Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0221002 (primary hyperparathyroidism)
4,921 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A significant correlation between the activity of the bone isoenzyme or serum alkaline phosphatase and the urinary hydroxyproline excretion in osteomalacia, osteoporosis, primary hyperparathyroidism with osteodystrophy, Paget's disease, secondary bone tumours, and in a control group was found (P less than 0.001). This close correlation was not observed between these variables in patients with active acromegaly. Diagnosis determined from these indices of formation and turnover of bone matrix agreed with that established by histological and histochemical examination of bone, by X-ray investigation of the skeleton, and by the radionuclear 85Sr test. The relationship between the activity of bone isoenzyme and urinary hydroxyproline excretion differed in metabolic bone diseases with a high bone turnover, in patients with osteoporosis and in patients with early osteoclastic bone metastases.
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PMID:Relationship of the activity of the bone isoenzyme of serum alkaline phosphatase to urinary hydroxyproline excretion in metabolic and neoplastic bone diseases. 10 9

Urinary adenosine -3' ,5' - cyclic monophosphate was measured in 14 patients with hypercalcaemia not caused by primary hyperparathyroidism. Increased levels were found in patients with malignant disease without bone metastases and believed to be examples of paraendocrine syndrome. Decreased levels were found in patients with metastatic carcinoma involving bone, and in patients with multiple myeloma, lymphoma and immobilisation after fracture. Results obtained during treatment for hypercalaemia are described in three patients. In two hypercalcaemic patients (one with hyperthyroidism and one with breast cancer with bone metastases) normal levels were found. This measurement is a useful substitute for assay of serum parathyroid hormone and is of value in the diagnosis of hypercalcaemia, in monitoring effects of treatment and in revealing underlying mechanisms.
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PMID:Urinary cyclic AMP in diagnosis and management of hypercalcaemia: studies of patients without primary hyperparathyroidism. 16 77

Malignant melanoma occurs in approximately 1.7 per cent of all patients admitted to the Clinical Center, National Institutes of Health, and approximately 1.8 per cent of patients admitted with hypercalcemia and malignant disease. The incidence of hypercalcemia and malignant melanoma is 1.1 per cent. Bone metastases are diagnosed before death in approximately 5.2 per cent of patients with malignant melanoma. The cause of hypercalcemia in our patients appears to be bone metastases in 83.3 per cent and primary hyperparathyroidism in 16.9 per cent.
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PMID:Hypercalcemia and malignant melanoma. 45 73

Rapid differential diagnosis of hypercalcaemia due to primary hyperparathyroidism or malignancy with or without bone metastases may be life saving. A parathormone infusion test (6 USP units/kg body wt X 20 min) enables a differential diagnosis within three hours by means of measurement of renal calcium excretion. In normal persons calcium excretion decreased from 147 +/- 90 to 79 +/- 54 mumol/h (x +/- s, n = 10). In primary hyperparathyroidism with hypercalcaemia the high calcium excretion remained unchanged: 716 +/- 162 mumol/h before and 804 +/- 130 mumul/h 120 minutes after the PTH infusion (n = 12). In patients with hypercalcaemia caused by bronchial carcinoma with (n = 5) and without (n = 1) bone metastases calcium excretion decreased from 552 +/- 182 to 163 +/- 114 mumol/h. As a consequence of these data this test is advisable when the indication for operation in cases with hypercalcaemia has to be reached within a few hours.
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PMID:[Differential diagnosis of hypercalcaemia by measurement of renal calcium excretion during parathormone administration (author's transl)]. 49 90

Various hormones have been implicated in the genesis of hypercalcemia in patients with malignancy. Ectopic secretion of PTH by tumor has been documented in only a few patients; rather, elevated levels of circulating iPTH have been presumed to reflect tumor production of hormone in most patients. Small fragments of PTH, as well as polypeptides larger than native PTH, have been described; their biological roles are unclear. The pattern of immunoreactivity, however, has been used to differentiate patients with ectopic hyperparathyroidism from patients with concomitant primary hyperparathyroidism. Vitamin D-like sterols produced by breast cancer seldom reach plasma levels necessary for physiological effects. Members of the prostaglandin family have been proposed to induce hypercalcemia through osteoclast activation or alteration of the immune system and also to affect the frequency of bone metastases. At present, no direct evidence is available to prove a direct role for these effects and prostaglandins are most useful as possible indicators of disease activity.
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PMID:Mechanisms of hypercalcemia in malignancy. 65 92

