Similarities and differences in the antihypertensive effect of two calcium antagonist drugs, verapamil and nifedipine

The Effects of Verapamil, Hydralazine, and Doxazosin on Renin, Aldosterone, and the Ratio Thereof

PURPOSE

Hydralazine, doxazosin, and verapamil are currently recommended by the Endocrine Society as acceptable bridging treatment in those in whom full cessation of antihypertensive medication is infeasible during screening for primary aldosteronism (PA). This is under the assumption that they cause minimal to no effect on the aldosterone-to-renin ratio, the most widely used screening test for PA. However, limited evidence is available regarding the effects of these particular drugs on said ratio.

METHODS

In the present study, we retrospectively assessed the changes in aldosterone, renin, and aldosterone-to-renin values in essential hypertensive participants before and after treatment with either hydralazine (n = 26) or doxazosin (n = 20) or verapamil (n = 15). All samples were taken under highly standardized conditions.

RESULTS

Hydralazine resulted in a borderline significant rise in active plasma renin concentration (19 vs 25 mIU/L, p = 0.067) and a significant fall in the aldosterone-to-renin ratio (38 vs 24, p = 0.017). Doxazosin caused declines in both plasma aldosterone concentration (470 vs 330 pmol/L, p = 0.028) and the aldosterone-to-renin ratio (30 vs 20, p = 0.020). With respect to verapamil, we found no statistically significant effect on any of these outcome variables.

CONCLUSION

We conclude that the assumption that these drugs can be used with little consequence to the aldosterone-to-renin cannot be substantiated. While it is possible that they are indeed the best option when full antihypertensive drug cessation is infeasible, the potential effects of these drugs must still be taken into account when interpreting the aldosterone-to-renin ratio.

Tamoxifen inhibits the proliferation of non‑melanoma skin cancer cells by increasing intracellular calcium concentration

Tamoxifen is an estrogen receptor (ER) antagonist used as first-line chemotherapy in breast cancer. Recent studies suggest that tamoxifen may be effective not only for ER‑positive but also for ER‑negative cancer cases. The aim of the present study was to investigate the antiproliferative effect of tamoxifen against human non‑melanoma skin cancer cells. Tamoxifen inhibited the proliferation of the skin squamous cell carcinoma (SCC) cell lines A431, DJM‑1 and HSC‑1. A431 cells did not express ER‑α or -β, suggesting that tamoxifen may exert antiproliferative effects on skin SCC cells via a non‑ER‑mediated pathway. Tamoxifen increased the intracellular calcium concentration of skin SCC cells, and this increase in intracellular calcium concentration by calcium ionophore A23187 suppressed the proliferation of skin SCC cells. These data indicate that tamoxifen inhibited the proliferation of human skin SCC cells via increasing intracellular calcium concentration. Voltage-gated calcium channels and non‑selective cation channels are involved in the increase in intracellular calcium concentration induced by tamoxifen. The broad-spectrum protein kinase C (PKC) inhibitor phloretin significantly attenuated the antiproliferative effect of tamoxifen on skin SCC cells. From these data, it may be concluded that tamoxifen inhibits the proliferation of skin SCC cells by induction of extracellular calcium influx via calcium channels in the plasma membrane and by subsequent activation of PKC.

Hypotensive and diuretic effect of the butanolic soluble fraction of the hydroethanolic extract of bark of Scutia buxifolia Reissek in rats

ETHNOPHARMACOLOGICAL RELEVANCE

Scutia buxifolia, a native tree popularly known as "coronilha", is widely used in Brazilian folk medicine for diuretic and anti-hypertensive purposes.

AIM OF THE STUDY

We investigated the effects of a butanolic (BuOH) soluble fraction of the hydroethanolic extract (HESB) of bark of Scutia buxifolia on both blood pressure and urinary excretion of rats. The involvement of the nitric oxide/guanylate cyclase pathway in the hypotensive effect found was also explored.

MATERIAL AND METHODS

We tested the effect of the BuOH soluble fraction of HESB on the mean arterial pressure (MAP) of anesthetized rats. The fraction was administered at doses of 1, 3 and 10mg/kg (i.v.) in normotensive rats during continuous infusion of vehicle (10 μl/min), or phenylephrine (4 μg/kg/min), or l-NAME (7 mg/kg/min), two approaches able to induce a sustained hypertensive state. In some experiments, a bolus injection of ODQ (2mg/kg) was administered in animals infused with phenylephrine before the administration of the BuOH soluble fraction of HESB. We also measured the effects of the BuOH soluble fraction on the MAP of spontaneously hypertensive rats (SHR). Separate groups of rats were treated orally with either HESB (10, 30 or 100mg/kg), or its BuOH soluble fraction (3, 10 or 30 mg/kg), and were subjected to measurement of diuresis and blood pressure.

