A Specific Role for Saline or the Sodium Ion in the Regulation of Renin and Aldosterone Secretion

It is well established that in normal man the renin-angiotensin-aldosterone system is responsive to changes in volume. The present study was performed to determine whether sodium has an action apart from volume in the regulation of the secretion of renin and aldosterone. Acute volume expansion was induced either by saline, dextran, or glucose infusion in supine, normal subjects in balance on a 10 meq sodium/100 meq potassium diet. Plasma renin activity (PRA), angiotensin II (A II), aldosterone (PA), cortisol, serum sodium, and potassium were measured every 10 min for the first 30 min and then at 1, 2, 4, 6, and 8 h.During saline infusion (500 cm(3)/h for 6 h) mean PRA and A II levels declined very rapidly, falling significantly below control at 10 min (P < 0.01) and by 50% at 60 min. Thereafter, the rate of fall was more gradual, reaching a nadir at 360 min (70-80% below control). PA declined in a parallel pattern except that a significant fall did not occur until 30 min.In contrast to saline, dextran infusion (250 cm(3)/h for 4 h) did not produce a significant fall in PRA, A II, or PA until 4 h after the start of the infusion despite equivalent volume expansion. On the other hand, the infusion of 5% glucose and water (500 cm(3)/h for 6 h) did not produce a significant decline in PRA, A II, or PA over the first 6 h of the study. Although the response rate of PRA, A II, and PA was different in each of the three infusion studies, these parameters were significantly correlated within each study. Serum sodium and potassium levels did not change during any study except dextran infusion, where a significant fall in both occurred at 120 min. In all the infusion studies, plasma cortisol levels gradually declined during the 8-h study period consistent with its expected rhythm of diurnal secretion.These results demonstrate that rate of response of the renin-angiotensin-aldosterone system to acute volume expansion with saline differed from that with dextran and glucose infusion in sodium-depleted man. The data support a specific role for volume expansion with saline or the sodium ion per se in the regulation of renin and aldosterone.     

Studies of the control of plasma aldosterone concentration in normal man: I. Response to posture, acute and chronic volume depletion, and sodium loading

The peripheral plasma levels of aldosterone, renin activity (PRA), potassium, corticosterone, cortisol, and in some cases angiotensin II, were measured in normal subjects undergoing postural changes, acute diuretic-induced volume depletion, and alterations in dietary sodium. On a 10 mEq sodium/100 mEq potassium intake, subjects supine for 3 consecutive days had identical diurnal patterns of PRA, angiotensin II, aldosterone, cortisol, and corticosterone, with peaks at 8 a.m. and nadirs at 11 p.m. With an increase in sodium intake to 200 mEq, plasma levels of aldosterone and PRA fell to one-third their previous levels but the diurnal pattern in supine subjects was unchanged and again parallel to that of cortisol and corticosterone. There was no diurnal variation of plasma potassium on either sodium intake in the supine subjects. On a 10 mEq sodium/100 mEq potassium intake, supine 8 a.m. plasma aldosterone (55+/-7 ng/100 ml) and PRA (886+/-121 ng/100 ml per 3 hr) increased by 150-200% after subjects were upright for 3 hr. However, even though the patients maintained an upright activity pattern, there was a significant fall in plasma aldosterone to 33+/-5 ng/100 ml at 11 p.m. Potassium levels varied in a fashion parallel to aldosterone and PRA. Plasma cortisol and corticosterone had a diurnal pattern similar to that found in supine subjects. In response to acute diuretic-induced volume depletion, the nocturnal fall in aldosterone levels did not occur. The 11 p.m. value (102+/-20 ng/100 ml) and the 8 a.m. value postdiuresis (86+/-15 ng/100 ml) were both significantly greater than the prediuresis levels. PRA showed a similar altered pattern while potassium levels fell throughout the day. In some but not all studies, changes in plasma aldosterone coincided with changes in plasma cortisol, corticosterone, and/or potassium. However, in all studies, changes in plasma aldosterone were invariably associated with parallel changes in plasma renin activity and/or angiotensin II levels. These findings support the concept that PRA is the dominant factor in the control of aldosterone when volume and/or dietary sodium is altered in normal man.     

