Recent reports that cimetidine, a blocker of histamine H2 receptors, lowered serum calcium and/or immunoreactive parathyroid hormone (PTH) concentrations in primary or secondary hyperparathyroidism prompted us to administer the drug (300 mg, orally, every 6 h) to two patients with hyperparathyroidism accompanying familial multiple endocrine neoplasia type 1.
FBH resembles hyperparathyroidism in that the plasma phosphate level is often in the low-normal range and in that parathyroid hormone is often detectable in the plasma.
Serum calcium, serum phosphate, plasma parathormone and vitamin D metabolites do not distinguish affected members from patients with hyperparathyroidism.
These results indicated the presence of mRNA coding for pre-pro-PTH (PTH mRNA) in an apparently nonfunctioning parathyroid carcinoma, suggesting that PTH synthesis is not always absent in parathyroid carcinomas which are not accompanied by hyperparathyroidism.
These data suggest that the recurrence of hyperparathyroidism is not due to enhanced PTH synthetic activity of autotransplant grafts but to the abnormal growth rate of the transplanted gland.
The findings support variable calcium insensitivity of [Ca2+]i and PTH release in hyperparathyroidism of MEN 1, apparently coupled to heterogeneously reduced CAS expression.
Thus, the Ca(2+)-sensing receptor gene is a candidate parathyroid tumor suppressor gene, with inactivating mutations plausibly explaining set-point abnormalities in the regulation of both parathyroid cellular proliferation and PTH secretion by extracellular Ca2+ similar to those seen in hyperparathyroidism.
Finally, the prospect of CaR agonists and antagonists, which may allow PTH secretion to be regulated independently of the serum calcium concentration, also holds much promise for the medical treatment of hyperparathyroidism, renal osteodystrophy and osteoporosis.
Hyperparathyroidism refers to a term representing a wide spectrum of parathyroid disorders that are characterized by the increased production of parathyroid hormone.
Parathyroid hormone (PTH) status in XLH has been controversial, with the prevailing belief that hyperparathyroidism develops in response to Pi therapy.
On the basis of their parathyroid hormone (PTH) levels, we divided 99 patients undergoing dialysis into 2 groups: 56 patients with hypoparathyroidism (PTH < 104 pg/mL [< 11 pmol/L]) and 43 with hyperparathyroidism (PTH > 261 pg/mL [> 27.5 pmol/L]).
In a case of neonatal severe hyperparathyroidism characterized by moderately severe hypercalcemia and very high PTH levels, coupled with evidence of hyperparathyroidism and effects on brain development not previously demonstrated, we detected point mutations on separate alleles of the CaR, resulting in premature stop codon substitutions at G94 and R648.
Both groups had a similar degree of pre-existing hyperparathyroidism (197 +/- 229 vs. 191 +/- 183 pg/mL), but a more pronounced decrease of parathyroid hormone (PTH) levels after RT was observed in CT patients (at 3 months: 61.4 +/- 42.2 vs. 85.7 +/- 53.1 pg/mL, P= 0.02; at 12 months: 67.3 +/- 33.7 vs. 82.6 +/- 37 pg/mL; P= 0.08).
Hyperparathyroidism (HPT) is a common endocrine disorder with incompletely understood etiology, characterized by enlarged hyperactive parathyroid glands and increased serum concentrations of parathyroid hormone and ionized calcium.
Intracortical porosities and marrow fibrosis are hallmarks of hyperparathyroidism and are present in bones of transgenic mice expressing constitutively active parathyroid hormone/parathyroid hormone-related protein receptors (PPR*Tg).