Renin stimulation by passive tilting: the influence of an anti-gravity suit on postural changes in plasma renin activity, plasma noradrenaline concentration and kidney function in normal man

Congestive heart failure: pathophysiologic consequences of neurohormonal activation and the potential for recovery: part II

The congestive heart failure syndrome has its pathophysiologic origins rooted in neurohormonal activation, including hormone-mediated salt and water retention with ensuing central and systemic venous congestion. A systemic illness involving soft tissues and bone compounds this syndrome. Despite its complexity, however, many of these pathophysiologic consequences may prove reversible. Several lines of evidence, including responses to bed rest, pharmaceuticals and circulatory assist devices, suggest the potential for recovery exists and includes both the heart and systemic tissues. The fundamental basis on which the potential for recovery resides relates to withdrawal of responses and stimuli to activation of the renin-angiotensin-aldosterone and adrenergic nervous systems. Thus, a note of optimism would suggest congestive heart failure should no longer be considered an irreversible disorder. Instead, the potential for recovery must be considered as a reasonable expectation.

The influence of posture on the estimation of daily salt intake by the second morning urine method

The second morning urine (SMU) method was developed to evaluate daily salt intake, but the posture that should be adopted until the SMU collection remains unclear. This study investigated the influence of posture in hypertensive patients who underwent this test. The subjects were 100 patients who could collect 24-h urine samples correctly and were on a diet containing 7 g of salt per day. Their daily salt intake was estimated for three consecutive days in the recumbent, sitting, and sitting and standing positions (one posture each day). Estimated salt intake in the recumbent position (10.9+/-2.4 g day(-1)) was higher than in the sitting position (7.5+/-2.0 g day(-1)) and the sitting and standing position (6.3+/-1.7 g day(-1)). The salt intake estimated in the sitting and standing position was similar to that obtained by 24-h urine collection (6.3+/-1.6 g day(-1)) and was significantly (r=0.44, P<0.05) correlated with the 24-h urine value. The actual difference in estimated salt intake between the two methods was 0.0+/-1.7 g day(-1). There were no significant differences in estimated salt intake between the two methods in patients taking different classes of antihypertensive drugs. In conclusion, adopting the sitting and standing position until the SMU collection is important for the correct estimation of daily salt intake, and this method could replace the 24-h collection method because of its convenience, especially in outpatients.

Effect of Timed Semirecumbency and Furosemide Dosing on Urinary Sodium Excretion in Patients with Compensated Heart Failure

PURPOSE

The management of chronic cardiac failure, a salt-sensitive state, frequently includes administration of a loop diuretic to enhance urinary Na excretion. We hypothesized that a period of timed semirecumbency (vis-à-vis upright posture) would enhance the natriuresis that accompanies oral furosemide dosing in patients with compensated cardiac failure.

METHODS

Four ambulatory patients with compensated chronic cardiac failure (NYHA Class III) of ischemic and nonischemic origin and systolic dysfunction (ejection fraction <35%), who were receiving a stable regimen of oral furosemide and angiotensin-converting enzyme inhibitor, were enrolled into the study. In the institution's Clinical Research Center, we monitored and compared urine flow rate (mL/min) and Na excretion rate (mEq/hr) in each patient in response to two different protocols. Protocol 1 consisted of an initial 90-minute period of bedrest followed by the patient's oral furosemide dose and 180 minutes of upright activity and a subsequent 90-minute period of bedrest. Protocol 2 was similar, with the exception that furosemide dosing was given after upright activity and immediately prior to the second period of bedrest.

RESULTS

With each patient serving as his or her own control, both urine flow rate and urinary Na excretion rate were markedly increased when furosemide was given prior to bedrest as compared to its dosing prior to upright activity.

CONCLUSIONS

In patients with compensated chronic cardiac failure, the natriuresis that accompanies oral furosemide dosing is enhanced when given just prior to a period of timed semirecumbency. This approach represents a more optimal use of this loop diuretic in patients with compensated heart failure.