A premenopausal woman developed hypercalcemia 30 months after treatment for infiltrating breast cancer. After bone metastases had been excluded, primary hyperparathyroidism was suspected. A parathyroid adenoma was removed and histologically confirmed. Hypercalcemia, associated with low plasma phosphate and severely depressed plasma parathormone (PTH) levels, persisted. Further investigations showed liver metastases from the primary breast cancer and also secretion of a PTH-like substance. Antitumoral treatment was effective on the liver metastases and also normalized calcemia and the PTH-like substance, demonstrating the existence of a paraneoplastic syndrome related to the secretion of a PTH-like substance by disseminated liver metastases of primary breast cancer.
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PMID:Hypercalcemia and breast cancer related to parathormone-like secretion by liver metastases. 146 5

Hypercalcemia may occur as a complication of haematological malignancies, in association with solid tumors with bone metastases, and with solid tumors in the absence of bone metastases. The latter syndrome, known as the humoral hypercalcemia of malignancy (HHM) shares many features with primary hyperparathyroidism. A parathyroid hormone-related protein (PTHrP) has been identified, isolated and cloned, which is most likely responsible for the calcium disturbances in HHM, PTHrP is a previously unrecognized hormone which has limited amino-terminal sequence homology with PTH and is the product of a separate gene. Tissue localization studies have identified PTHrP in squamous cell carcinomata, renal cortical carcinomata, in a proportion of breast cancers and in adult T-cell leukemia/lymphoma. In normal tissues, PTHrP has been immunohistochemically localized in keratinocytes, placenta and fetal parathyroid glands. In addition to its role in mediating hypercalcemia in cancer, PTHrP is likely to have an important endocrine role in the fetus, and perhaps a paracrine function in several organs.
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PMID:Hypercalcemia in cancer. 152 53

A RIA for PTH-related protein (PTHrP) is described, using a polyclonal goat antiserum against synthetic PTHrP-(1-40) and recombinant PTHrP-(1-84) as standard. The detection limit is 2 pmol/L, and intra- and interassay coefficients of variation are 4.8% and 13.6%, respectively. This assay does not detect PTH even at concentrations of up to 2000 pmol/L. Cross-reactivity studies using various synthetic PTHrP peptides localize the antibody-binding epitope between residues 20 and 29. Hypercalcemic patients with a range of solid tumors and no evidence of bone metastases on radionuclide scanning (n = 27) all had detectable PTHrP levels (range, 2.8-51.2 pmol/L). Of 17 patients with solid tumors (other than breast) and bone metastases, 11 (64%) also had detectable PTHrP levels (range, 4.9-47.5 pmol/L). Twenty samples from breast cancer patients with hypercalcemia, 19 with evidence of bone metastases, and 1 with a negative bone scan were assayed, and detectable PTHrP levels were found in 13 (65%; range, 3.8-61.6 pmol/L). Patients with squamous cell carcinomata and normal serum calcium levels (n = 11) had no detectable PTHrP or levels close to the detection limit of the assay (range, less than 2 to 3.7 pmol/L). Plasma levels in normal volunteers were below the detection limit of the assay in all but 1 of 38 normal subjects. Patients with chronic renal failure on hemodialysis (n = 18) and patients with primary hyperparathyroidism (n = 14) all had undetectable PTHrP in this assay. This assay allows positive identification of patients with PTHrP-mediated hypercalcemia and, therefore, should be useful in the clinical investigation of the hypercalcemic patient. Furthermore, it has allowed detection of circulating PTHrP in hypercalcemic breast cancer patients with bone metastases, indicating a significant role for PTHrP in this disease.
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PMID:Parathyroid hormone-related protein: elevated levels in both humoral hypercalcemia of malignancy and hypercalcemia complicating metastatic breast cancer. 195 13

