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We measured free calcium and related variables before and after the subject changed from the upright to the supine posture, doing 15 separate such experiments on 11 healthy men. After such a change, free calcium (1.7 +/- 0.4%), total calcium (4.6 +/- 0.7%), total protein (11.5 +/- 1.4%), albumin (12.2 +/- 2.0%), total magnesium (3.8 +/- 0.9%), and the activity of hydrogen ion (2.9 +/- 1.0%) decreased significantly (values are means +/- SEM), but promptly reverted when three subjects assumed the alternative posture. Changes in lactate values were not rapidly reversible; sodium and potassium showed no significant change. The mechanism of the changes in free calcium is unclear, but they correlated only with the changes in total calcium and were notably less than the changes in total calcium, indicating that posture will have less effect on the interpretation of free calcium values than on values for total calcium.
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PMID:Influence of posture on free calcium and related variables. 3 19

The effects of a 0.5 g/kg body weight arginine infusion on plasma inorganic phosphates and potassium were examined in nineteen normal subjects. Plasma phosphorus displayed a highly significant (p less than 0.001) fall with a maximum depression below baseline of 1.11 +/- 0.15 mg/100 ml or 33 +/- 3% (mean +/- SEM); there was a significant correlation (p less than 0.01) between this fall and the insulin peaks induced by arginine. Plasma potassium levels displayed a distinct and significant increase in eleven of the twelve subjects studied; the maximum increase above baseline was 1.02 +/- 0.14 mEq/1 or 27 +/- 4.5% (p less than 0.001). No change occurred in blood pH values determined in four subjects. In six normal subjects, the test was repeated with the addition of somatostatin (250 micrograms bolus, followed by 500 micrograms/hr), which abolished the insulin and growth hormone response to arginine. It also abolished the fall in plasma phosphorus but appeared (if anything) to augment the increase in potassium. These findings show that arginine is responsible for a fall in plasma phosphorus related to the insulin response, and for an increase in plasma potassium of clinical significance, the mechanism(s) of which, however, are still obscure.
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PMID:Arginine-induced hypophosphatemia and hyperkaliemia in man. 4 74

Antiarrhythmic concentrations of disopyramide in canine plasma and myocardium were determined by gas chromatography. Ventricular tachycardia was incuded in anesthetized dogs by the intravenous administration of ouabain. Disopyramide phosphate was then administered by a two-stage continuous infusion method. A rapid infusion of disopyramide (9.08 mg/kg/hr) was administered for 30 min, followed by a slow infusion (2.18 mg/kg/hr) to maintain steady-state plasma levels of 1.98-2.21, mean +/- SEM = 2.1 +/- 0.02 microgram/ml at the end of 2 hr. Myocardial tissue levels of disopyramide at steady-state plasma levels were four times those of plasma (atrial tissue, 8.91 +/- 0.10; right ventricular free wall, 8.93 +/- 0.13; left ventricular free wall, 9.11 +/- 0.16 microgram/gm wet tissue). The intravenous administration of 80 units crystalline zinc insulin produced both hypokalemia (3.78 +/- 0.22 reduced to 2.36 +/- 0.18 mEq potassium/liter plasma) and a reappearance of ventricular tachycardia despite no change in plasma and myocardial tissue concentrations of disopyramide from those which had been effective in establishing and maintaining sinus rhythm. The observations demonstrate a relationship between plasma and myocardial disopyramide concentrations such that the former can be used in assessing patient therapy. In addition, this study suggests the important of plasma potassium in determining the therapeutic effectiveness of disopyramide.
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PMID:Disopyramide plasma and myocardial tissue concentrations as they relate to antiarrhythmic activity. 9 10

