1 We have studied the diuretic and natriuretic effects and the tubular site of action of nifedipine using free water clearance (CH20) and lithium clearance.
Calcium entry blockers, such as felodipine, increase natriuresis without increasing kaliuresis. Since these drugs acutely increase plasma renin activity without a concomitant change of aldosterone, inhibition of such stimulated aldosterone release might explain the absence of kaliuresis. In a randomized crossover study in 12 male volunteers, we compared the effects of simultaneously administered exogenous aldosterone and felodipine with the effects of either felodipine or aldosterone alone. Felodipine infusion decreased blood pressure, increased renal plasma flow, and induced natriuresis without kaliuresis. Aldosterone alone reduced sodium excretion and increased potassium excretion without influencing hemodynamics. Addition of aldosterone to felodipine attenuated its natriuretic effect and induced a kaliuresis, which clearly exceeded the rise of potassium excretion during aldosterone alone [delta% fractional excretion of K+ +42 +/- 12 with felodipine+aldosterone and +7 +/- 8% with aldosterone alone; means +/- SE, P < 0.02]. Our data suggest that felodipine-mediated inhibition of stimulated aldosterone release is essential for the absence of kaliuresis with felodipine. In addition, the pronounced kaliuresis with aldosterone during felodipine is in keeping with increased distal sodium delivery due to a proximal tubular action of felodipine.
Ten patients with a hypertensive crisis and a decreased renal function were treated with 10 (n =7) or 20 (n=3) mg nifedipine sublingually. Blood pressure was reduced in 60 min from 211 + 4/134 + 5 to 172 + 6/107 ± 6 mm Hg. The decrease of blood pressure was accompanied by a rise in heart rate from 83 ± 6 to 98 ± 5 beats/min. In all seven patients with an encephalopathy signs of this complication were reduced. No serious side-effects were observed.
In previous studies in humans, mannitol (20%, 250 ml) has been shown to reduce the incidence of acute renal failure (ARF) after transplantation from 54% to 19%. In rats, atrial natriuretic peptide appears to prevent ischemia-induced ARF. We therefore decided to evaluate the effects of alpha-human atrial natriuretic peptide (alpha-h-ANP) both alone and combined with mannitol during transplantation in humans. First, we demonstrated that systemic alpha-h-ANP infusion during kidney transplantation was safe in dosages up to 0.08 micrograms/kg per minute. In these patients the calculated metabolic clearance rate of alpha-h-ANP was relatively low ranging from 0.68 to 1.80 l/min. In a second study of 11 renal graft recipients, no mannitol was used and alpha-h-ANP (0.05 micrograms/kg per minute) was infused into the donor kidney artery during transplantation for 46 +/- 2 min, followed by IV administration for 71 +/- 2 min. Our aim was to reduce the incidence of ARF. Nevertheless, ARF occurred immediately after surgery in four of the patients (36%) in this group and, as a result, mannitol was reintroduced. A third group of nine renal graft recipients received alpha-h-ANP (total dose 400 micrograms) as five IV injections within 90 min after transplantation. ARF occurred in four of these patients (44%). We conclude that alpha-h-ANP, administered according to the aforementioned protocols in such small groups of patients, does not seem to be of value in the prevention of ARF after transplantation.
1. It has been reported that calcium antagonists lower blood pressure more effectively in salt replete hypertensive patients with a low plasma renin activity (PRA), whereas angiotensin converting enzyme (ACE) inhibitors are more effective in salt depleted patients with a high level of PRA. An inverse relationship between the antihypertensive effects of these two groups of drugs might therefore be expected. 2. Since salt retention and inappropriately high levels of PRA are said to contribute to hypertension in patients with chronic renal failure (CRF), an additive antihypertensive effect with both drugs might also be expected in such patients. 3. To test these hypotheses, we investigated the acute and chronic antihypertensive effects of the calcium antagonist nitrendipine and the new ACE inhibitor cilazapril, given alone, and in combination, in a double‐blind, randomized, placebo controlled study of 11 hypertensive patients with chronic renal failure who had a mean pretreatment blood pressure of 149 +/‐ 3/96 +/‐ 2 mm Hg. Patients received nitrendipine 10 mg, cilazapril 1.25 or 2.5 mg depending on creatinine clearance, or placebo once daily orally. Nitrendipine and cilazapril were also combined at the same doses. 4. Nitrendipine and cilazapril were equally effective, with a maximal acute reduction of mean arterial pressure (MAP) of 5.3 +/‐ 1.8% and 8.0 +/‐ 1.9%, and after 1 week of treatment 5.0 +/‐ 2.4% and 8.1 +/‐ 1.8%, respectively. In individual patients no inverse relationship between the blood pressure responses to the two drugs was found.(ABSTRACT TRUNCATED AT 250 WORDS)
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