CHF: circulatory homeostasis gone awry

The role of the renin-angiotensin-aldosterone system (RAAS) is integral to salt and water retention, particularly by the kidneys. Over time, positive sodium balance leads first to intra- and then to extravascular volume expansion, with subsequent symptomatic heart failure. This report examines the role of the RAAS in regulating a less well recognized component essential to circulatory homeostasis--central blood volume. The regulation of central blood volume draws on integrative cardiorenal physiology and a key role played by the RAAS in its regulation. In presenting insights into the role of the RAAS in regulating central blood volume, this review also addresses other sodium-retaining states with a predisposition to edema formation, such as cirrhosis and nephrosis.

Effect of age on renal functional and orthostatic vascular response in healthy men

1. Few studies have been reported concerning the effect of ageing on renal functional and vascular responses to various stresses during ordinary life. In the present study, we examined the effect of age on changes in renal sodium handling and renal vascular resistance (RVR) in response to standing from a supine position in subjects with normal renal function. 2. We selected 43 healthy males in the second through to the seventh decade of life and gave them a constant dietary sodium intake before the study period. Renal function was estimated by standard clearance methods with the subject in a state of euvolaemia. 3. The mean daily urinary excretion of sodium was 236 +/- 22 mEq. Standing from a supine position was associated with significant decreases (P < 0.0001) in creatinine clearance (from 125 +/- 18 to 117 +/- 19 mL/min per 1.73 m2), sodium excretion (from 178 +/- 29 to 97 +/- 23 microEq/min) and fractional excretion of sodium (from 1.02 +/- 0.19 to 0.60 +/- 0.13%). A significant increase (P < 0.0001) in the RVR index (from 0.11 +/- 0.03 to 0.14 +/- 0.04 units) was noted. Univariate analysis indicated that while the change in RVR associated with standing was significantly diminished (P < 0.05) in older subjects, orthostatic changes in other parameters associated with standing were minimally influenced by age. 4. In conclusion, although the renal vascular response is impaired in advanced age, the renal functional response to orthostasis is otherwise maintained in healthy elderly subjects under conditions of normal sodium intake and clinical euvolaemia.

Hemodynamic, renal, and hormonal responses to lower body positive pressure in human subjects

Studies in healthy human subjects subjected to lower body positive pressure (LBPP) have failed to elucidate many of the physiologic effects of this maneuver. In 7 healthy, well-hydrated men we studied the following responses to LBPP (35 mm Hg, 1 hour, supine position): systemic and renal hemodynamics; urine volume (UV), urine osmolality (Uosm), and urine sodium level (UNaV); free water (CH20) and osmolar (Cosm) clearances; plasma renin activity (PRA); levels of aldosterone (PA), cortisol (CORT), norepinephrine (NE), atrial natriuretic peptide (ANP), and vasopressin (AVP); osmolality (Posm); and serum sodium level. Subjects were restudied on a control day with zero trouser pressure. The recorded changes (p < 0.05) when comparing the LBPP day with the control day were as follows: fractional Na+ reabsorption increased (98.7% +/- 0.2% to 99.3% +/- 0.1%) and UNaV decreased (0.19 +/- 0.03 mEq/min to 0.10 +/- 0.01 mEq/min), with concomitant increases in PRA (1.7 +/- 0.2 ng/ml/90 min to 4.5 +/- 1.8 ng/ml/90 min), PA (7.7 +/- 0.7 ng/dl to 9.3 +/- 1.5 ng/dl), and CORT (13.0 +/- 2.6 mg/dl to 19.2 +/- 3 mg/dl); the increase in blood pressure with LBPP (96 +/- 3 mm Hg to 112 +/- 4 mm Hg) was greater than that during control conditions. Renal plasma flow tended to display an interactive pattern across days, with a slight decline during LBPP (5%) and a slight elevation under control conditions (9%). On the LBPP day only, filtered Na+ declined (15 +/- I mEq/min to 12 +/- 1 mEq/min) as a function of reduced glomerular filtration rate (112 +/- 5 ml/min to 91 +/- 7 ml/min), blood volume decreased (by 2.7% +/- 0.7%), CO decreased (5.5 +/- 0.3 L/min to 4.7 +/- 0.3 L/min), and stroke volume declined (101 +/- 6 ml to 84 +/- 3 ml). On both days, NE increased (control, 221 +/- 23 pg/ml to 340 +/- 33 pg/ml; LBPP, 236 +/- 17 pg/ml to 369 +/- 31 pg/ml) and ANP increased (control, 47 +/- 7 pg/ml to 97 +/- 21 pg/ml; LBPP, 49 +/- 10 pg/ml to 104 +/- 30 pg/ml). We concluded that LBPP reduces renal sodium excretion. The mechanism for this reduction is not known, although it did occur in association with an increase in plasma renin activity, which in turn results from mechanical reduction of renal perfusion, stress-related CORT stimulation, a reflex-based elevation in peripheral vascular resistance leading to a reflex increase in plasma renin activity, or a combination of these.