Tubular reabsorption of calcium (Ca) is becoming recognized as a determinant of malignant hypercalcemia. However, its importance as compared to increased bone resorption has not yet been widely investigated. We determined Ca fluxes of bone resorption and tubular reabsorption in 141 rehydrated patients with hypercalcemia of malignant or benign origin, before any specific treatment. Bone resorption (BRI) was evaluated by fasting urinary Ca excretion and Ca tubular reabsorption using an index (TRCaI) calculated from a nomogram relating fasting urinary Ca excretion and calcemia. The relationship between alterations in TRCaI and in the tubular capacity to reabsorb inorganic phosphate (Pi), as judged by TmPi/GFR, was also examined for each cause of hypercalcemia. Among 101 cases with malignancy, 67% had overt bone metastases, but all displayed increased BRI. Calcemia was highest in breast cancer and lowest in prostate carcinoma. BRI was markedly increased in breast cancer, lymphoma, and multiple myeloma, whereas it was slightly elevated in lung squamous cell, renal, and liver carcinomas. TRCaI was increased in 49% of malignant hypercalcemia, particularly in epidermoid (above the upper normal limit in 71% of the cases), renal, and liver carcinomas. It was elevated in 54% of breast cancer and normal in multiple myeloma and prostate cancer. In nonmalignant hypercalcemia, BRI was markedly increased in vitamin D intoxication, sarcoidosis, and immobilization. In primary hyperparathyroidism (PHP), BRI was moderately increased. TRCaI was abnormally elevated in PHP, but normal in vitamin D intoxication, sarcoidosis, and immobilization. In malignant hypercalcemia, TmPi/GFR was low in 77% of patients and in all types of tumors, except in prostate carcinoma. The index ratio [TRCaI/(TmPi/GFR)] gave a better discrimination of PHP from other causes of nonmalignant hypercalcemia than the use of either TRCaI or TmPi/GFR taken alone. Thus, in malignant hypercalcemia, increased bone resorption is associated with an elevation in tubular Ca reabsorption in half the patients surveyed, whereas low tubular Pi reabsorption is observed in more than 75%. Increased TRCaI is restricted to some types of tumor, whereas decreased TmPi/GFR is observed in all types except prostate carcinoma. In nonmalignant hypercalcemia, a significant increase in mean TRCaI was only observed in PHP, of which individual cases can be fully discriminated from other conditions by using a new index taking into account alteration in the renal transport capacity of both Ca and Pi.
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PMID:Evaluation of bone resorption and renal tubular reabsorption of calcium and phosphate in malignant and nonmalignant hypercalcemia. 205 36

Hypercalcemia is one of the most serious metabolic disorders associated with cancer. The incidence and clinical circumstances associated with hypercalcemia vary in different types of cancer. Hypercalcemia is the most frequent metabolic complication of breast cancer and is usually related to widespread osteolytic metastases; however, local and systemic humoral factors mediating bone resorption have been described. In some patients with breast cancer, hypercalcemia results from treatment with estrogens, antiestrogens, androgens, or progestins. Coexisting primary hyperparathyroidism rarely confounds the diagnosis. In patients with lung cancer, the incidence of hypercalcemia varies with histology and is often unrelated to bone metastases. Hypercalcemia may occur either late or early in the disease but is seldom a presenting symptom. In patients with cancers of the head and neck region, hypercalcemia is most often associated with advanced recurrent and terminal disease, presumably humorally mediated. In renal cell carcinoma, hypercalcemia is also an adverse prognostic indicator, commonly mediated by humoral factors. On the other hand, almost all patients with multiple myeloma have extensive osteolytic bone destruction and hypercalcemia is frequently a presenting symptom. Hypercalcemia is uncommon in most lymphomas; however, it is usually a prominent feature of adult T-cell lymphomas and also occurs in some large cell, diffuse B-cell lymphomas. Awareness of the setting in which hypercalcemia of malignancy occurs will lead to its prompt diagnosis and institution of appropriate therapy.
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PMID:Overview of cancer-related hypercalcemia: epidemiology and etiology. 218 51


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