Antihypertensive effect of a 5-day infusion of atrial natriuretic factor in humans

Atrial natriuretic factor was infused in a low dose (0.2 microgram/min) during 5 days in six patients with essential hypertension. Atrial natriuretic factor infusion caused plasma levels of atrial natriuretic factor to increase from 49 +/- 10 to 106 +/- 19 pg/ml. Within 4 hours after the start of the atrial natriuretic factor infusion, urinary sodium excretion increased in all subjects. Sodium balance was regained after 24 hours with a net loss of 72.3 +/- 14.6 mmol. However, systolic as well as diastolic blood pressure started to decrease gradually in all subjects only after 12 hours of atrial natriuretic factor infusion, reaching a stable level after 36 hours with a decrease of 11.5 +/- 1.5% and 10.3 +/- 0.8%, respectively. Heart rate increased in parallel by 12.6 +/- 3.1%. Hematocrit rose 7.1 +/- 2.3%. After cessation of atrial natriuretic factor infusion, plasma atrial natriuretic factor levels, sodium balance, and hematocrit returned to baseline within 24 hours, whereas blood pressure slowly returned toward baseline values over 3 days. These data show that chronic atrial natriuretic factor infusion in patients with essential hypertension causes a negative sodium balance and a rise in hematocrit, followed by a smooth decrease in blood pressure with a rise in heart rate until a new equilibrium is reached after approximately 2 days. Thus, atrial natriuretic factor in low doses appears intimately involved in the regulation of sodium balance and blood pressure in humans. Moreover, these data suggest that atrial natriuretic factor-like substances will eventually become useful antihypertensive drug

Differences in erythrocyte sodium transport between human plasma and artificial medium:the role and character of sodium efflux and influx stimulating plasma factors

The main objective of this study was to further characterize the plasma factor(s) which stimulate sodium efflux from erythrocytes, which we reported previously. Dialysis of plasma against an artificial medium using membranes with varying molecular mass cut-off points revealed relative molecular mass(es) of the factor(s) of 1 00- 1 000 Da. The factor(s) could be absorbed on Dowex at pH 1. 5 and Amberlite at pH 11.0, indicating 'Zwitterionic' character. They are hydrophilic and resistant to acid hydrolysis. These characteristics and direct measurements of contents made amino acids likely candidates for the efflux stimulating properties of the factor(s). Indeed, plasma amino acids added to artificial medium could abolish the sodium efflux difference between plasma and the artificial medium. The efflux stimulating effect of amino acids appeared not to be the result of sodium influx stimulation. A coincident finding was that plasma also contains dialyzable sodium influx stimulating factor(s) which are not amino acids

Reduction of proteinuria by angiotensin converting enzyme inhibition

Reduction of proteinuria by angiotensin converting enzyme inhibition. The effects of the angiotensin converting enzyme (ACE) inhibitor lisinopril on blood pressure, proteinuria and renal hemodynamics were evaluated in 13 patients with renal disease of different origin. A comparison was made with the effects of conventional antihypertensive therapy. Both drug regimens significantly lowered blood pressure, while only after 12 weeks of treatment with lisinopril, blood pressure was significantly lower than during conventional therapy. Lisinopril reduced proteinuria (by 61 ± 40%), whereas conventional therapy had no significant effect on protein excretion. During the first eight weeks of treatment with lisinopril, there was a comparable degree of blood pressure reduction with both treatment regimens, whereas urinary protein loss was significantly less during ACE inhibition. There was only a nearly–significant positive correlation between the fall in proteinuria during lisinopril and the concomitant decrease in mean arterial pressure. Glomerular filtration rate decreased from 26.3 ± 11.6 to 20.6 ±9.4 ml/min during treatment with lisinopril. This decrease was not correlated with the fall in proteinuria. A significant positive correlation existed between the fall in urinary protein excretion and both the decrease in overall renal vascular resistance, and the fall in filtration fraction. Although blood pressure lowering by itself could contribute to the antiproteinuric effect of lisinopril, our results suggest that this effect of ACE inhibition is also due to efferent (postglomerular) vasodilation. We conclude that the ACE inhibitor lisinopril effectively reduces blood pressure and proteinuria in renal disease. The latter effect is not only the result of a lower blood pressure, but is probably also due to a fall in intraglomerular capillary pressure

Moderate sodium restriction in hypertensive subjects:Renal effects of ACE-inhibition

Moderate sodium restriction in hypertensive subjects: Renal effects of ACE-inhibition. It has been suggested that AII-mediated renal mechanisms limit the efficacy of moderate sodium restriction in the lowering of blood pressure (BP) in hypertension. We therefore studied renal hemodynamics and sodium handling in nine essential hypertensives in balance on 200 and on a 50 mmol sodium diet, before and during ACE-inhibition (enalapril 10 mg bid for 8 days) in a cross-over fashion. BP was similar on 50 and 200 mmol Na before enalapril, the fall in BP during enalapril was significantly more pronounced on 50 mmol Na. On 50 mmol Na, GFR and filtered Na were significantly lower, and tubular reabsorption was significantly higher than on 200 mmol Na. GFR increased during enalapril in 50 but not on 200 mmol Na. Consequently, the differences in GFR and filtered load elicited by sodium restriction were no longer present during ACE-inhibition. In contrast, the differences in tubular reabsorption between 50 and 200 mmol Na persisted during enalapril. In conclusion, moderate sodium restriction, not affecting BP, can elicit a renal hemodynamic response. As this response is blunted by ACE-inhibition it is probably mediated by AII. This blunting may contribute to the increased sodium sensitivity of BP during ACE-inhibition. The adaptation of tubular sodium reabsorption is not affected by ACE-inhibitio

Diuretic effects of angiotensin-converting enzyme inhibition:Comparison of low and liberal sodium diet in hypertensive patients

Inhibitors of the angiotensin-converting enzyme (ACE) acutely increase sodium excretion. Whether or not continued treatment induces net negative sodium balance is not clear, and may depend on initial sodium balance. We therefore investigated the effects of 8 days of treatment with enalapril, 10 mg b.i.d., on sodium balance in 10 subjects with uncomplicated essential hypertension, in balance on a low (50 mmol sodium/24 h) and a liberal (200 mmol sodium/24 h) sodium intake. Sodium excretion exceeded intake during the first days of treatment, amounting to sodium losses of 101 +/- 24 and 112 +/- 15 mmol in the low and the liberal sodium diets, respectively. The sodium loss was accompanied by a fall in body weight with both regimens. The blood pressure response to enalapril was potentiated by the sodium-restricted diet. The net increase in sodium excretion after enalapril administration, however, was similar for both diets. This was particularly true for individual patients, suggesting an individual response pattern to ACE inhibitio

Toward individual prognosis of IgA nephropathy

Toward individual prognosis of IgA nephropathy. The individual prognosis of adult IgA nephropathy patients was studied using the proportional hazards model for the time from biopsy until endstage renal disease. After selection of the most relevant prognostic factors, the 75 patients were stratified with respect to hypertension and its treatment. In these strata, individual prognosis was based on (1) the initial age-adjusted glomerular filtration rate, (2) the initial proteinuria, (3) the presence/absence of gross hematuria, and (4) the presence/absence of microscopic hematuria. Using the scores of a patient on these variables, the probability of surviving any given period of time can be estimated either graphically or by calculation. Prediction is feasible up to about 10 years. Attention has been given to supply all relevant estimates with confidence limits. For each patient the estimated 5-year survival probability as predicted by the model was compared with the actual outcome