Effect of upright posture and physical exercise on endogenous neurohormonal systems in cirrhotic patients with sodium retention and normal supine plasma renin, aldosterone, and norepinephrine levels

It is well known that sodium retention occurs in a significant proportion of patients with cirrhosis despite normal supine plasma levels of renin, aldosterone (ALDO), and norepinephrine (NE). The current study was performed to assess whether this subset of patients also present normal activity of the renin-aldosterone and sympathetic nervous systems during upright posture in sitting position and moderate physical exercise. Nine healthy controls, 14 patients with compensated cirrhosis and 10 patients with cirrhosis, ascites, sodium retention, and normal supine plasma renin activity (PRA) and ALDO and NE concentration were sequentially studied after 60 minutes in supine rest, 30 minutes in sitting position, and 30 minutes of cycloergometric exercise (3-METs). Sitting position and exercise were associated with similar stimulation of the renin-aldosterone and sympathetic nervous systems in the three groups of subjects. Consequently, cirrhotic patients with ascites showed values of PRA and plasma concentration of ALDO and NE similar to healthy subjects and patients with compensated cirrhosis during supine rest (renin: 1.4 +/- 0.3, 0.8 +/- 0.2, and 0.8 +/- 0.3 ng/mL; aldosterone: 24.3 +/- 4.7, 20.2 +/- 3.9 and 21.4 +/- 3.4 ng/dL; norepinephrine: 252 +/- 23, 250 +/- 16, and 255 +/- 23 pg/mL), sitting position (renin: 2.1 +/- 0.5, 1.1 +/- 0.3, and 1.6 +/- 0.4; aldosterone: 32.2 +/- 7.3, 23.7 +/- 5.3, and 26.2 +/- 4.5; norepinephrine: 356 +/- 38, 401 +/- 63, and 420 +/- 35), and exercise (renin: 2.9 +/- 0.8, 1.6 +/- 0.4, and 2.2 +/- 0.5; aldosterone: 43 +/- 6.4, 34.9 +/- 8.5, and 38.2 +/- 5.3; norepinephrine: 481 +/- 35, 499 +/- 54, and 534 +/- 48).(ABSTRACT TRUNCATED AT 250 WORDS)

