Hypercalcemia and leukocytosis of malignancy have been highlighted over a decade. Wereport a case of a gallbladder cancer with marked hypercalcemia and leukocytosis. A 54-year-old womanwas admitted to the hospital because of remittent fever and left hypochondric pain. The computed tomographic scan of the abdomenrevealed the cancer of the gallbladder with liver metastases. The patient's medical condition deteriorated as the tumor was rapidly growing up. Her medical course was marked by hypercalcemia and an increase in mature neutrophils. Medical therapy with normal saline, furosemide, indomethacin, prednisolone, and calcitonin failed to ameliorate hypercalcemia. Onthe twenty-ninth hospital day the serum calcium was elevated to 17.6 mg/dl which responded to 1000[j.g of mithramycin while leukocytosis continued. Despite the chemotherapy with doxolubicin and tegafur, the tumor continued to grow. Leukocytosis was attributed to the elevated colony-stimulating factor activity which was two-fold of control. The parathyroid hormone and nephrogenouscyclic AMPlevels were normal with low vitamin Dlevels. Hypercalcemiawas attributed to a parathyroid hormone-like substance because of a decrease in %TRPin the presence of normal renal function and the normal parathyroid hormone level. Autopsy revealed an undifferentiated adenocarcinoma of the gallbladder with multiple liver metastases, and bone resorption in the vertebral column and sternum without evident bone metastasis.
Exogenously administered vasopressin (VP) augments ACTH secretion stimulated by CRH. This study was performed to elucidate the role of endogenous VP in potentiating CRH-induced ACTH secretion in man. Synthetic human CRH (100 micrograms) was injected iv into seven normal men after they had been water loaded (20 mL/kg; 60 and 30 min before CRH injection; WL-CRH test) and water deprived (water restriction for 18 h before CRH injection; WD-CRH test). Blood samples were obtained before and 5, 15, 30, 60, 90, and 120 min after CRH injection at 0900 h for determination of plasma ACTH, cortisol, arginine vasopressin (AVP), CRH, and catecholamine levels and osmolality. Urine was obtained immediately before and 120 min after CRH injection for determination of osmolality. The mean plasma AVP levels were significantly higher during the WD-CRH test [1.8 +/- 0.4 (+/- SE) to 1.9 +/- 0.4 pmol/L] than during the WL-CRH test (0.6 +/- 0.1 to 0.9 +/- 0.1 pmol/L). The mean plasma ACTH and cortisol levels rose significantly from basal (4.5 +/- 0.6 pmol/L and 320 +/- 20 nmol/L, respectively) to peak values of 14.0 +/- 2.1 pmol/L at 30 min and 700 +/- 50 nmol/L at 60 min, respectively, during the WD-CRH test. During the WL-CRH test, mean basal plasma ACTH and cortisol levels were 3.5 +/- 0.7 pmol/L and 420 +/- 50 nmol/L, respectively, and reached peak values of 7.7 +/- 1.1 pmol/L at 60 min and 550 +/- 40 nmol/L at 30 min, respectively. Both the mean peak levels and integrated ACTH and cortisol responses were significantly higher during the WD-CRH than during the WL-CRH test. There was no significant difference between the plasma CRH and catecholamine concentrations in both tests. These results suggest that endogenous AVP potentiates CRH-stimulated ACTH secretion and, thus, plays a physiologically significant role in regulating CRH-stimulated ACTH and cortisol secretion in man.
To determine direct effects of epinephrine on adrenal cortisol secretion, bilateral adrenal glands were isolated from guinea pigs, together with bilateral kidneys, aorta, and inferior caval vein for influent and effluent routes. The preparation was perfused with oxygenated Krebs-Ringer bicarbonate solution (pH 7.4) containing 10 mM glucose, 0.2% bovine serum albumin, and 4.6% dextran. The perfusate cortisol level was elevated by the addition of epinephrine in a dose-dependent manner at concentrations greater than 100 pg/ml and increased eightfold as high as the basal level at 1 micrograms/ml epinephrine. The stimulatory effect of epinephrine on cortisol secretion was completely abolished by phentolamine, an alpha-adrenergic antagonist but was not affected by propranolol, a beta-adrenergic antagonist. These results demonstrate that epinephrine has a direct stimulatory effect on adrenal cortisol secretion via an alpha-adrenergic mechanism and also suggest that not only adrenocorticotropin but also epinephrine is a most important factor for the regulation of cortisol secretion.
We examined whether the rise in ketone body concentration around midnight and in the early morning was due to the lack of free insulin (IRI) or excess of insulin counterregulatory hormones such as human growth hormone (hGH), cortisol and glucagon in noninsulin-dependent diabetes mellitus (NIDDM) and insulin-dependent diabetes mellitus (IDDM) patients and whether the monitoring of blood ketone body concentration was clinically useful as an index of metabolic control for deciding to increase or decrease the insulin dose in the treatment of diabetes mellitus. Serum levels of 3-hydroxybutyrate (3-OHBA), acetoacetate (AcAc) and 3-OHBA/AcAc ratio before breakfast were significantly increased in insulin-treated NIDDM patients with well-controlled fasting plasma glucose levels and IDDM patients compared to those in normal subjects. Mirror image diurnal changes were found between serum concentrations of 3-OHBA and serum C-peptide or free IRI in normal subjects and NIDDM patients treated with diet alone or sulfonylurea during the 24-hour daily profiles. However, there were no correlations between 3-OHBA and free IRI in the NIDDM patients treated with insulin and IDDM patients who had a much larger increase in the mean concentration of serum 3-OHBA at 6 a.m. caused by a low concentration of free IRI. Counterregulatory hormones were not increased in IDDM patients compared to normal subjects in the early morning. Cortisol/free IRI and hGH/free IRI molar ratios were significantly increased in NIDDM and IDDM patients compared to normal subjects in the early morning, but glucagon/free IRI molar ratio was not changed between IDDM and normal subjects. In conclusion, the early morning rising of ketone body concentration in insulin-treated diabetic patients, particularly IDDM patients, is due to the absolute lack of free IRI and/or the relative lack of free IRI to the levels of hGH or cortisol, and the monitoring of 3-OHBA is clinically useful as a more sensitive index of metabolic control.
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