Hypertension and hyperkalaemia responding to bendrofluazide

A 33-year-old man is described with hyperkalaemia, hypertension and acidosis. The blood pressure was 160 to 200 mmHg systolic and 90 to 110 mmHg diastolic and the plasma potassium was between 6.0 and 7.0 mmole per litre. There was no renal disease and creatinine clearance was 103 ml per minute. Plasma renin activity was low and plasma aldosterone was at the lower limit of normal. Sodium deprivation or oral frusemide had little effect on blood pressure, plasma potassium, renin, aldosterone or arginine vasopressin. However, bendrofluazide caused a rapid fall of blood pressure and plasma potassium, and rise of plasma renin, aldosterone and plasma arginine vasopressin. Hypertension and hyperkalaemia is rare in the absence of renal failure. Four similar patients reported previously are reviewed. We suggest that our patient, and perhaps some of those reported earlier had primary abnormality of renal tubular function with impaired secretion of potassium and excessive tubular reabsorption of sodium. The plasma renin activity could be due to volume expansion and the low plasma aldosterone was probably caused by the antagonistic effects of low renin depressing synthesis and hyperkalaemia increasing it. A minor similar tubular abnormality might be the explanation in some of the patients with essential hypertension who have low plasma renin activity.     

Quantification and predictors of plasma volume expansion from mannitol treatment

Objective: To determine the effects of acute hypertonic mannitol infusion on intravascular volume expansion and to identify potential predictors of hypervolemia. Design: Measurements of plasma volume and volume regulatory hormones were performed in healthy volunteers before and over 90 min after acute infusion of 20 % mannitol solution in a therapeutic dose of 0.5 g/kg body weight, equalling an average infusion volume of 180 ml. Setting: Clinical research unit in an 800-bed teaching hospital in the eastern part of Switzerland. Participants: Eight normal male volunteers. Measurements and results: Baseline plasma volume was determined by the indocyanine green dye dilution technique. Serial plasma protein measurements were performed after mannitol infusion to calculate intravascular volume changes. Mannitol administration resulted in a plasma expansion that persisted for more than 90 min and peaked at 112 % of the baseline plasma volume 15 min after infusion. Concomitantly, an increase in systolic blood pressure and a fall in plasma sodium concentration occurred. Pharmacokinetic analyses of mannitol distribution and elimination revealed a close relation between plasma volume expansion and mannitol serum concentrations. While renin activity and aldosterone concentrations were suppressed proportionally to the intravascular volume increase, antidiuretic hormone was increased despite notable volume expansion and hyponatremia. Similarly, a rise in atrial natriuretic peptide was detected. Conclusions: Therapeutic doses of hypertonic mannitol cause substantial plasma volume expansion, resulting in increased blood pressure. Plasma volume expansion is related to mannitol serum concentrations and mannitol clearance determines the time required to restore normovolemia. ADH and ANP are potentially aggravating factors of mannitol-induced hyponatremia. Received: 27 January 1997 Accepted: 18 August 1997     

Compensatory Adaptation of Bicarbonate Excretion Following Acute Contralateral Kidney Exclusion in the Dog

Changes in the excretion of bicarbonate, sodium and potassium in one kidney after exclusion (complete sudden ligation of renal pedicle) of its partner have been studied in 16 dogs undergoing bicarbonate diuresis. Fluid balance, haematocrit, plasma electrolyte and protein concentrations were maintained constant throughout the experiment. Acute contralateral renal pedicle ligation lead to an immediate increase in bicarbonate as well as water, sodium and potassium excretion by the remaining kidney. The rapid and immediate increase in the fractional and absolute rates of bicarbonate excretion was observed at varying levels of bicarbonate loading, with the greatest response occurring at the highest infusion rate. Sodium, potassium and water excretion also increased in parallel with urinary bicarbonate loss. The increase in bicarbonate excretion was not accounted for by changes in extracellular fluid volume, plasma composition, glomerular filtration rate, effective renal plasma flow, aldosterone and vasopressin. In 8 sham-operated animals, no abrupt increase in sodium and bicarbonate excretion occurred despite similar continued infusion of sodium bicarbonate. It was concluded that exclusion of one kidney induces immediate adaptive excretory changes for sodium and bicarbonate in the remaining kidney, and that these changes are not accounted for by any of the known factors normally regulating sodium and bicarbonate excretion.     