RESULTS

The BuOH soluble fraction of HESB (10mg/kg, i.v.) reduced the MAP of both phenylephrine-infused and SHR rats by 20.6 ± 6.0 and 41.8 ± 8.3 mm Hg, respectively. However, no hypotensive effect was found in normotensive animals infused with l-NAME, a non-selective inhibitor of nitric oxide synthase, or animals previously treated with the soluble guanylate cyclase inhibitor ODQ. The urinary excretion was increased by 70% at 6-8h after a single oral administration of the BuOH soluble fraction of HESB (10mg/kg), without change in urinary density, pH, or Na(+) and K(+) concentrations. In addition, MAP was lower 3h after the acute oral treatment with the BuOH soluble fraction (82.1 ± 3.8 mm Hg), compared with MAP of animals from the control group (97 ± 3.2 mm Hg).

CONCLUSION

This study demonstrates that the BuOH soluble fraction of the hydroethanolic bark of Scutia buxifolia, which has its bark used in folk medicine for the treatment of hypertension mainly by its presumed diuretic properties, possesses both diuretic and hypotensive effects in rats, and that at least the hypotensive effect is fully dependent on activation of the nitric oxide/guanylate cyclase pathway.

Comparison of verapamil versus felodipine on heart rate variability in hypertensive patients

OBJECTIVE

We evaluated the effect of two calcium channel blockers, verapamil and felodipine, on heart rate variability in hypertensive patients.

DESIGN

Time and frequency domain measures of heart rate variability were obtained from 24 h Holter recording in 25 previously untreated hypertensive patients without left ventricular hypertrophy, before and after 3 months of verapamil slow-release treatment (240 mg once daily) or felodipine extended-release treatment (10 mg once daily).

RESULTS

Blood pressure values decreased with both drugs. Measures of heart rate variability, comparable at baseline in the two groups, were unchanged after felodipine. After verapamil, the average RR interval, the square root of the mean of the squared differences between all adjacent normal RR intervals (r-MSSD) and the percentage of differences between all adjacent normal RR intervals > 50 ms (pNN50), measures of vagal modulation of heart rate, increased (from 735 +/- 67 to 827 +/- 84 ms, P < 0.001; from 30 +/- 10 to 44 +/- 15 ms, P < 0.001; and from 3 +/- 2 to 7 +/- 6%, P < 0.01, respectively) and were higher than after felodipine. The coefficient of variation, a measure that compensates for heart rate effects, increased only after verapamil (from 5.8 +/- 1.3% to 6.6 +/- 1.0%; P < 0.05). High frequency power and its coefficient of component variance, both representing the vagal modulation of heart rate, increased after verapamil (from 5.33 +/- 0.29 to 5.80 +/- 0.27 In units, P < 0.001 and from 1.9 +/- 0.3 to 2.2 +/- 0.25%; P < 0.05). Finally, the low to high frequency power ratio, an indicator of sympathovagal balance, with a high value suggesting a sympathetic predominance, decreased after verapamil (from 2.16 +/- 0.41 to 1.36 +/- 0.35; P < 0.001), confirming the improvement in vagal modulation of heart rate.

CONCLUSION

In hypertensive patients, despite a comparable anti-hypertensive effect, verapamil, but not felodipine, has favourable effect on cardiac autonomic control.

Effect of calcium antagonists on plasma norepinephrine levels, heart rate, and blood pressure