Gravitational stress and volume regulation

During the past 3 decades, groundbased experiments have been performed in order to investigate the effects of increased and decreased gravitational stress, respectively, on the renal response in humans. Experiments that simulate an increase in gravitational load (+Gz) to the subjects (centrifugation, passive head-up titlt [HUT] or lower body negative pressure [LBNP] have clearly demonstrated a decrease in renal sodium and water excretion. Simultaneously, increases in plasma levels of arginine vasopressin (AVP), renin activity (PRA), aldosterone (PA), norepinephrine (NE) and decreases in ANP have been observed. Additionally, experiments that have utilized immersion of seated subjects to simulate a decreased gravitational stress (approximately 0 Gz) have demonstrated that renal water and sodium excretion increases by 100-400% and that plasma AVP, PRA, PA, and NE concentrations are reduced and ANP levels increased. Alternative experimental models conducted to simulate the effects of weightlessness in humans such as head-down tilt (HDT) and lower body positive pressure (LBPP) have yielded less consistent results than those of water immersion (WI) with respect to renal function. However, compared to a seated control HDT clearly induces an increased rate of renal fluid and sodium excretion. The demonstration that central volume expansion during WI is accompanied by an increase in renal fluid and electrolyte excretion and that central hypovolaemia during centrifugation, HUT, and LBNP is accompanied by the opposite effects indicate that changes in central blood volume is an important determinant of the renal functional changes. Results of experiments in humans during weightlessness in space are inconsistent and difficult to interpret. However, they have indicated that a cephalad redistribution of blood and fluid occurs and that this is accompanied by a decrease in total body fluid. Experimental models that, respectively, increase and decrease the gravitational stress in humans constitute promising tools in the investigation of the physiology and pathophysiology of volume regulation.

Free plasma catecholamine levels in healthy subjects: a basal and dynamic study. The influence of age

We studied the levels of free plasma noradrenaline (norepinephrine, NE), adrenaline (epinephrine, E), and dopamine (DA) in 143 normal subjects, either basally or, in a part of them, in response to four tests stimulating the sympathoadrenomedullary activity: the tilt-table test (TTT), the cold-pressor test (CPT), the mental-arithmetic test (MAT), and the insulin tolerance test (ITT). In both cases we evaluated the influence of age, which is considered the main physiological variable affecting the peripheral sympathetic activity. A normal distribution of values was observed, in the basal study, only for NE, while E and particularly, DA levels were distributed in an non-homogeneous fashion; a direct correlation was observed between age of subjects and NE levels, while neither E, nor DA levels showed any correlation with the aging process; sex did not influence any of the catecholamines. In the dynamic study, CPT, ITT and, above all, TTT elicited a significant rise in NE levels, while the E release was greatly stimulated by the insulin-induced hypoglycaemia. Neither NE, nor E levels rose after the MAT stimulation. Also in this case, the elderly showed an increased noradrenergic responsiveness when compared with the young subjects, confirming the existence of an 'up-regulation' of the peripheral sympathetic tone in old people.

Pneumatic anti-shock garment: state of the art 1988

The responses of hypovolemic patients would be expected to be similar to experimental animals that were hypovolemic. Normovolemic patients would be expected to respond as do the normovolemic experimental animals. Hypovolemic patients do not necessarily respond the same as do normovolemic patients or volunteers. The amount of external pressure applied by the device is directly proportional to the amount of tissue pressure increase. Tissue pressure is transmitted to the vessel as reduction transmural pressure, or in change in the size of the vessels and subsequent increase in SVR. Patient response to external pressure varies with the amount of device pressure. The optimal pressure of the PASG is in the range of 60 to 80 torr. Although exceeding this value does not appear to be necessary, it is not harmful in the short term (less than 90 minutes). Using less pressure reduces the SVR and, therefore, the blood pressure response. Keeping the external pressure at approximately 40 torr appears to be ideal for hemorrhage control. Of the more than 300 articles that have appeared in the recent literature addressing the PASG, at least 190 have discussed specific scientific experiments in the animal laboratory, in the human laboratory, or in the clinical environment, in which results gathered addressed how, why, or if the PASG worked. These studies demonstrate that the PASG does, in fact, improve blood pressure, control hemorrhage, improve carotid and upper body blood flow, improve the ability of the prehospital provider to start IV lines, and improve survival (particularly short-term) with few hospital and even fewer prehospital complications. The device produces its blood pressure response by improving preload, increasing SVR, and mobilizing some blood (500 to 1,000 mL) to the upper body compartment above the device. These responses are most probably produced by decreasing the radius of the vessels compressed by the device, decreasing the compartment volume, and differentially affecting the blood flow without and within the device. Hemorrhage is controlled by increasing the external pressure on the vessel by the transmitted increased tissue pressure, reducing the vascular lumen, and reducing the area of the laceration. Short-term survival is improved by decreasing intra-abdominal hemorrhage and improving perfusion (maintaining better oxygenation in the heart-brain-lung circulation.) Long-term survival is improved because the device controls hemorrhage, maintains blood pressure, and allows delivery of the severely injured patient to the trauma center and within the hospital while awaiting an OR, as in the case of a leaking aortic aneurysm.(ABSTRACT TRUNCATED AT 400 WORDS)