Depression of fractional sodium reabsorption by the proximal tubule of the dog without sodium diuresis

The effect of infusions of hyperoncotic solutions on fractional sodium reabsorption by the proximal tubule of the dog was studied by the recollection micropuncture method. Tubule fluid to plasma inulin concentration ratios were measured for identified proximal tubule segments before and after infusion of 25% albumin or dextran solutions. Results were compared with changes in fractional reabsorption during saline diuresis. Plasma volume increased 66% +/- SE 5.8 after infusion of albumin solution and 94% +/- SE 8.2 after infusion of dextran solution. Fractional sodium reabosorption by the proximal tubule was depressed after infusion of both of these hyperoncotic solutions. Nevertheless, changes in sodium excretion after infusion of albumin and dextran were small. In contrast, after infusions of isotonic sodium chloride solution, which increased plasma volume 61% +/- SE 5.8, a decrease in fractional reabsorption of 50.7% +/- SE 7.2 was associated with large changes in sodium excretion.     

Plasma aldosterone during extracellular fluid volume expansion in patients on regular haemodialysis

The influence of extracellular fluid volume expansion on the plasma aldosterone concentration (PAC) was investigated in five anephric and six non-nephrectomized patients on regular haemodialysis, and compared to a control group of four anephric and four non-nephrectomized patients. Plasma-renin activity, cortisol, Na+, and K+ were measured together with the PAC during the investigation. In anephric patients the PAC remained constant during the control period as well as during extracellular fluid volume expansion by infusion of 350 mmol of 20% mannitol. In the non-nephrectomized patients PAC diminished after mannitol infusion. The decline in PAC was correlated with the basal levels of PAC and the plasma renin activity. It is concluded that 5% extracellular fluid volume expansion has no direct influence on the regulation of PAC in patients without the renal renin-angiotensin system and that the regulation of PAC in anephric patients in the present investigation is probably mediated by changes in potassium and ACTH.     

Initial potassium loss and hypokalaemia during chlorthalidone administration in patients with essential hypertension: the influence of dietary sodium restriction

To investigate the initial potassium loss and development of hypokalaemia during the administration of an oral diuretic, metabolic balance studies were performed in ten patients with essential hypertension who had shown hypokalaemia under prior oral diuretic treatment. Chlorthalidone (50 mg daily) was given for 14 days. Six patients received a normal-sodium diet and four a low-sodium (17 mmol/day) diet. All patients had a normal initial total body potassium (40K). The electrolyte balances, weight, bromide space, plasma renin activity, and aldosterone secretion rate were measured. In both groups a potassium deficit developed, with proportionally larger losses from the extracellular than from the intracellular compartment. In the normal-sodium group the highest mean potassium deficit was 176 mmol on day 9, after which some potassium was regained; in the low-sodium group the highest deficit was 276 mmol on day 13. The normal-sodium group showed an immediate but temporary rise of the renin and aldosterone levels; in the low-sodium group renin and aldosterone increased more slowly but remained elevated. It is concluded that dietary sodium restriction increases diuretic-induced potassium loss, presumably by an increased activity of the renin-angiotensin-aldosterone system, while sodium delivery to the distal renal tubules remains sufficiently high to allow increased potassium secretion.     

Aldosterone and renin-angiotensin responses to stimuli in patients with treated congestive heart failure.