To evaluate the effects of calcium antagonists on sympathetic activity in hypertensive patients, a MEDLINE search for English language articles published between 1975 and May 1996 using the terms calcium antagonists, sympathetic nervous system, and catecholamines was conducted. Clinical studies only reporting the effects of calcium antagonists on blood pressure, heart rate, and plasma norepinephrine (NE) levels in patients with hypertension were included. Data were combined and analyzed according to class of calcium antagonist (dihydropyridine vs nondihydropyridine), their duration of action (short-acting [SA] vs long-acting [LA]), and treatment duration. We identified 63 studies involving 1,252 patients. Acutely after single dosing, SA calcium antagonists decreased mean arterial pressure by 13.7 +/- 1.1% and increased heart rate by 13.7 +/- 1.4% and NE levels by 28.6 +/- 2.5%. Change in NE levels correlated with change in heart rate (r = 0.59, p <0.01) and inversely with change in arterial pressure (r = 0.46, p <0.05) in patients taking dihydropyridine calcium antagonists acutely. With sustained therapy, both classes of SA calcium antagonists increased NE levels. Whereas NE levels remained slightly elevated and heart rate unchanged with LA dihydropyridine calcium antagonists, both heart rate and NE levels decreased with LA nondihydropyridine calcium antagonists. SA calcium antagonists stimulate sympathetic activity when given acutely and over the long term, irrespective of their molecular structure. Sympathetic activation is less pronounced with LA dihydropyridine calcium antagonists and decreases with LA nondihydropyridine calcium antagonists. These data offer a possible pathophysiologic explanation for the increase in morbidity and mortality observed in some studies using SA calcium antagonists.

Verapamil reduces the size of reperfused ischemically injured myocardium in hypertrophied rat hearts as assessed by magnetic resonance imaging

Contrast-enhanced magnetic resonance (MR) imaging was used to detect and quantify the extent of myocardial injury after a brief coronary occlusion and reperfusion in response to verapamil treatment in a rat model of left ventricular hypertrophy (LVH). Two groups of rats were prepared by banding the abdominal aorta for 7 to 8 weeks to produce LVH. Group 1 (n = 13) received oral verapamil for 3 days, whereas group 2 (n = 13) received no therapy. Before MR examination was performed, each rat was subjected to 25 min of coronary artery occlusion followed by 1 hour of reperfusion. T1-weighted spin echo images were acquired before and after 0.3 mmol/kg gadoteridol was injected. Three images were acquired at contiguous levels of the LV and used to estimate the size of the myocardial injury. The size of the infarcted region was demarcated at postmortem examination by using triphenyltetrazolium chloride dye (TTC). Before contrast medium was administered, no significant difference in signal intensity was seen between nonischemic and reperfused ischemically injured myocardium. After gadoteridol was injected, a hyperintense zone indicative of myocardial injury was observed in 8 of 13 rats treated with verapamil and in all untreated animals. The size of the injury was significantly larger in untreated hearts than in hearts treated with verapamil as defined on MR images (25% +/- 5% vs 18% +/- 5%, p < 0.05) and TTC staining (12% +/- 4% and 4% +/- 1%, p < 0.05). Good correlation (r = 0.91) was found between the two measurements. No significant difference in the size of jeopardy area was seen between the two groups as (defined by blue dye infusion). In conclusion, contrast-enhanced MR imaging is a suitable technique to evaluate the effects of therapies applied to reduce myocardial injury. Verapamil can cause reduction in the extent of ischemic injury after reperfusion of hypertrophied myocardium.

Divergent effects of dihydropyridine and phenylalkylamine calcium channel antagonist classes on autonomic function in human hypertension

Calcium channel antagonists differ by class in reported frequency of side effects that suggest reflex sympathoadrenal activation. Do such differences result from differential effects on autonomic and baroreflex function? The present study compared acute and chronic effects of two classes of calcium channel antagonists, the dihydropyridine type (felodipine) and the phenylalkylamine type (verapamil), on efferent sympathetic outflow and baroreflex slope in 15 essential hypertensive subjects. Blood pressure, heart rate, hemodynamics, and biochemistries were determined at baseline and after acute (first dose) and chronic (4 weeks) administration of the drugs versus placebo. Acutely, felodipine caused a greater decrease in blood pressure associated with a larger decline in systemic vascular resistance than the corresponding effects produced by verapamil. Chronically, there were similar, significant declines in blood pressure (P = .001) and systemic vascular resistance (P = .001) after each drug. Acutely, increased sympathetic activity after felodipine was suggested by reflex tachycardia (from 69 +/- 3 to 74 +/- 2 beats per minute, P = .014) and elevation of plasma norepinephrine (from 264 +/- 25 to 323 +/- 25 pg/mL, P = .037), whereas after verapamil the corresponding changes were closely similar to those after placebo.(ABSTRACT TRUNCATED AT 250 WORDS)

Calcium antagonist use in congestive heart failure: still a bridge too far?