Thirty-two episodes of diabetic ketoacidosis in 30 children treated with conventional repeated s.c. injections of insulin every 4 h are compared with 18 episodes in 14 children treated with continuous i.v. insulin infusion. Fluid therapy, bicarbonate and potassium supplementation were essentially the same for both groups. Recovery as reflected in serum glucose, bicarbonate and the rate of rehydration, was smoother and more rapid in the children receiving continuous i.v. insulin, though the difference just failed to attain statistical significance in this small series of cases. There was, however, a marked difference in insulin administered (0.58 U/kg +/- 0.05 SEM in the children treated with continuous i.v. insulin infusion vs 2.54 +/- 0.27 SEM in the children treated with repeated s.c. injections). Hypoglycemia was noted in 11 and hypokalemia in 10 children on conventional insulin therapy given every 4 h s.c. In contrast, there was no hypoglycemia and only one case of hypokalemia with the i.v. insulin infusion.
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PMID:Continuous infusion of insulin vs repeated S.C. injections in the treatment of diabetic ketoacidosis in children. 10 98

Adrenal steroid secretion rates and the renin-angiotensin-aldosterone (RAA) system were studied in the normothermic marmot. Adrenal secretion by the anesthetized, laparotomized marmot was (mean +/- SEM); aldosterone 1.2 +/- 0.3 ng/min, deoxycorticosterone 16.7 +/- 11.5 ng/min, corticosterone 15.2 +/- 7.8 ng/min, and cortisol 554 +/- 108 ng/min. Four forcings were investigated that affect feedback control at different sites: adrenocorticotropic hormone (ACTH) and angiotensin II (AII) infusion, sodium (Na) depletion, and Na loading. Plasma aldosterone, cortisol, Na, and potassium (K) concentrations as well as plasma renin activity (PRA) hematocrit (Hct), and in some studies, blood pressure were measured. ACTH infusion increased the plasma concentrations of aldosterone and cortisol. AII infusion increased aldosterone concentration, blood pressure, and Hct. Na depletion increased aldosterone, Hct, and PRA; plasma Na and K were decreased. Aldosterone concentration, Hct, and PRA decreased after salt loading. Normothermic, salt-depleted marmots demonstrated a pronounced fall in blood pressure following infusion of the AII analog, 1-sarcosine-8-alanine AII. The average plasma values for aldosterone, PRA, and cortisol found in 44 control animals were: aldosterone 3.8 +/- 0.3 ng/100 ml, PRA 1.9 +/- 0.2 ng AI-ml-1-h-1, and cortisol 54 +/- 4 ng/ml. It was concluded that normothermic marmots have a RAA system comparable to other mammalian species.
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PMID:Renin-angiotensin-aldosterone system of the normothermic marmot. 19 79

The effect of prostaglandin synthesis inhibition on basal and ACTH-stimulated adrenal and renal function was investigated in normal volunteers. Data were collected during control and experimental study periods (13 days each). Adrenocorticotrophic hormone (Cosyntropin, 80 U/day) was administered i.v. on days 8 and 9 of each period. Indomethacin (150 mg/day) was given on days 5 through 13 of the experimental period. The subjects ate a constant diet containing 9 mEq of sodium, 100 mEq of potassium, and 2,500 ml of fluid daily. Indomethacin markedly inhibited urinary PGE excretion and plasma PGE concentration. The effect of ACTH alone as compared to the effect of ACTH and indomethacin showed: plasma sodium concentration, 139 +/- 1 vs. 131 +/ 3 mEg/liter (P less than 0.01, mean +/- SEM); plasma osmolality, 287 +/- 3 vs. 270 +/- 3 mOsm/liter (P less than 0.01); free water clearance, 97 +/- 66 vs. -1100 +/- 380 ml/24hr (P less than 0.01); urine volume, 2,000 +/- 60 vs. 950 +/- 200 ml/day (P less than 0.01); and urine osmolality 282 +/- 12 vs. 720 +/- 144 mOsm/liter (P less than 0.01). We conclude that the effects of ACTH and prostaglandin synthesis inhibition interact to result in inappropriate antidiuresis.
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PMID:Effect of indomethacin and adrenocorticotrophic hormone on renal function in man: an experimental model of inappropriate antidiuresis. 22 68