Aldosterone responses to physiologic doses of known regulatory factors have been studied in 8 patients with treated congestive heart failure under standard conditions of electrolyte balance and controlled body posture. The response of plasma aldosterone, plasma renin activity (PRA), and in some instances angiotension II, to the brief (120 minute) intravenous administration of ACTH (1.25 mug beta1-24 ACTH in 60 minute and 5 mug in 60 minutes), angiotensin II (30 mug) and potassium (30 mEq.), and to 2 hours in the upright posture, was measured. The plasma aldosterone increase was greatest in response to ACTH (mean increment 20.8 ng. per 100 ml.) followed by that with upright posture (mean rise 17.1 ng. per 100 ml.), potassium (mean 6.7 ng. per 100 ml.) and angiotensin II (5.8 ng. per 100 ml.). PRA rose vigorously following 2 hours of upright posture and fell with angiotensin II infusion, but showed no definite change in response to potassium or ACTH. A diurnal pattern of PRA, angiotensin II, and plasma aldosterone on control days was observed in these patients, with higher prenoon levels falling to a nadir at midnight. The electrolyte and hormone response to administered aldosterone (75 mug over 2 hours) was also studied in the same patients. During aldosterone infusions, plasma aldosterone increased (increment range 36 to 110 ng. per 100 ml.), urine sodium excretion decreased, but no significant change in urine potassium excretion or in PRA was observed. It is concluded that small fluctuations in ACTH secretion, as well as change in body posture, produce marked effects on plasma aldosterone in patients with controlled congestive heart failure. Aldosterone responses to ACTH in these patients is similar to that observed in normal subjects.     

Studies of the control of plasma aldosterone concentration in normal man: II. Effect of dietary potassium and acute potassium infusion

The responses of plasma aldosterone, cortisol, and corticosterone to an infusion of 75 mEq of potassium chloride over 120 min were studied in 10 normal subjects. Five subjects were fed a 10 mEq and five a 200 mEq sodium diet, while all subjects ingested 40 mEq and 200 mEq potassium sequentially. Two potassium infusions were performed in each subject when in balance on a fixed sodium intake and low and then high potassium diets.Regardless of dietary intake, increases of serum potassium of 0.5-1.5 mEq/liter above preinfusion levels were usually associated with significant increments in plasma aldosterone concentration. Our data agree with previous evidence that the potassium ion stimulates the adrenal cortex directly to secrete aldosterone. Peripheral renin activity did not increase after the potassium infusion. Plasma cortisol and corticosterone levels generally followed the expected diurnal decline during the infusion, implying that ACTH secretion did not increase.The plasma aldosterone response to incremental changes in serum potassium was linear on each of the four diets. The slopes of these linear relationships increased significantly when the potassium intake was increased from 40 to 200 mEq. No increase in slope occurred on either potassium intake when dietary sodium was restricted from 200 to 10 mEq. Thus, identical increases in serum potassium were associated with greater increments in plasma aldosterone above preinfusion levels on either sodium intake when the 200 mEq potassium diet was compared with the 40 mEq potassium intake.     

Effect on Plasma Aldosterone, Renin Activity and Cortisol of Acute Volume Depletion Induced by Ethacrynic Acid under Constant Infusion of Angiotensin II and Dexamethasone in Man

Abstract. The influence on plasma aldosterone of acute volume depletion induced by ethacrynic acid was studied in man. The experiments were performed during the morning in supine healthy males receiving a control infusion of 5 % glucose or an infusion of angiotensin II (All) to suppress endogenous renin production or an infusion of dexamethasone to suppress endogenous ACTH. Ethacrynic acid induced in all circumstances a similar diuresis and volume depletion. The rise of plasma renin activity (PRA) was effectively suppressed by All and the rise of plasma Cortisol by dexamethasone. Plasma aldosterone (PA) rose markedly even when the elevation of PRA or Cortisol were suppressed. Yet when both endogenous renin and ACTH secretion were blocked, PA rose much less after ethacrynic acid. This residual increase could be attributed mainly to a decrease of the metabolic clearance rate (MCR) of aldosterone which had been measured before and after ethacrynic acid administration. The data presented indicate that multiple factors influencing PA after acute volume depletion could be dissected out and that renin, ACTH and a decrease of the MCR each contribute to the elevation of PA.     

Compensatory adaptation of bicarbonate excretion following acute contralateral kidney exclusion in the dog.