Calcium antagonists continue to be used to treat congestive heart failure (CHF), despite clinical evidence that they may exacerbate the disease. The systemic vasodilatory actions of these drugs make them potentially attractive for use as afterload reducing agents in patients with CHF. Newer calcium antagonists of the 1,4-dihydropyridine class, with claims of little or no negative inotropic properties and minimal effects on the sympathetic nervous system, seem a promising treatment of this disease. All calcium antagonists, however, consistent with their ability to block transmembrane calcium transport in cardiac muscle cells, are intrinsically negative inotropes. Moreover, clinical trial data are inconclusive about the ability of these newer calcium antagonists to activate the sympathetic nervous system. The relatively small numbers of patients with CHF, the differing degrees of CHF in different patient groups, and the variation in route of administration, dosage, and schedule of hemodynamic measurements make analyses of published data difficult. Although some patients with CHF respond positively to treatment with calcium antagonists, there is great individual variability of response, and the majority of patients show deterioration of myocardial function when taking calcium antagonists. Until conclusive clinical evidence of the safety and effectiveness of calcium antagonists in the treatment CHF is available, they should not be used to treat this disease unless individual patient characteristics clearly indicate a positive benefit/risk ratio.

Antihypertensive effect of felodipine associated with persistent sympathetic activation and minimal regression of left ventricular hypertrophy

Twenty patients whose systemic hypertension was not controlled with chronic beta-blocker therapy were studied to evaluate the acute (first dose), short-term (4 weeks) and chronic (6 to 12 months) effects of the calcium antagonist felodipine on blood pressure (BP), left ventricular (LV) anatomy and function and on plasma norepinephrine. The first dose of felodipine rapidly reduced total peripheral resistance and BP, associated with significant increases in heart rate, cardiac output and plasma norepinephrine. During chronic therapy, at the end of the dosing interval (12 hours), significant decreases in BP persisted with minimal changes in the other variables. However, even after 1 year of therapy BP after dosing again rapidly decreased associated with 50 to 100% increases in plasma norepinephrine and small increases in heart rate and cardiac output. Despite the marked decreases in systolic BP, LV wall thickness and mass showed only small decreases (LV mass -- 17 +/- 7 g/m2 after 1 year) and significant LV hypertrophy persisted after 1 year. Both average systolic BP and plasma norepinephrine were significant determinants of LV mass over the duration of the study. It is concluded that during chronic treatment with the twice-daily tablet formulation of felodipine, major daily fluctuations in BP persist associated with persisting sympathetic hyperactivity. The latter may play a role in the modest regression of LV hypertrophy despite 30 to 40 mm Hg decreases in systolic BP for 1 year.

Verapamil but not nifedipine impairs left ventricular function during exercise in hypertensive patients

Calcium antagonists are popular therapeutic agents in the treatment of systemic hypertension. Although these agents have similar antihypertensive efficacy, they have varied effects on left ventricular function at rest in hypertensive patients. The effect of different calcium antagonists on left ventricular function during exercise and on exercise performance in patients with hypertension, however, is less clear. Fifteen patients with essential hypertension (diastolic blood pressure = 95 to 110 mm Hg) were enrolled in a placebo-controlled, single-blinded crossover study comparing nifedipine with verapamil for rest/exercise heart rate and blood pressure, exercise performance, and rest/exercise left ventricular function. Each drug was titrated to achieve resting diastolic pressures less than 90 mm Hg. All patients underwent maximal exercise testing and rest/exercise gated radionuclide ventriculography at the end of 3-week placebo, nifedipine, and verapamil treatment periods. Both calcium antagonists significantly reduced blood pressure at rest and during exercise compared with placebo. Neither calcium antagonist altered resting heart rate; however, both verapamil and nifedipine significantly reduced heart rate at maximal exercise. Verapamil but not nifedipine impaired left ventricular peak emptying rate and left ventricular peak filling rate during exercise but not at rest. Neither verapamil nor nifedipine, however, significantly altered rest or exercise global left ventricular ejection fraction (LVEF) compared with placebo. There was a trend, however, for impairment in the LVEF response to exercise (delta LVEF) in the verapamil treatment group. Exercise capacity was not significantly altered by either calcium antagonist compared with placebo. Thus verapamil but not nifedipine impairs left ventricular function during exercise in hypertensive patients.(ABSTRACT TRUNCATED AT 250 WORDS)