Effects of diltiazem on hormonal and hemodynamic responses to lower body negative pressure and tilt in patients with mild to moderate systemic hypertension

Mean arterial blood pressure, forearm vascular resistance, plasma norepinephrine, plasma renin activity and aldosterone responses to graded lower body negative pressure and tilt at 80 degrees were examined in 10 men with mild to moderate essential hypertension before and after 12 weeks of diltiazem (240 to 360 mg/day) therapy. Diltiazem therapy lowered basal supine systolic and diastolic blood pressures without affecting basal heart rate. Mean arterial blood pressure and forearm vascular resistance were decreased from 114 +/- 1.5 to 105 +/- 1 mm Hg, p less than 0.01 and from 29.3 +/- 3.5 to 18.9 +/- 2.1 units, p less than 0.01, respectively. Diltiazem therapy had no effect on basal supine levels of norepinephrine, plasma renin activity or aldosterone, nor on the responses of these hormones to lower body negative pressure. Diltiazem did decrease the forearm vascular resistance responses to lower body negative pressure and tilt. Diltiazem abolished an orthostatic increase (10 +/- 0.3 mm Hg) in mean arterial blood pressure and this was associated with a greater plasma norepinephrine response to tilt. These results suggest that diltiazem decreases vascular resistance through a reduction in the postjunctional effects of norepinephrine on vascular smooth muscle.

Renal function impairment induced by change in posture in patients with cirrhosis and ascites

The assumption of upright posture by patients with liver cirrhosis leads to striking activation of adrenergic and renin-angiotensin systems. The tilting-induced modifications in renal function of eight healthy controls and 14 untreated patients with liver cirrhosis and ascites were related to plasma concentrations of noradrenaline, renin activity and aldosterone. All patients had preserved renal blood perfusion. All parameters were evaluated during bed rest for two hours and in the sitting posture for one hour. Basal plasma renin activity (0.1 greater than p greater than 0.05), aldosterone and noradrenaline concentrations (p less than or equal to 0.01) were raised in cirrhotics. The renal function tests (creatinine clearance, filtered sodium, tubular rejection fraction, urinary sodium excretion) were significantly reduced in cirrhosis. Under basal conditions, in cirrhotic patients tubular rejection fraction and urinary sodium excretion were inversely related to both noradrenaline and aldosterone concentrations. After tilting, the noradrenaline and aldosterone integrated outputs (sigma delta) were significantly greater in cirrhosis. All renal function tests significantly decreased in cirrhotics, whereas creatinine clearance only significantly decreased in controls. Patient's tubular rejection fraction of sodium and sodium excretion were related to sigma delta aldosteronaemia (r = -0.72; p less than 0.01), but no longer to sigma delta plasma noradrenaline.

