Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020437 (hypercalcemia)
10,293 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute hyperparathyroidism should be distinguished from severe hypercalcemia of malignancy. In the former condition parathyroidectomy is often of vital importance; in the latter, the malignant neoplasm should be treated surgically or with radiation or cytostatics. The differential diagnosis is sometimes difficult because some patients with acute hyperparathyroidism have coexisting carcinoma elsewhere. Two patients subjected to parathyroidectomy because of severe hypercalcemia secondary to malignant neoplasms are described and compared with twelve similar cases from the literature. In patients with severe hypercalcemia medical treatment should always be tried first. If acute hyperparathyroidism cannot be excluded, subtotal parathyroidectomy should be performed after medical preparation.
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PMID:Differentiation of acute hyperparathyroidism from severe hypercalcemia of malignancy. 84 64

Rabbits receiving intramuscular injections of VX-2 carcinoma cells in biceps femoris muscles developed rapidly progressive neoplastic growths at 14 to 21 days associated with a significant hypercalcemia. The biologic behavior of the VX-2 carcinoma was characterized by local infiltration and metastases to regional lymph nodes and lungs. No metastases to skeletal tissues were evident. Femora from intramuscularly injected rabbits had varying degrees of osteophytosis and lysis evident roentgenographically. Histopathologic evaluation of femoral sections revealed periosteal new bone growth, cortical osteolysis, endosteal new bone growth, and in a few long term rabbits, pathologic fractures. Bone lesions were evident histologically in the vicinity of neoplastic growth (i.e., femora, tibiae) but not at distant sites (i.e., humeri and vertebrae). Mineral analyses of VX-2 carcinoma tissues and kidneys from VX-2-bearing rabbits revealed concentrations of calcium 83 and 3 times greater, respectively, than those of skeletal muscle and kidneys from controls. These findings correlated well with histochemical evidence of excessive amounts of calcium in sections of kidneys and VX-2 carcinoma tissues. Rabbits receiving intraperitoneal injections of VX-2 carcinoma cells did not develop hypercalcemia despite an extensive, progressive neoplastic burden with metastases to abdominal and thoracic viscera. Roentgenographic, histopathologic, and physiochemical analyses of selected bones from these rabbits revealed no significant alterations. These findings indicate that VX-2 carcinoma cells need to be in close proximity to skeletal tissues in order to induce hypercalcemia. The development of a significant hypercalcemia in intramuscularly injected rabbits precedes the invasion of osseous tissues by VX-2 carcinoma cells. Therefore, it appears that VX-2 carcinoma cells have the ability to alter skeletal morphology and physiochemistry through a dual humoral/cellular mechanism. The clinicopathologic characteristics of the VX-2 carcinoma in the rabbit suggest that the neoplasm is a good experimental model to study osseous-mediated hypercalcemia of malignancy.
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PMID:Hypercalcemic VX-2 carcinoma in rabbits: a clinicopathologic study. 94 Mar 20

The presence of hypercalcemia in patients with known cancers may be due to the cancers themselves, or to co-existing primary hyperparathyroidism. The differentiation of primary hyperparathyroidism from the hypercalcemia of malignancy is important since the relief of distressing symptoms and prevention of hypercalcemic crises and renal failure can be accomplished relatively easily by parathyroid surgery in the former condition, and only with difficulty, at times, with fluids and drugs in the latter condition. The histories of three recent patients are presented, which demonstrate the difficulties inherent in the differentiation of these conditions. These patients were ultimately found at operation to have primary hyperparathyroidism in addition to malignancies of the cervix, adrenal gland and kidney. In our experience the following have been helpful in establishing a diagnosis; history of hypercalcemia prior to development of cancer, the type of cancer itself, the effect of cancer therapy on the hypercalcemia, and selective venous sampling with radioimmunoassay for parathyroid hormone.
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PMID:The differentiation of primary hyperparathyroidism from the hypercalcemia of malignancy. 111 56