Nifedipine potentiates cardiopulmonary baroreflex control of sympathetic nerve activity in healthy humans. Direct evidence from microneurographic studies

Nifedipine augments baroreflex mechanisms in in vivo animal models. Previous studies in our laboratory demonstrate that nifedipine potentiates baroreflex control of heart rate and vascular resistance in normal human subjects. To further define the neuroeffector mechanism of the autonomic effects of nifedipine, we directly measured postganglionic sympathetic nerve activity to muscle (MSNA, microneurography), before and after drug administration, during selective unloading of cardiopulmonary baroreceptors with lower body negative pressure (-10 mm Hg, LBNP-10), and during the cold pressor test. Twenty-three normal subjects (age, 23 +/- 1 years; mean +/- SEM) were studied in the control state and 20 minutes after administration of either nifedipine (10 mg s.l., 10 subjects), during nitroprusside infusion (0.37 +/- 0.03 microgram/kg/min i.v., eight subjects), or 20 minutes after sublingual administration of placebo (five subjects). We measured systemic arterial pressure, central venous pressure, heart rate, and MSNA. Nifedipine and nitroprusside produced similar increases in resting heart rate and MSNA and similar decreases in central venous pressure, whereas placebo had no effect on resting hemodynamics. During LBNP-10, hemodynamic changes were not significantly different among the three treatment groups. However, the percentage increase in MSNA during LBNP-10 was significantly augmented from a 24 +/- 9% increase before nifedipine to a 56 +/- 7% increase after nifedipine (p less than 0.05). Decreases in central venous pressure with LBNP-10 were nearly identical before compared with after nifedipine. Thus, nifedipine increased the cardiopulmonary baroreflex sympathetic sensitivity (change in total MSNA per mm Hg decrease in central venous pressure during LBNP-10) from 26.5 +/- 10.7 units/mm Hg to 74.9 +/- 19.0 units/mm Hg (p less than 0.01). In contrast, administration of hemodynamically similar doses of nitroprusside resulted in an attenuation of MSNA responses to LBNP-10. During LBNP-10, MSNA increased 57 +/- 12% before nitroprusside but only 14 +/- 4% during nitroprusside (p less than 0.01). The cardiopulmonary baroreflex sympathetic sensitivity was not significantly altered by nitroprusside (45.1 +/- 12.4 units/mm Hg before compared with 33.1 +/- 20.8 units/mm Hg during nitroprusside, p = NS). Placebo had no effect on the responses to LBNP-10. Nifedipine did not augment MSNA responses to the cold pressor test. To evaluate the linearity of sympathetic responses to cardiopulmonary baroreceptor unloading, graded LBNP (0, -5, -10, and -15 mm Hg) was applied in three additional subjects before and after nifedipine (10 mg s.l.).(ABSTRACT TRUNCATED AT 400 WORDS)

Calcium antagonists in hypertension

The calcium antagonists are effective and safe agents for the treatment of arterial hypertension. They are well tolerated by the patients. In contrast to other types of antihypertensive agents, they cause few metabolic disturbances. They can be combined with diuretics, beta-blockers, and angiotensin-converting enzyme (ACE) inhibitors. They can be safely prescribed to patients with hypertension and concomitant diseases such as diabetes mellitus, chronic obstructive lung disease, congestive heart failure, gout, renal failure, peripheral atherosclerotic disease, or Raynaud's phenomenon. Dietary sodium restriction during antihypertensive therapy with calcium antagonists is not required for optimal antihypertensive efficacy. The second generation of calcium antagonists especially the dihydropyridine analogues that have greater potency and vascular selectivity, and a longer duration of action, will optimize the treatment of hypertension. Their antiatherosclerotic, antiplatelet, and "antitrophic" effects in experimental models for atherogenesis and hypertension hold great promise for the future since, so far, there has been no major success in reducing the incidence of coronary death by the treatment of hypertension.

Calcium metabolism, calcium-channel blocking agents, and hypertension management

Increasing evidence has suggested that a disturbance of cellular calcium metabolism may have a role in initiating and maintaining elevated systemic vascular resistance in essential hypertension. Controversy exists over whether calcium can alleviate or exacerbate the hypertensive process, and diversity of calcium metabolism in hypertensive patients has been proposed. Calcium-channel blocking agents are potent vasodilators capable of correcting the elevated systemic vascular resistance. Clinical studies have shown that these drugs have antihypertensive efficacy comparable to established agents. The elderly, blacks, and patients with low renin activity respond well to calcium-channel blockers. These drugs may also offer potential advantages over established antihypertensive agents in patients with other coexisting diseases. Sustained release formulations have been developed, and initial experience with long-term efficacy and tolerability is encouraging. The calcium-channel blockers may become first-line therapy for treatment of hypertension in selected patients.