Reflex control of regional circulations in humans

This study of autonomic control of the peripheral vascular system deals with reflex control of regional circulations, vasoconstriction in the upright posture, disturbances in the normal regulation caused by dysautonomia and spinal cord transection, regional vasomotor responses to thermal stress, and the overall sympathetic nerve activity in humans under stress. Data presented describe local and overall reactions that occur in normal and abnormal states. In varieties of stresses, humans adjust by increasing sympathetic nerve outflow in a highly predictable fashion. However, powerful local or humoral influences, such as those generated by hypoxia, hemorrhage, etc., are pitted against neurogenic vasoconstriction so that prediction of responses is very difficult.

Haemodynamic and hormonal effects of prazosin on head-up tilt in essential hypertensive patients: comparison with those of propranolol

To evaluate the haemodynamic and hormonal effects of prazosin, head-up tilt was performed in 10 essential hypertensive patients, and these effects of prazosin on the tilt were compared with those of propranolol. The tilts were performed in control phase and the last days of treatment for two weeks with propranolol (90 mg/day) or prazosin (3-6 mg/day). Each drug significantly lowered the mean blood pressure at rest, and also suppressed its rise on the tilt. Heart rates were significantly increased by the tilt in the control phase, in the propranolol phase and in the prazosin phase. Cardiac index was significantly reduced by the tilt from 2.66 (s.e.m. = 0.22) 1/min per m2 to 2.08 (s.e.m. = 0.20) in the propranolol phase. However, there were not significant changes in other phases. Total peripheral resistance indices were significantly increased by the tilt in all three phases. Plasma renin activity and plasma aldosterone were significantly increased by the tilt from 2.14 (s.e.m. = 0.47) ng/ml per h to 2.46 (s.e.m. = 0.54) and from 50.6 (s.e.m. = 12.9) pg/ml to 74.9 (s.e.m. = 14.9) respectively, in the control phase. And they were also significantly increased from 1.06 (s.e.m. = 0.29) to 1.65 (s.e.m. = 0.45) and from 41.4 (s.e.m. = 16.3) to 54.0 (s.e.m. = 17.4) in the prazosin phase. There were no significant increases during the administration of propranolol. We observed that prazosin did not alter heart rate and cardiac index, but suppressed the renin-angiotensin system at rest. It is suggested that prazosin did not influence haemodynamic and hormonal responses to the tilt.

Contribution of local blood flow regulation mechanisms to the maintenance of arterial pressure in upright position during epidural blockade

The contribution of local blood flow regulation mechanisms to the maintenance of arterial pressure in upright position was studied in 5 normal subjects. Central sympathetic blockade was induced by epidural anesthesia. Blood flow in anterior tibial muscle in both legs and in brachioradial muscle in one arm was measured by the local 133Xe washout technique. Arterial blood pressure was recorded directly from the radial artery. Slow head-up tilt (about 30 degrees) caused a decrease in blood flow of about 36% in the dependent legs and in arm remaining at heart level. Arterial pressure decreased by about 10%. Blockade of the local sympathetic veno-arteriolar "axon reflex" in one leg by injection of phentolamine into the common femoral artery caused a vasodilatation in the ipsilateral muscle, while muscle blood flow did not change in the other leg or arm. Within 20 s after the injection of phentolamine arterial pressure decreased by about 7%. This cannot be explained by a "systemic" effect because injection of phentolamine into the femoral vein did not effect arterial pressure within the first 40 s. Vasoconstriction due to blood-borne factors is ruled out since preventing the increase in vascular transmural pressure in the leg by inducing counterpressure locally, abolished the vasoconstriction. Thus, the results suggest that the local veno-arteriolar "axon reflex" together with myogenic mechanisms contribute to the maintenance of arterial pressure in the upright position.