Humoral hypercalcemia of malignancy (HHM) is at least partly caused by tumor secretion of PTH-related peptide (PTHrP), but there is growing evidence for cosecretion with PTHrP of other bone-resorbing peptides, such as the cytokine interleukin-1 alpha (IL-1 alpha). Administration of PTHrP in vivo and in vitro generally mimics the actions of PTH itself, with increases in both resorption and formation of bone. However, bone in HHM is characterized by uncoupling of bone turnover, with increased resorption and decreased formation. We performed experiments to determine whether IL-1 alpha might alter the effects of PTHrP and produce uncoupling. Thus, we administered to 100-g male rats by sc osmotic minipumps synthetic PTHrP-(1-34) alone (2 micrograms/100 g/day), recombinant IL-1 alpha alone (1.5 micrograms/100 g/day), both peptides together at the previous doses, or vehicle only. We infused 5 groups of 12 rats each (PTHrP, IL-1 alpha, PTHrP plus IL-1 alpha, ad libitum fed control, and controls pair-fed to the PTHrP plus IL-1 alpha group) for 14 days. At the end of the study, blood and urine were taken for chemical measurements, and tibias and femurs were harvested for histomorphometry and extraction of RNA from periosteal cells. As expected, PTHrP induced hypercalcemia, relative hypophosphatemia, phosphaturia, and reduced bone mass. Osteoblast number was increased, but osteoclast number was not. Indices of bone formation were unchanged or reduced. The dose of IL-1 alpha chosen had no statistically significant effect, except for reduced longitudinal bone growth, but when combined with PTHrP, IL-1 alpha reduced hypercalcemia, hypophosphatemia, and phosphaturia. In contrast to the blood and urine effects, IL-1 alpha did not interact significantly with PTHrP's effect on bone measurements. Northern analysis of periosteal cell mRNA showed that PTHrP reduced expression of osteocalcin, but not glyceraldehyde-3-phosphate dehydrogenase; IL-1 alpha had no additional effect. These data suggest that 1) continuously administered PTHrP alone may induce uncoupled bone turnover with decreased cortical bone formation; 2) IL-1 alpha appears to inhibit strongly the renal effects of PTHrP and weakly (if at all) its actions on bone and, thus, to decrease its hypercalcemic, phosphaturic, and hypophosphatemic actions; and 3) cosecretion of IL-1 alpha, and possibly other peptide cytokines, with PTHrP may modify the clinical expression of HHM.
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PMID:Inhibition by human interleukin-1 alpha of parathyroid hormone-related peptide effects on renal calcium and phosphorus metabolism in the rat. 131 27

Cancer-associated hypercalcemia is due to the: (a) elaboration of systemically-acting humoral factors by neoplasms which alter calcium metabolism in bone, kidney, and intestine; or (b) stimulation of bone resorption at sites of tumor metastasis to bone. It is likely that both mechanisms occur in the same patient with certain neoplasms. There are many humoral factors that can be produced by tumors, secreted into the circulation, and have distant effects which induce hypercalcemia. The stimulation of increased osteoclastic bone resorption is a principal feature of humoral hypercalcemia of malignancy, but the kidney also plays an important role. In addition, intestinal absorption of calcium may be a factor in the pathogenesis of hypercalcemia in certain neoplasms. Parathyroid hormone-related protein plays a dominant role in the pathogenesis of HHM. PTHrP alone is able to induce nearly all of the clinical signs of HHM in experimental animals, but other humoral factors, such as cytokines, can interact with PTHrP to contribute to the development of hypercalcemia. Neoplasms which metastasize widely to bone and induce local osteoclastic bone resorption, such as multiple myeloma, also are capable of inducing hypercalcemia. Based upon existing data it is not clear what percentage of neoplasms which metastasize to bone and stimulate local bone resorption also are capable of stimulating hypercalcemia by systemic factors. Future research is needed to delineate the systemic and local factors associated with CAH; to define interactions of humoral factors in the pathogenesis of hypercalcemia; and to investigate the regulation of transcription, translation, modification, and secretion of hypercalcemia-inducing factors in normal and neoplastic tissues.
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PMID:Mechanisms of cancer-induced hypercalcemia. 146 Aug 60

Hypercalcemia of malignancy is a commonly encountered serious clinical problem that often requires aggressive therapy. In order to combine the rapid hypocalcemic effects of calcitonin with the more delayed effect of a bisphosphonate, we administered etidronate, 7.5 mg/kg/day intravenously and salmon calcitonin, 100 IU subcutaneously, every 12 hours for 3 days in 9 patients with hypercalcemia associated with malignancy. The mean serum calcium concentration fell from 3.33 +/- 0.1 mmol/liter (mean +/- SEM) to 2.88 +/- 0.1 mmol/liter within 24 hours (P less than 0.001). All patients had a fall in the serum calcium concentration of greater than 0.5 mmol/liter and it returned to normal in 7 of the 9 patients. We conclude that the combination of salmon calcitonin with etidronate more effectively lowers the serum calcium concentration in patients with hypercalcemia of malignancy then the use of either agent alone.
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PMID:Effect of salmon calcitonin and etidronate on hypercalcemia of malignancy. 845 9