Intravenous nicardipine for the treatment of severe hypertension

PURPOSE

Severe hypertension responds to treatment with nifedipine given orally or sublingually. Nicardipine hydrochloride, a water soluble dihydropyridine analogue similar to nifedipine, has less of a negative ionotropic effect and produces less reflex tachycardia than nifedipine. Our purpose was to assess the antihypertensive efficacy and safety of intravenous nicardipine in a group of patients with severe hypertension (defined as a supine diastolic blood pressure of more than 120 mm Hg).

PATIENTS AND METHODS

Eighteen patients with severe hypertension received treatment with intravenous nicardipine. Nicardipine titration was performed using doses of 4 to 15 mg/hour to achieve therapeutic goal (diastolic blood pressure 95 mm Hg or less or decrease in diastolic blood pressure of more than 25 mm Hg). After this therapeutic end-point was reached, patients received maintainance therapy with nicardipine for varying lengths of time: one hour (Group I), six hours (Group II), or 24 hours. When blood pressure control was lost, patients in Groups I and II entered a second maintenance period lasting a maximum of 24 hours. Onset and offset of action of nicardipine at various infusion rates and times of infusion were measured.

RESULTS

Onset time to achieve therapeutic response was rapid at 15 mg/hour (0.31 +/- 0.13 hours) when compared with lower doses (1.11 +/- 0.36 hours at 4 mg/hour; 0.54 +/- 0.09 hours at 5 mg/hour; 0.52 +/- 0.09 hours at 7 to 7.5 mg/hour). Those who showed a therapeutic response received maintenance infusions with nicardipine for one (n = 7), six (n = 6), or 24 (n = 5) hours. Sustained blood pressure control at a constant rate of nicardipine infusion was seen in all patients during the maintenance period. After discontinuation of nicardipine, the time for offset of action (increase in diastolic blood pressure of 10 mm Hg or more) was independent of duration of infusion. Decreases in both systolic and diastolic pressures correlated well with plasma nicardipine levels. Heart rate increased by about 10 beats/minute, but this increase did not correlate with plasma nicardipine levels. Side effects were minimal, consisting of headache and flushing. In seven patients, local phlebitis developed at the site of infusion. This occurred after at least 14 hours of infusion at a single site, and the incidence can probably be reduced by shortening the infusion time at a single site.

CONCLUSION

Nicardipine appears to be a safe and effective drug for intravenous use in the treatment of severe hypertension.

Efficacy of the calcium antagonist isradipine in angina pectoris

Thirty-six patients with chronic, stable angina pectoris were studied during 2-week treatment periods in which they received, in a randomized double-blind, crossover study, a new calcium entry blocking agent, isradipine, 7.5 mg three times daily or placebo. Antianginal efficacy was determined by treadmill exercise testing carried out 3 and 9 hours after drug administration on the final day of each treatment period. During placebo therapy, treadmill exercise time to the onset of angina (P1) and to the development of moderate angina (P2) was similar at 3 and 9 hours and similar to the placebo run-in period. During isradipine therapy, treadmill exercise time 3 hours after dosing was greater than with placebo therapy (P1 312 +/- 23.0 vs. 267 +/- 19.5 seconds, p less than 0.001; P2 410 +/- 20.2 vs. 355 +/- 18.8 seconds, p less than 0.002). Nine hours after drug administration, the results of exercise testing were similar to placebo.

