Pai C. Kao

Clinical performance of parathyroid hormone immunometric assays

Three immunometric assays of parathyroid hormone (PTH)--a commercial immunoradiometric assay, an in-house immunoradiometric assay, and an immunochemiluminometric assay--were evaluated in 50 patients with surgically proven primary hyperparathyroidism. Of these patients, 43 had increased values with the commercial assay (sensitivity, 86%), whereas 45 patients had increased concentrations with both the in-house immunoradiometric and the in-house immunochemiluminometric assays (sensitivities, 90%). Because of the results of this comparison study, we confidently chose the immunochemiluminometric assay as our routine assay; this assay was evaluated retrospectively in 361 patients with surgically proven primary hyperparathyroidism. In 45 patients, PTH values were below the upper limit of normal (sensitivity, 88%). The results indicate that the sensitivities of current immunometric assays are approximately 90%. Twenty patients who had hypercalcemia associated with malignant involvement were assessed with the immunochemiluminometric assay. Of these 20 patients, 19 had subnormal PTH values, and 1 had a value within the normal range. In contrast, in the past, PTH values determined with radioimmunoassays have often been in the normal range for such patients. Thus, an immunometric PTH assay is superior to a radioimmunoassay in the differential diagnosis of hypercalcemia associated with malignant disease.

Parathyroid hormone-related peptide in lactation and in umbilical cord blood.

Parathyroid hormone-related peptide (PTHrP) is expressed in lactating rat mammary glands after suckling, as a result of increases in prolactin rather than suckling per se. In addition, PTHrP produced in the fetal parathyroid glands and placenta may be responsible for stimulation of placental calcium transport. In the current study, we used a radioimmunoassay for human PTHrP to measure levels of the peptide in (1) human breast milk, cows milk, and two infant formulas; (2) sequential plasma samples in prepartum and postpartum lactating women; (3) women with pathologic hyperprolactinemia; and (4) human umbilical cord blood. In normal subjects, plasma PTHrP levels ranged from less than 2 to 5 pmol/liter. In contrast, human breast milk contained substantially increased levels of immunoreactive PTHrP. Similar elevations were found in cows milk and in one infant formula. Column chromatography of breast milk demonstrated that PTHrP immunoreactivity included a region of adenylate cyclase stimulating activity, consistent with the presence of biologically active PTHrP. Plasma prepartum PTHrP values did not differ from corresponding postpartum values in lactating women. Women with hyperprolactinemia had a mean plasma PTHrP value in the high-normal range. Umbilical cord blood had considerably suppressed parathyroid hormone values but PTHrP levels that were indistinguishable from those in normal human plasma. Thus, PTHrP is present in high concentrations in breast milk but apparently does not gain access to the maternal circulation in significant amounts. In addition, women with pathologic hyperprolactinemia seem not to have increased levels of circulating PTHrP.(ABSTRACT TRUNCATED AT 250 WORDS)

Aspirin idiosyncrasy in systemic mast cell disease: A new look at mediator release during aspirin desensitization

OBJECTIVE To report the clinical responses and mediator-release profiles of an aspirin-sensitive man with systemic mast cell disease during aspirin desensitization. MATERIAL AND METHODS We quantified the release of six mediators during aspirin desensitization. RESULTS Although aspirin was administered cautiously with an initial dose of 20 mg, successful aspirin desensitization necessitated complete monitoring and resuscitation capabilities of a medical intensive-care unit for 4.5 days because of frequent, severe anaphylactoid responses. To our knowledge, this is the first report of a pronounced increase in plasma levels of the vasodilator peptide calcitonin gene-related peptide during episodes of aspirin-induced hypotension. Increases in plasma levels of calcitonin and serum levels of tryptase paralleled those of calcitonin gene-related peptide, but plasma levels of calcitonin remained increased for up to 18 hours. Urinary excretion of histamine and 1-methyl-4-imidazoleacetic acid also showed precipitous, although delayed, increases. Excretion of the prostaglandin D2 metabolite 11 beta-prostaglandin F2 alpha followed a bimodal pattern during aspirin desensitization; after severe hypotensive responses, the maximal value was more than 490,000 pg/mL, but the level decreased to less than 100 pg/mL after therapeutic serum levels of salicylate were attained. CONCLUSION These data suggest that the hypotensive responses to aspirin in some patients with systemic mast cell disease may result from the combined effects of several mediators.

Increased Parathyroid Hormone-Related Peptide in Patients With Hypercalcemia Associated With Islet Cell Carcinoma

OBJECTIVE To report the high prevalence of increased parathyroid hormone-related peptide (PTHrP) in patients with islet cell carcinoma and associated hypercalcemia. DESIGN We conducted a retrospective study of PTHrP levels in patients with hypercalcemia and eucalcemia associated with islet cell carcinoma and compared these findings with those in healthy subjects. MATERIAL AND METHODS Using a sensitive PTHrP immunochemiluminometric assay, we measured PTHrP levels in 17 patients with islet cell carcinoma and 110 healthy subjects. The differences between PTHrP levels in patients with normal and those with high serum calcium concentrations were analyzed statistically. RESULTS PTHrP levels were significantly higher (P < 0.01) in 10 patients with hypercalcemia and islet cell carcinoma (median, 14.0 pmol/L; range, undetectable to 40.1) than in 7 patients with eucalcemia and islet cell carcinoma (median, undetectable; range, undetectable to 1.3 pmol/L) or in the 110 healthy subjects (median, undetectable; range, undetectable to 4.2 pmol/L). The range of increased PTHrP levels in hypercalcemic islet cell carcinoma was 2 to 20 times the upper normal limit (2.0 pmol/L). Decreased PTHrP and serum calcium and increased parathyroid hormone levels were demonstrated in two patients after effective therapy. For all seven eucalcemic patients with islet cell carcinoma, PTHrP levels did not differ significantly from those in healthy subjects. CONCLUSION PTHrP levels are increased in a substantial proportion of patients with hypercalcemia and islet cell carcinoma and seem to decrease after treatment of the underlying tumor. Measurement of PTHrP levels may be useful for confirming the diagnosis of hypercalcemia associated with malignant disease and for monitoring of therapy.