The effect of lowering ionized calcium on circulating parathyroid hormone (PTH) and parathyroid hormone-related protein (PTHrP) was assessed in twenty patients with hypercalcemia of malignancy following treatment with Pamidronate Disodium. Ionized calcium levels fell rapidly in all treated patients. PTH concentrations were initially suppressed below normal in 18 patients, but rose from 0.48 +/- 0.42 pmol/L to 3.63 +/- 3.13 pmol/L (p less than 0.01) after treatment, reaching higher than normal values in some patients even in the presence of persistent hypercalcemia. PTHrP concentrations did not change significantly after treatment. These findings are consistent with an increased sensitivity of parathyroid tissue to changes in ionized calcium following prolonged exposure to hypercalcemia. Regulation of tumor secretion of PTHrP by calcium was not apparent within the range of calcium concentrations in this study.
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PMID:Circulating PTH and PTHrP levels before and after treatment of tumor induced hypercalcemia with Pamidronate Disodium (APD). 159 95

Primary hyperparathyroidism and malignancy are responsible for the majority of reported cases of hypercalcemia. Suspected hypercalcemia should be documented on more than one occasion, preferably with the measurement of ionized calcium. Determination of intact parathyroid hormone with a modern two-site immunoassay is the single most important laboratory analysis in the differential diagnosis of hypercalcemia. Intact parathyroid hormone is increased or inappropriately high in primary hyperparathyroidism and suppressed or low normal in hypercalcemia of malignancy. Midregion and carboxylterminal radioimmunoassays are less effective in separating parathyroid and nonparathyroid hypercalcemia. In malignancy, hypercalcemia may result from local osteolysis or humoral factors. Although ectopic parathyroid hormone is produced rarely and certain lymphomas secrete 1,25-dihydroxyvitamin D, parathyroid hormone-related protein is elevated in the majority of patients with humoral hypercalcemia of malignancy. Recent developments in the measurement of parathyroid hormone-related protein should help to define the physiologic function of parathyroid hormone-related protein and its role in the differential diagnosis and therapy of hypercalcemia.
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PMID:Hypercalcemia and parathyroid disorders. 159 19

The two most frequent causes for hypercalcemia are primary hyperparathyroidism and hypercalcemia associated with malignancy. Elevated or inappropriately high PTH serum levels are the hallmark of hyperparathyroidism. Sensitive immunometric assays for the secreted, biologically active, intact parathyroid hormone molecule, PTH-(1-84), employ two populations of region-specific antibodies, take advantage of saturation kinetics rather than competitive binding, and have many technical advantages over conventional radioimmunoassay. Approximately 90% of patients with primary hyperparathyroidism have elevated serum levels of PTH-(1-84) by immunometric assay; the remainder have inappropriately elevated values of PTH for the serum calcium concentration. Clinical correlation studies comparing measurements of PTH using antisera that recognize the carboxyl, midregion, or amino terminus of PTH with PTH levels determined by immunometric assays demonstrate elevated values in equivalent numbers of hyperparathyroid individuals. Immunometric assays for PTH-(1-84) have their greatest value in separating patients with hyperparathyroidism from those with hypercalcemia of malignancy. In earlier studies using region-specific antisera, there was virtually always an overlap of serum PTH levels in hyperparathyroidism and hypercalcemia associated with malignancy. In contrast, analysis of results using PTH-(1-84) immunometric assays in several hundred reported patients shows a complete separation of PTH values. Clinical judgment, combined with measurement of PTH in the setting of hypercalcemia, can lead to the diagnosis of hyperparathyroidism with confidence in essentially all patients.
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PMID:Immunoassays for parathyroid hormone 1-84 in the diagnosis of hyperparathyroidism. 172 83

Malignancy is the most frequent cause of hypercalcemia in hospitalized patients. The pathophysiology of hypercalcemia of malignancy (HM) is complex. Increased bone resorption is involved in most cases caused either by extensive local bone destruction or by humoral factors. Tumor extracts from patients with humoral hypercalcemia of malignancy (HHM) often contain PTH-like bioactivity. Recently, cDNAs coding for a PTH-related protein (PTH-rP) has been cloned. The N-terminal amino acid sequence of this protein shows a considerable homology with human PTH. However, other bone resorbing factors including prostaglandins, transforming growth factors, colony stimulating factors, leucocyte cytokines and 1,25-dihydroxyvitamin D may be involved in different types of malignancy. HM is usually progressive with troublesome symptoms and a high mortality. Several treatment alternatives are available including rehydration, bisphosphonates, calcitonin, plicamycin, phosphate, and glucocorticoids. Others are under investigation. Treatment should be individualized taking into account the pathophysiological mechanisms involved, the extent of hypercalcemia and renal failure, and the prognosis related to the malignant disease.
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PMID:Hypercalcemia of malignancy: pathophysiology, diagnosis and treatment. 188 26


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