The possibility that bradykinin, a potent vasodilator, might be a physiological antagonist of the renin-angiotensin system was investigated. 11 norman subjects, ranging in age from 21 to 33 yr were studied. Seven of the subjects were given a 10 meq sodium, 100 meq potassium, 2500 ml isocaloric diet. After metabolic balance was achieved, they were infused with either 1 liter of 5 per cent glucose over 2 h or 2 liters of 0.9 per cent saline over 4 h. During the infusions, plasma renin activity (PRA), angiotensin II (A II), prekallikrein, bradykinin, and aldosterone levels were frequently determined. Plasma prekallikrein and kallikrein inhibitor did not change during the infusion of either glucose or saline. In subjects receiving saline, plasma bradykinin fell from 3.9 plus or minus 1.5 (SEM) ng/ml at 0 min to 0.93 plus or minus 0.2 at 30 min and 0.95 plus or minus 0.3 at 120 min. These changes paralleled the decrease in PRA over the same period (7.9 plus or minus 1.3 ng/ml/h to 5.6 plus or minus 0.8 at 30 min and 3.5 plus or minus 0.7 at 120 min). Similarly, A II fell from 113 plus or minus 12 pg/ml to 62 plus or minus 10 and 48 plus or minus 5, respectively, at 30 and 120 min. In contrast, the control group infused with glucose showed no change in bradykinin, A II, or PRA. Another four subjects were given a constant 200 meq sodium/100 meq potassium isocaloric diet. After metabolic balance was achieved, they were kept supine and fasting overnight. At 9 a.m. they assumed an upright position and began walking a fixed distance (200 ft) at a normal rate (3-4 ft/s). Plasma prekallikrein and kallikrein inhibitor did not change during the posture study. The plasma bradykinin rose from a base line of 0.54 plus or minus 0.01 (SEM) ng/ml to 0.96 plus or minus 0.13 at 20 min. 0.77 plus or minus 0.18 at 60 min, and 0.96 plus or minus 0.07 at 120 min. These changes parallel the increase in PRA over the same period (1.65 plus or minus 3.3 ng/ml/h to 3.6 plus or minus 0.85 at 20 min, 5.3 plus or minus 0.9 at 60 min, and 5.35 plus or minus 0.55 at 120 min). Likewise, the A II rose from 32.5 plus or minus 1.82 pg/ml to 50.8 plus or minus 3.6 at 20 min, 54.3 plus or minus 3.2 at 60 min, and 61.3 plus or minus 5.9 at 120 min. Thus, in sodium-depleted individuals, saline infusion produces a rapid fall of plasma bradykinin at a rate similar to that observed for a II and PRA. Conversely, in sodium-loaded individuals, assumption of upright posture leads to a parallel rise in A II, TPRA, and bradykinin. These studies indicate that there is a close correlation of bradykinin levels with renin activity and angiotensin II, in both acute sodium loading and assumption of upright posture, suggesting that these two systems may be physiologically interrelated.
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PMID:Response of the kallikrein-kinin and renin-angiotensin systems to saline infusion and upright posture. 23 59

During the past decades insulin has been given in relatively high doses when treating diabetic coma. Recently low-dose insulin treatment has been proposed by several groups. In the reported investigation insulin was initially given in moderate to high doses (12-200 U/h) with a steady reduction in dose during the course of treatment. Insulin infusion was regulated either manually with an adjustable infusion pump (7 patients) or automatically with an artificial endocrine pancreas (glucose-controlled insulin infusion system; 11 patients). Thus 18 patients with decompensated diabetes mellitus (coma or precoma) were treated. In 14 patients with ketoacidotic decompensation laboratory data on hospital admission were: blood glucose 7.35 +/- 0.61 g/l, serum potassium 4.7 +/- 0.4 mmol/l, pH 7.1 +/- 0.04, base excess - 19,7 +/- 2.2 mmol/l (x +/- SEM). The other patients had hyperglycaemic or hyperosmolar non-ketotic decompensation. In all patients controlled reduction of blood glucose levels was achieved within 2.3 to 18 hours. The amounts of insulin infused during this ranged from 17 to 320 units, but in one instance was 1950 units. There were no complications.
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PMID:[Insulin treatment of decompensated diabetes mellitus with a new artificial endocrine pancreas (author's transl)]. 33 2