Calcium channel antagonists. Part III: Use and comparative efficacy in hypertension and supraventricular arrhythmias. Minor indications

The major antihypertensive mechanism of calcium antagonists is by decreasing the systemic vascular resistance, modified by the counter-regulatory responses of the baroreflexes and the renin-angiotensin-aldosterone system. In severe hypertension, the concept that calcium overload of the vascular myocyte could precipitate or aggravate peripheral vasoconstriction provides a logical basis for the use of these agents as first choice therapy; nifedipine, especially, has been well tested. As monotherapy for mild to moderate hypertension each of the three first-generation agents compares well with beta-blockers. Calcium antagonists may have a special role in the therapy of certain patient groups (elderly, black) or in those subjects whose life style involves intense physical or mental exertion (hemodynamics better maintained than with beta-blockade) or in patients with early end-organ damage such as left ventricular hypertrophy or renal insufficiency. However, the goal blood pressure may not be reached during monotherapy so that drug combinations may be required. Further indications for these compounds are as follows. Verapamil and diltiazem are frequently used in supraventricular tachycardias including acute and chronic atrial fibrillation. In the arrhythmias of the Wolff-Parkinson-White syndrome, there is the potential danger of provocation of anterograde conduction. Further indications for calcium antagonists, still under evaluation, include congestive heart failure (controversial), hypertrophic cardiomyopathy (verapamil), primary pulmonary hypertension (high doses required), Raynaud's phenomenon (nifedipine and diltiazem effective), peripheral vascular disease (proof not yet documented), cerebral insufficiency and subarachnoid hemorrhage (nimodipine promising), migraine, exertional bronchospasm, renal disease, atherosclerosis (experimental), and primary aldosteronism (nifedipine inhibits aldosterone release). Second-generation agents include dihydropyridines, such as nitrendipine, nicardipine, felodipine, amlodipine, nisoldipine, nimodipine, and isradipine. From these will be selected agents that are longer acting and provide higher vascular selectivity. New preparations of existing agents include slow-release formulations of nifedipine, verapamil, and diltiazem. Minor side effects include those caused by vasodilation (flushing and headaches), constipation (verapamil), and ankle edema. Serious side effects are rare and result from improper use of these agents, as when intravenous verapamil is given to patients with sinus or atrioventricular nodal depression from drugs or disease, or nifedipine to patients with aortic stenosis. The potential of a marked negative inotropic effect is usually offset by afterload reduction, especially in the case of nifedipine. Yet caution is required when calcium antagonists, especially verapamil, are given to patients with myocardial failure unless caused by hypertensive heart disease. Drug interactions of calcium antagonists occur with other cardiovascular agents such as alpha-adrenergic blockers, beta-adrenergic blockers, digoxin, quinidine, and disopyramide.(ABSTRACT TRUNCATED AT 400 WORDS)

Hormonal and metabolic effects of calcium channel antagonists in man

Calcium is a component of many metabolic reactions. By blocking calcium transport across cell membranes, calcium channel antagonists can therefore theoretically affect numerous metabolic and hormonal processes. In vitro studies have often documented just such an effect. Because of the expanding use and prevalence of calcium antagonists in clinical practice, a review of their in vivo effects on hormones and metabolism is warranted. The effect on glucoregulatory hormones, calcium regulatory hormones, anterior and posterior pituitary secretion, the renin-angiotensin axis, plasma catecholamines, and plasma lipids and lipoproteins is herein reviewed. The various calcium antagonists, by virtue of their distinct chemical structures, influence metabolism in their own unique manner. Despite the widespread involvement of calcium in hormone action, however, calcium channel antagonists have little dramatic impact on hormone regulation. This is, in part, due to the drug dosage used in clinical practice and to the inherent compensatory mechanisms built into normal endocrine function. The development of agents with greater and more potent metabolic specificity, however, coupled with the ability to target drug action, holds promise for expanded therapeutic application in the future.

Calcium channel antagonists, Part I: Fundamental properties: mechanisms, classification, sites of action