Changes in the excretion of bicarbonate, sodium and potassium in one kidney after exclusion (complete sudden ligation of renal pedicle) of its partner have been studied in 16 dogs undergoing bicarbonate diuresis. Fluid balance, haematocrit, plasma electrolyte and protein concentrations were maintained constant throughout the experiment. Acute contralateral renal pedicle ligation lead to an immediate increase in bicarbonate as well as water, sodium and potassium excretion by the remaining kidney. The rapid and immediate increase in the fractional and absolute rates of bicarbonate excretion was observed at varying levels of bicarbonate loading, with the greatest response occurring at the highest infusion rate. Sodium, potassium and water excretion also increased in parallel with urinary bicarbonate loss. The increase in bicarbonate exposition, glomerular filtration rate, effective renal plasma flow, aldosterone and vasopressin. In 8 sham-operated animals, no abrupt increase in sodium and bicarbonate excretion occurred despite similar continued infusion of sodium bicarbonate. It was concluded that exclusion of one kidney induces immediate adaptive excretory changes for sodium and bicarbonate in the remaining kidney, and that these changes are not accounted for by any of the known factors normally regulating sodium and bicarbonate excretion.     

The osmotic link between hypoglycaemia and hypovolaemia

OBJECTIVE: Hypoglycaemia is regularly accompanied by hypovolaemia. To suggest a mechanism for this phenomenon, we reviewed data from eight studies conducted by our group and examined the circumstances under which rebound hypoglycaemia develops after intravenous infusion of glucose solutions. MATERIAL AND METHODS: Forty healthy volunteers and 40 patients received a total of 122 infusions of glucose solutions at different rates, volumes and concentrations. Plasma glucose and the haemodilution were measured repeatedly during and for at least 2 h after the infusions ended. Glucose kinetics was calculated using a one-compartment turnover model and the plasma volume expansion was estimated from changes in Hb. RESULTS: A strong linear correlation was found between the glucose level and the plasma volume expansion in all series of experiments (p<0.001). After infusion, there was a risk of hypoglycaemia and hypovolaemia developing in healthy volunteers with a high glucose clearance and when infusing glucose solutions of higher concentrations than 2.5 %. Few and mild hypoglycaemic events occurred in patients with insulin resistance, such as in diabetics and in those undergoing surgery. The immediate linear relationship between hypoglycaemia and hypovolaemia suggests an osmotic link between the two parameters. More specifically, infused fluid accompanies glucose during uptake into the cells, while volume expansion by the same fluid has already elicited an effective diuretic response. CONCLUSION: Hypovolaemia is a consequence of hypoglycaemia after intravenous infusion of glucose solution and is caused by the osmotic translocation of fluid from the extracellular to the intracellular fluid space that occurs despite effective renal elimination.     

Role of angiotensin II in potassium-mediated stimulation of aldosterone secretion in the dog.

Potassium is known to enhance the aldosterone-stimulating action of angiotensin II. Such a synergistic interaction of potassium with angiotensin II could represent an action by angiotensin II to potentiate potassium as a stimulus. To examine for this effect of angiotensin II on potassium, plasma aldosterone levels were measured before and after an infusion of potassium chloride (15 meq i.v.) into dogs without and with prevention of angiotensin II formation by captopril, an angiotensin converting-enzyme inhibitor. In addition, responses to potassium were measured in a group of dogs receiving angiotensin II plus captopril. After potassium infusion, control dogs showed an increase of 7.7 +/- 1.9 (SEM) ng/dl (P less than 0.001) in the level of plasma aldosterone. In contrast, captopril-treated dogs showed no change in plasma aldosterone concentration in response to potassium. When angiotensin II was administered to captopril-treated dogs responsiveness to potassium administration was restored (plasma aldosterone concentration increased by 7.4 +/- 2.1 ng/dl, P less than 0.002). ACTH stimulated aldosterone secretion despite captopril treatment (P less than 0.001), however, ACTH produced a greater increase in the plasma aldosterone concentration in controls than in captopril-treated animals. It is evident from these results that stimulation of aldosterone secretion by potassium is considerably enhanced by angiotensin II. There appears to exist an important interdependence of these stimuli in the regulation of aldosterone secretion.     