Treatment of diabetic orthostatic hypotension with pindolol

The hemodynamic variables, plasma noradrenaline and plasma renin concentrations were studied in a 57-year-old female with insulin-dependent diabetes of long-standing and orthostatic hypotension. For 6 months she had been bedridden because of severe orthostatic symptoms. Reflex responses in the heart rate and blood pressure during the Valsalva manoeuvre as well as beat-to-beat variations in heart rate were absent. Plasma noradrenaline concentrations were subnormal both in the supine and upright positions. After treatment with Pindolol 15 mg/day the patient was able to walk around and lead an almost normal life. The orthostatic symptoms recurred after withdrawal of therapy and disappeared on resumption of therapy. Arterial blood pressure measured intra-arterially decreased less in the up-right position during treatment with pindolol compared to that in the untreated condition. The heart rate did not change during treatment with Pindolol. Our findings suggest that Pindolol may be an important drug in the treatment of diabetic orthostatic hypotension.

Sympathetic nervous activity and renal and systemic hemodynamics in cirrhosis: plasma norepinephrine concentration, hepatic extraction, and renal release

Systemic and renal neurovascular reactivity was investigated in eight patients with cirrhosis and in eight control subjects with fatty liver during postural changes. In the supine position, mean renal blood flow averaged 1.51 and 2.97 ml per gm per min in patients and controls, respectively (p less than 0.02). During tilting, renal blood flow changed significantly (p less than 0.05) and equally in patients and controls (15 degrees head-down tilt: 12 and 13% increase, respectively; 60 degrees head-up tilt: 27 and 32% decrease, respectively). Mean arterial blood pressure was significantly lower in patients than controls (82 vs. 95 mm Hg, p less than 0.05) but did not change during the tilt. Plasma norepinephrine (NE) concentration was significantly higher in another eight patients with cirrhosis than in eight healthy controls (mean: 0.45 vs. 0.21 ng per ml in recumbency, p less than 0.02). Following 60 degrees head-up tilt, the increase in NE was similar in both groups. In another 10 patients with cirrhosis in recumbency, the splanchnic arterial-hepatic venous extraction of NE averaged 0.43 (p less than 0.01), and the hepatic clearance of NE averaged 315 ml per min which is of the same order as previously reported in healthy controls. The right kidney released NE into the systemic circulation. Renal venous plasma NE exceeded arterial concentration by 34% (p less than 0.01). It is concluded that sympathetic nervous activity is enhanced in patients with cirrhosis, and that this hyperactivity may be responsible for renal vasoconstriction in these patients. However, systemic and renal neurovascular reactivity seems to be maintained even at an advanced stage of the disease.

Lack of adrenergic influence on renin release after furosemide in normal man

The role of the sympathetic nervous system in furosemide-induced renin release was investigated in six normal subjects. After intravenous administration of furosemide, plasma renin concentrations increased more than two-fold within 15 min. Neither replacement of urinary fluid loss by intravenous infusion of saline nor pharmacological beta-blockade with d,1-propranolol changed the renin response to furosemide. The activity of the sympathetic nervous system, as estimated by measurement of plasma catecholamine concentrations, remained at the reference level after furosemide. It is concluded that the sympathetic nervous system is not involved in renin release after intravenous administration of furosemide.

The acute effect of insulin on renal haemodynamics and protein excretion in diabetics

The effect of IV injection of 7 to 8 I. U. of insulin on renal haemodynamics and on urinary excretion of beta-2-microglobulin and of albumin was examined in 5 juvenile diabetics. Plasma glucose decreased from a mean value of 250 mg/100 ml to 117 mg/100 ml during the first 85 min after insulin. None of the patients had symptoms of hypoglycaemia and plasma adrenaline did not increase. There was no change in arterial blood pressure after insulin whereas pulse rate increased from 66/min to a maximum of 75/min. Glomerular filtration rate (GFR) and renal plasma flow (RPF) were decreased by 9 per cent and 13 per cent, respectively, during the first 90 min after insulin (2 p less than 0.01). There was also a statistically significant decrease in urine flow and urine secretion of several electrolytes, while filtration fraction remained almost constant. IV insulin decreased urinary excretion of beta-2-microglobulin and increased albumin excretion (2 p less than 0.05). The albumin excretion induced by insulin is most likely due to increased amounts of filtered albumin, the mechanism of which remains unexplained.