Ca2+ channel antagonists are agents that interact with the voltage-dependent Ca2+ channel in a highly specific way. The prototype agents of cardiovascular importance are verapamil, nifedipine, and diltiazem, in historical order of appearance. These agents all have different molecular structures and bind separately with receptor sites located in or near the calcium channel, at molecular sites still to be fully identified. There are probably three distinct receptor sites (V, N, D) which stand in relation to the "gate" of the long-acting "L" calcium channel. There is probably overlap among the receptor sites, especially between the V and D sites to explain their common properties. All three agents inhibit the voltage-dependent calcium channel in vascular smooth muscle and also myocardial slow calcium channels. The ratio of the arterial to the myocardial effect is an index of the arterial selectivity, generally held to be a desirable property because the negative inotropic effect is usually a liability. The general clinical impression that nifedipine is the agent most active in vascular tissue in relation to the myocardial effect is supported by data on the relative potencies of these three agents on blood perfused dog preparations and by a comparison of the potency on rat vascular (portal vein) versus myocardial effects. Nonetheless all three agents are highly active in the inhibition of K(+)-induced vascular contractions (nifedipine 10(-9) M to 10(-8) M; verapamil 10(-7) M to 10(-6) M; and diltiazem 5 x 10(-7) M to 10(-6) M; concentrations for 50% inhibition of K(+)-induced vascular contractions in rat or rabbit aorta; comparative data for resistance vessels not available). The clinical impression that verapamil and diltiazem are more active on nodal tissue is also supported by a comparison of potencies on blood perfused dog nodal preparations in comparison with effects on coronary flow, with verapamil and diltiazem being approximately 10x more potent on the AV node than increasing coronary blood flow, so that the nodal effect is first detected. These basic pharmacological properties explain why all these three agents have clinical effects relevant to inhibition of vascular contraction (antihypertensive and antianginal effects) and only verapamil and diltiazem have clinically relevant inhibitory effects on the AV node (inhibition of supraventricular tachycardias). The comparative potencies of verapamil, diltiazem, and nifedipine in angina and hypertension will be examined in Parts II and III of this review.

Influence of nifedipine on arterial baroreflex modulation of heart rate control during dynamic increases in arterial pressure: studies in normal man

Studies in animals have demonstrated that calcium channel blocking agents exert important influences on autonomic mechanisms in addition to their direct vascular effects. Previous studies in our laboratory showed that clinical doses of nifedipine sensitized baroreceptor-mediated control of peripheral vascular resistance in normal human subjects. However, baroreflex control of vascular tone does not necessarily imply parallel control of heart rate. A series of experiments was therefore performed to test the hypothesis that therapeutic doses of nifedipine would potentiate arterial baroreflex modulation of heart rate during ramp increases of arterial pressure in normal volunteers. Arterial baroreflex control was assessed by measuring heart interval (HI) responses to dynamic ramp elevation of systolic arterial pressure (SAP) with bolus administration of phenylephrine (PE) before and after nifedipine or placebo in 19 normal subjects. Arterial baroreflex control was calculated from the slope of the regression of SAP on succeeding HI during the first 18 cardiac cycles following onset of rise of SAP after PE bolus. In 13 subjects, bolus PE produced an increase in SAP from 125 +/- 3 mm Hg to 152 +/- 5 mm Hg (p less than 0.01), with a resultant increase in HI from 1110 +/- 57 msec to 1541 +/- 87 msec (p less than 0.01). The baroreflex response was linear (r greater than 0.80, p less than 0.025) and = 17.8 +/- 3.3 msec/mm Hg.(ABSTRACT TRUNCATED AT 250 WORDS)

High-dose calcium channel-blocking therapy for primary pulmonary hypertension: evidence for long-term reduction in pulmonary arterial pressure and regression of right ventricular hypertrophy

In an attempt to produce substantial reductions in pulmonary arterial pressure and pulmonary vascular resistance in patients with primary pulmonary hypertension, a new treatment strategy using high doses of calcium channel-blocking drugs was developed. Thirteen patients were given an initial test dose of 60 mg diltiazem or 20 mg nifedipine followed by consecutive hourly doses until a 50% fall in pulmonary vascular resistance and 33% fall in pulmonary arterial pressure was achieved or untoward side effects developed. The initial drug challenges failed to produce significant reductions in mean pulmonary arterial pressure or pulmonary vascular resistance. In eight of 13 patients, continued hourly doses produced a reduction in mean pulmonary arterial pressure of 48% (61 to 35 mm Hg, p less than .01) and a reduction in pulmonary vascular resistance of 60% (15 to 6 units, p less than .01). These patients were discharged on high-dose (up to 720 mg/day diltiazem or 240 mg/day nifedipine) calcium channel-blocking drugs as long-term therapy. Five patients have returned for restudy after 1 year. In four of five the reductions in pulmonary arterial pressure and pulmonary vascular resistance were sustained and were associated with regression of right ventricular hypertrophy as assessed by electrocardiography and echocardiography. One patient who reduced her dose to a conventional level had a return of her pulmonary arterial pressure and pulmonary vascular resistance toward previous levels. We conclude that substantial reductions in pulmonary arterial pressure and pulmonary vascular resistance that are associated with regression of right ventricular hypertrophy are possible in some patients with primary pulmonary hypertension by use of calcium channel-blocking drugs.(ABSTRACT TRUNCATED AT 250 WORDS)