shown to reduce the extent of aortic atherosclerosis in cholesterol-fed rabbits. 9 Within the kidney, calcium channel blockers can vasodilate afferent arterioles 10 and might increase the glomerular ultrafiltration coefficient, which is determined in part by mesangial cell function. In patients with hypertension and renal insufficiency, short-term treatment with calcium channel blockers has been shown to improve glomerular filtration rate.…”

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confidence: 99%

Inhibition of human mesangial cell proliferation by calcium channel blockers.

Shultz

Raij

1990

Hypertension

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Human mesangial cells in culture proliferate in response to platelet-derived growth factor (PDGF) and thrombin. Both of these agents also induce changes in cytosolic calcium that are dependent on both mobilization of intracellular calcium and influx of extracellular calcium. We hypothesized that calcium channel blockers, by preventing influx of extracellular calcium, may inhibit proliferation induced by these mitogens. We found that three different calcium channel blockers, diltiazem, nifediplne, and verapamil, were able to significantly inhibit [

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“…8 - 10 In addition, diuresis and natriuresis are typically associated with the renal vasodilation induced by these drugs when administered to hypertensive subjects. 11 Furthermore, recent studies have shown that the renal vasculature of normotensive relatives of hypertensive patients is abnormally sensitive to the dilating effect of intrarenally infused diltiazem. 12 Taking these findings into account, we studied the renal responses to an acute oral administration of the calcium entry blocking agent nifedipine in young normotensive subjects with or without one hypertensive parent.…”

Section: Prehypertensive Renal Response To Nifedipine/mon/anari Et Almentioning

confidence: 99%

Abnormal renal responses to calcium entry blockade in normotensive offspring of hypertensive parents.

et al. 1988

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SUMMARYIn nine young normotensive subjects with no family history of hypertension and nine age-matched normotensive subjects with one parent with essential hypertension, effective renal plasma Sow (p-aminohippuric acid clearance), gtomerular filtration rate (inuHn clearance), and excretion of sodium and exogenously administered lithium were measured for 90 minutes before and after administration of a single 20-mg oral dose of the calcium entry blocker nifedipine. Segments! tubular handling of fluid and sodium was estimated using lithium clearance as a marker of proximal tubular reabsorption. Nifedipine did not cause any change in subjects with no family history of hypertension, but in those with one hypertensive parent there was a marked increase hi effective renal plasma flow (from 644 ± 39 to 847 ± 42 [SEM] ml/min x 1.73 m J ; p < 0.001) and a decrease In filtration fraction (from 17.6 ± 1.0 to 12.6 ± 0.4%; p < 0.001), while the glomerular filtration rate was unchanged, thus suggesting a prevailing efferent vasodilation. Sodium excretion rate (p < 0.02) and fractional sodium excretion (p < 0.025) increased slightly but significantly in subjects with one hypertensive parent, but not in normotensive subjects with no family history of hypertension. Lithium clearance also rose (from 29.0 ± 2.0 to 32.8 ± 1 . 9 ml/min, p < 0.001), and the derived value of fractional proximal reabsorption diminished (from 75.8 ± 1.0 to 71.3 ± 1.2%, p < 0.001). Estimated distal delivery of sodium and absolute distal sodium reabsorption both increased significantly (p < 0.005), while fractional distal sodium reabsorption was unchanged. Our data show an exaggerated'renal vasodilator response to calcium entry blockade in young normotensive subjects with one hypertensive parent that may be related to an abnormality in the efferent arteriolar tone sensitive to calcium entry blockade. 1 A number of studies in prehypertensive subjects, such as young normotensive members of hypertensive families, have been conducted to investigate functional disturbances preceding the onset of high blood pressure (BP) that may be involved in the pathophysiology of essential hypertension. Indeed, several abnormalities have been

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Multiple effects of calcium entry blockers on renal function in hypertension.

Cited by 99 publications

References 80 publications

The antihypertensive mechanism of verapamil. Alteration of glomerular filtration rate regulation.

The antihypertensive mechanism of verapamil. Alteration of glomerular filtration rate regulation.

Inhibition of human mesangial cell proliferation by calcium channel blockers.

Abnormal renal responses to calcium entry blockade in normotensive offspring of hypertensive parents.

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