Plasma volume expansion and transcapillary fluid exchange in skeletal muscle of albumin, dextran, gelatin, hydroxyethyl starch, and saline after trauma in the cat

OBJECTIVE: To compare 5% albumin, 6% dextran 70, 3.5% gelatin, 6% hydroxyethyl starch 130/0.4, and saline regarding their plasma volume expanding effect after a surgical skeletal muscle trauma and their simultaneous effects on transvascular fluid exchange in skeletal muscle. DESIGN: Controlled, prospective, randomized laboratory study. SETTING: University research laboratory. SUBJECTS: Thirty-six adult cats. INTERVENTIONS: Systemic arterial pressure and tissue volume variations of and blood flow to a surgically isolated and autoperfused calf muscle placed in a plethysmograph were recorded. Arterial and venous pressures to the muscle were kept constant. After preparation, plasma volumes were determined by a I albumin tracer technique just before and 3 hrs after a bolus infusion of the plasma expander (25 mL/kg). MEASUREMENTS AND MAIN RESULTS: Plasma volume was 20.9 +/- 2.9 mL/kg (n = 36) just before infusion of the plasma expander (normal plasma volume for the cat is 34-37 mL/kg). The remaining volume expansion of the infusion after 3 hrs was 6.8 mL/kg for albumin, 11.2 mL/kg for dextran, 1.8 mL/kg for gelatin, 2.2 mL/kg for hydroxyethyl starch, and 0.9 mL/kg for saline. Plasma volume decreased by 1.1 mL/kg when no solution was given (n = 6 per group). Colloid osmotic pressure was better preserved with dextran and albumin than with the other solutions. Albumin and dextran reduced muscle volume by absorption after 3 hrs, whereas the initial absorption turned to net filtration in the gelatin and hydroxyethyl starch groups. Saline infusion increased muscle volume by filtration for about 20 mins, followed by an approximately constant volume. CONCLUSION: The relatively poor plasma expansion for all solutions analyzed can most likely be explained by increased transcapillary leakage due to increased microvascular permeability following trauma. Under such circumstances, for equal volumes, plasma expansion was better preserved with 6% dextran 70 than with 5% albumin, which was better than 3.5% gelatin, 6% hydroxyethyl starch 130/0.4, and saline.     

The syndrome of hypertension and hyperkalemia with normal GFR (Gordon's syndrome): is there increased proximal sodium reabsorption?

The syndrome of hypertension and hyperkalemia, hyperchloremic acidosis with normal glomerular filtration rate (Gordon's syndrome) is characterised by volume expansion, suppressed renin and reduced mineralocorticoid-induced renal clearance of potassium. The clinical and biochemical defects are aggravated by high salt diet and corrected by low salt diet, leading to the hypothesis of excessive sodium reabsorption in the nephron proximal to where aldosterone acts. In this study, we used lithium clearance as a marker of proximal sodium reabsorption in three patients with Gordon's syndrome, in order to further localise the site in the nephron of defective sodium handling. Fractional excretion of lithium was decreased, and absolute and fractional proximal reabsorption of sodium was increased compared to normal controls. In addition, absolute distal reabsorption of sodium was decreased, consistent with decreased mineralocorticoid activity. Fractional excretion of potassium was markedly decreased and did not rise with increased distal delivery of sodium during saline infusion. However, after severe dietary sodium restriction had elevated plasma aldosterone (lowering plasma potassium levels to normal), fractional excretion of potassium was raised by saline infusion. Reduced lithium clearance in patients with Gordon's syndrome supports the hypothesis of increased proximal sodium reabsorption in this condition.     

Aldosterone and other mineralocorticoids in Bartter's syndrome

Plasma levels of aldosterone and other mineralocorticoids were determined in six patients with Bartter's syndrome. In spite of a remarkable elevation of plasma renin activity, the plasma aldosterone and 18-hydroxycorticosterone levels varied in each patient. These levels were slightly increased in three of the six patients, almost normal in two patients, and slightly reduced in one patient. The plasma deoxycorticosterone and corticosterone levels were within the normal range in all patients. The responses of plasma aldosterone to infusion of angiotensin II were reduced in all patients. Plasma aldosterone and 18-hydroxycorticosterone significantly increased with supplement of potassium, and the responses of plasma aldosterone to infusion of angiotensin II were also improved after supplement of potassium. Our results suggest that plasma aldosterone in Bartter's syndrome is dependent on potassium balance, even though plasma renin activity is remarkably increased, and that hyperaldosteronism is not an inevitable finding in Bartter's syndrome.     

