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Query: UMLS:C0221002 (
primary hyperparathyroidism
)
4,921
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The classic bone disease of
primary hyperparathyroidism
, osteitis fibrosa cystica, was characterized by subperiosteal bone resorption, osteopenia, and "brown tumors." Since the description of this
skeletal disorder
, the clinical profile of
primary hyperparathyroidism
has evolved markedly. The disease today is often characterized by no more than asymptomatic hypercalcemia, and severe bone disease is a distinct rarity. However, as we have endeavored to show in this article, newer and more sensitive techniques show significant evidence of the effect of excess parathyroid hormone on the skeleton. Bone density as measured by photon absorptiometry and bone histomorphometry show a deficit of cortical bone and a preservation or increase in cancellous bone elements in mild
primary hyperparathyroidism
with no clinical evidence of skeletal disease. Important questions exist as to the therapeutic implications of these data. Does the presence of parathyroid hormone effect on sophisticated testing portend the development of clinical bone disease? Should these data be used as a rationale for surgical intervention in patients who might otherwise be followed conservatively with mild primary hyperparathyroidism? The answers to these questions must await further data collection and study.
...
PMID:Bone disease in primary hyperparathyroidism. 219 67
Radionuclide imaging with Tc-99m diphosphonates is not an effective method for detecting or ruling out most osteoporotic diseases including senile osteoporosis or accelerated postmenopausal osteoporosis, and the slow loss of bone tissue generally remains undetected by this modality. Nonetheless, it frequently surpasses or supplements radiographic findings in evaluating the focal complications of metabolic bone disease, including fractures, microfractures, stress fractures, vertebral compressions, Milkman-Looser zones, aseptic necrosis, and acute infarction. In contrast to its secondary role in osteoporosis, bone imaging is of prime importance in investigating hypercalcemia, because the major cause of this abnormality is skeletal metastatic malignancy. In defective bone mineralization due to hyperparathyroidism or osteomalacia, a general increase in diphosphonate skeletal uptake is detected more frequently than radiographic abnormalities. However, normal skeletal images do not rule out metabolic bone disease. Biochemical testing is more reliable in detecting
primary hyperparathyroidism
. On the other hand, in renal osteodystrophy, biochemical abnormalities are variable and bone imaging is helpful in assessing the severity of skeletal involvement, but not its etiology. Many methods of quantitating the kinetics of Tc-99m diphosphonates have been explored, such as plasma clearance, bone-to-soft-tissue ratios, 24-hour total body retention and 24-hour urinary excretion. None of these have been widely accepted. The value of bone imaging is established in other systemic diseases, most notably in Paget's disease, hypertrophic pulmonary
osteoarthropathy
, sickle cell disease, fibrous dysplasia, and sympathetic dystrophy.
...
PMID:Radionuclide imaging in metabolic and systemic skeletal diseases. 331 47