The effects of glucose-insulin-potassium (GIK) and placebo normal saline (S) infusion on treadmill-walking time to angina, ST depression, heart rate (HR), systolic blood pressure (SBP), rate pressure product (RPP), blood glucose (G), lactate (L) and free fatty acids (FFA) were studied in 14 non diabetic patients with exertional angina. For the whole group, the post-GIK walking time to angina (393 +/- 33 sec, mean +/- SEM) was greater than the values during control GIK (319 +/- 20 sec, p less than 0.02) and post-S infusion (334 +/- sec, p less than 0.05), but circulatory and ST responses were similar in post-GIK and post-S studies. 7 of the 14 patients experienced significantly greater improvement in exercise tolerance following GIK (467 +/- 39 sec) in comparison to control GIK (313 +/- 29 sec, p less than 0.001) and post-S infusion (334 +/- 32 sec, p less than 0.005) and exercised to a higher HR, SBP and RPP after GIK than after S infusion. At the onset of angina these patients had similar ST-segment depression before and after GIK but when ST segments were assessed after GIK at the same exercise duration when angina had occurred during the control and post-S studies, there was significantly less ST depression (p less than 0.01). Of the remaining 7 patients exercise tolerance following GIK deteriorated in 3, remained unchanged in 2 and increased by 12 and 48 sec in 2 patients in comparison to post-S values. Comparison of post-GUK and post-S values for G, L and FFA for the whole group showed significantly lower resting values of FFA and post-exercise values of G following GIK infusion. The differences in clinical and circulatory responses between patients who improved and those who did not improve following GIK were not related to the angiographically determined severity of coronary artery disease or to GIK-induced metabolic changes. Results suggest that some patients with angina pectoris do benefit from GIK infusion but the response in a given patient to this therapeutic modality is unpredictable.
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PMID:Effects of glucose-insulin-potassium infusion on the angina response during treadmill exercise. 38 19

To determine whether acute chloride depletion per se stimulates renin, we produced selective chloride depletion without sodium depletion in rats by peritoneal dialysis (PD) against 0.15 M NaHCO3 or 0.15 M NaNO3. Control rats were dialyzed against 0.15 M NaCl. Plasma renin activity (PRA) was measured before (PRA1) and 105 minutes after (PRA2) PD. Plasma volume was expanded after PD by infusion of salt-free albumin and was measured immediately after PRA2 by [131I]albumin. In experiment 1, rats were prepared on a normal diet. PRA2 (7.0 +/- 1.0 ng/ml per hr, mean +/- SEM) was increased (P less than 0.05) over PRA1 (4.7 +/- 0.7 ng/ml per hr) in Cl-depleted but not in control rats (PRA1 = 5.3 +/- 0.7, PRA2 = 6.1 +/- 0.7, P = NS). In experiment 2, to produce greater chloride depletion, all rats were prepared for 2 weeks on a low salt diet. PRA2 (47 +/- 5 ng/ml per hr) was increased as compared to PRA1 (24 +/- 2 ng/ml per hr, P less than 0.005) in the Cl-depleted group but not in the control group (PRA1 = 24 +/- 3, PRA2 = 27 +/- 6 ng/ml per hr, P = NS). Serum potassium and final plasma volume were slightly but not significantly lower than controls in these Cl-depleted rats. To exclude an additive effect of these two stimuli for renin, in experiment 2a we infused chloride-depleted rats with three times as much albumin as controls and with KHCO3, 100 mEq/liter. Despite volume expansion and potassium loading, PRA2 (41 +/- 6 ng/ml per hr) was significantly elevated as compared to PRA1 (25 +/- 4 ng/ml per hr, P less than 0.01). Since acute metabolic alkalosis also was present in all Cl-depleted renin-stimulated rats, an additional group (2b) was dialyzed against 0.15 M NaNO3; final plasma arterial pH (7.43) was not different from controls (7.42). Nevertheless, PRA2 levels again were higher (36 +/- 6 ng/ml per hr, P less than 0.05) as compared to PRA1 (23 +/- 4 ng/ml per hr). In all experiments, arterial blood pressure, glomerular filtration rate, and filtered sodium load were not different. Free water reabsorption was lower in Cl-depleted than in control rats. We conclude that acute selective chloride depletion per se is a potent stimulus for renin release.
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PMID:Stimulation of renin by acute selective chloride depletion in the rat. 42 74


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