Plasma volume changes after infusion of various plasma expanders

In the immediate post-operative period after moderate surgical procedures, 1 litre of a colloid solution or saline was given intravenously. The plasma volume expansion after infusion of dextran 70 (Macrodex), hydroxyethylstarch (Volex), polygelatin (Haemaccel), albumin and saline was found to be between 790 and 180 ml. The most efficient plasma expander was dextran, followed by hydroxyethylstarch. Polygelatin and saline did not give full restitution, although twice the calculated loss was infused. Total plasma protein concentration was lowered in all groups in proportion to the dilution, except for the patients given albumin, in whom the concentration of total protein increased. Calculation of the total circulating protein mass showed no decrease during the period immediately after the infusion. This investigation has demonstrated that the most efficient plasma volume expander is dextran but that hydroxyethylstarch offers an almost equal alternative in terms of volume expansion. Dextran, however, exerts an advantageous effect on the microcirculation. As the metabolic pathways of hydroxyethylstarch have not yet been further explored, dextran is preferred when using artificial colloids. Judged by its secondary effects alone, including the influence on plasma protein patterns, albumin seems to be the compound of choice. Polygelatin and saline are not efficient expanders when hypovolaemia is to be corrected rapidly.     

Renal haemodynamics and tubular sodium handling following volume expansion with sodium chloride (NaCl) and glucose in healthy humans.

Renal haemodynamics estimated using inulin- and para-aminohippuric acid-(PAH) clearances and segmental tubular handling of sodium as estimated using lithium clearance where studied in fourteen healthy men. Volume expansion was induced by a 2 h (25 ml kg-1) infusion of 0.9% sodium chloride (NaCl) load. Eight of the 14 subjects were rechallenged with a 2 h infusion of 5% glucose (25 ml kg-1). In addition, ten healthy subjects were investigated with inulin and PAH-clearances during water diuresis. When NaCl was infused glomerular filtration rate (GFR) decreased from 115 to 103 ml min-1 (p < 0.002) and fractional sodium excretion increased by 85%. The fall in GFR could be due to tubuloglomerular feedback as a result of inhibition of proximal tubular sodium reabsorption. The fall in GFR raises doubt about the usefulness of NaCl as an inert control infusion in metabolic studies. During glucose infusion blood glucose rose from 4.3 to 10.9 mmol l-1 with no significant change in GFR, but fractional sodium excretion was reduced by almost 40%. The etiology of the acute antinatriuretic effect of volume expansion with glucose infusion in healthy humans is not known but a blunted decrease in plasma renin activity and erythrocyte volume fraction in conjunction with a failure to mobilize renal dopamine and an increase in plasma levels of antinatriuretic factors such as insulin and norepinephrine are all factors that may contribute to the antinatriuretic effect of a glucose infusion.     

Effects of hydroxyethyl starch on fibrinogen, fibrin clot formation, and fibrinolysis

The effects of hydroxyethyl starch on the final stages of hemostasis were investigated in vivo and in vitro. When compared to control solutions of either 5 percent albumin or isotonic (0.9%) NaCl, 6 percent hydroxyethyl starch (HES) exerted several effects. Results of in vivo studies were as follows: following infusion of 1 liter of 6 percent HES into healthy subjects, fibrinogen and antithrombin-III concentrations fell slightly due to plasma volume expansion and consequent dilution. Concentrations of fibrin monomer and fibrin-fibrinogen degradation products remained unchanged. Thrombin and reptilase clotting times were shortened to indicate rapid detection (and presumably accelerated formation) of fibrin clots. Urokinase-activated clot lysis times were shortened to suggest rapid fibrinolysis. Results of in vitro studies were similar. Shortened thrombin, reptilase, and urokinase-activated clot lysis times were reproduced in vitro by mixing HES, but not albumin or NaCl, with normal plasma. Although these findings qualitatively are similar to those reported previously for dextran, the molecular mechanisms involved and the clinical importance, if any, of the hemostatic effects remain to be defined. Thus, it would be premature to conclude either that HES or dextran exert identical biological effects on hemostasis or that the two agents possess similar clinical properties. HES has an excellent safety record when it has been used during leukocytapheresis and for plasma volume expansion in recommended doses. Its effects when given in larger doses remain to be defined.