Abraham Borkowski scite author profile

Summary. A kinetic study of the conversion of blood cholesterol into hydrocortisone was carried out in two patients through prolonged infusions of cholesterol-4-14C. The following points appear to be established by our observations:1) The infused tracer behaved metabolically like endogenous cholesterol; it could therefore serve as a means of labeling plasma cholesterol for investigating its utilization by the adrenal cortex.2) At rest, about 80% of hydrocortisone derived from plasma cholesterol, the other 20% thus being synthesized in situ from acetate and other unlabeled precursors.3) Under ACTH stimulation the participation of plasma cholesterol in the synthesis of hydrocortisone was the same as at rest; the conversion of plasma cholesterol into hydrocortisone was thus proportional to the production of glucocorticosteroids by the adrenal glands.4) The specific activities of hydrocortisone allowed us to trace its adrenal precursors including adrenal cholesterol. The kinetics of the replacement of adrenal cholesterol by plasma cholesterol underlined the functional heterogeneity of the former. The experimental data were compatible with the following model: A fraction of plasma cholesterol entering the adrenal cell is immediately available for metabolism and conversion into steroid hormones, and another fraction turns over slowly, representing some form of storage.

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Treatment of malignancy-associated hypercalcemia with intravenous aminohydroxypropylidene diphosphonate.

Body¹,

Borkowski²,

Cleeren³

et al. 1986

JCO

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Treatment of malignancy-associated hypercalcemia remains unsatisfactory. We have prospectively treated 26 consecutive hypercalcemic cancer patients with intravenous (IV) aminohydroxypropylidene diphosphonate (APD). The drug was administered daily as a 15-mg two-hour IV infusion until both serum and urinary calcium had been normalized for 48 hours. Twenty-four patients were fully evaluable (eight head and neck tumors, seven breast cancers, three epidermoid tumors of the lung, and six miscellaneous neoplasms). Whereas rehydration had only inconsistent effects, APD normalized serum calcium in all patients after a mean of three daily doses: serum calcium decreased from 13.3 +/- 0.4 mg/dL (mean +/- SEM) before APD to 8.0 +/- 0.1 mg/dL at the end of treatment. Ionized calcium declined in parallel to total calcium. APD was as effective in hypercalcemia due to bone metastases as in paraneoplastic hypercalcemia. The drug was tolerated without toxicity and had a prolonged effect: serum calcium remained normal during 3+ weeks (1 + to 8 +) in 17 patients who did not receive or did not respond to antitumoral treatment. APD normalized serum calcium by inhibiting bone resorption, as evidenced by the dramatic decrease in urinary excretion of calcium and hydroxyproline. Inhibition of bone resorption was probably also responsible for the decrease in serum phosphorus from 2.9 +/- 0.2 to 2.0 +/- 0.1 mg/dL. In summary, IV APD constitutes a major advance in the treatment of malignancy-associated hypercalcemia: it is very effective, well tolerated, and has a prolonged efficacy.

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Dose/response study of aminohydroxypropylidene bisphosphonate in tumor-associated hypercalcemia

Body

Pot

Borkowski

et al. 1987

The American Journal of Medicine

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Bisphosphonates (or diphosphonates) constitute a major advance in the treatment of tumor-associated hypercalcemia and also have the potential to prevent or reverse osteolysis in normocalcemic patients. Available information on adequate therapeutic doses and potential toxicity is, however, very fragmentary. This report describes a phase I study of one of the most promising bisphosphonates currently available, aminohydroxypropylidene bisphosphonate (AHPrBP or APD), in tumor-associated hypercalcemia. Only patients remaining hypercalcemic after 48 hours of rehydration were evaluated, and antineoplastic therapy was delayed at least until a normal serum calcium level was reached. AHPrBP was given as two-hour daily infusions for three days, and three different patients were treated at each of the six following dosage levels: 0.01, 0.05, 0.25, 0.75, 1.5, and 3.0 mg/kg per day. The two lowest dosages levels were insufficient to normalize serum and urinary calcium levels, but the efficacy of the four other dosages was very similar. Plasma immunoreactive parathyroid hormone levels increased as a function of calcium levels, whereas urinary hydroxyproline levels did not prove to be a very useful measure of AHPrBP's effects on bone resorption. The drug was generally very well tolerated: only six patients had transient fever and/or decreases in lymphocyte count that were not clearly related to AHPrBP dosage. The only real problem was observed at the highest dosage of 3.0 mg/kg per day in an obese woman in whom high fever and hypotension developed. Efficacy and tolerance in dehydrated patients were verified by treating seven other patients, not previously rehydrated, at 1.0 mg/kg per day for three days. In summary, the therapeutic range of AHPrBP, given for three days as a two-hour infusion daily, lies between 0.25 and 1.5 mg/kg per day. Fasting urinary calcium levels are probably the most reliable and easily measured parameter to monitor AHPrBP's inhibition of bone resorption in normocalcemic patients.

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