UMLS:C0221002 - FACTA Search

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

This two-site immunoradiometric assay for human parathyrin-related protein 1-86 (PTHRP1-86) in plasma uses a mouse monoclonal antibody to PTHRP1-34 coupled to cellulose particles for immunoextraction of N-terminal immunoreactivity, and a rabbit antiserum to PTHRP37-67 that is indirectly labeled with 125I-labeled PTHRP37-67 for quantifying the bound analyte. The detection limit of the assay is 0.23 pmol/L, corresponding to 0.4 pg (0.04 fmol) per tube, for a sample volume of 200 microL. Recovery of PTHRP1-86 added to serum is essentially quantitative, and within- and between-batch precision is 4.4% and 11.1%, respectively. PTH1-84, PTHRP18-34, PTHRP9-34, PTHRP1-34, and PTHRP37-67 do not cross-react in the assay at concentrations up to 2 nmol/L. Plasma concentrations of PTHRP1-86 were below or close to the detection limit of the assay in normal subjects and in patients with primary hyperparathyroidism, hypoparathyroidism, chronic renal failure, and normocalcemic malignancy. In 37 hypercalcemic patients with various malignancies, we found detectable PTHRP1-86 concentrations in 35 (95%, mean 7.4 pmol/L, range 0.46-24.7). The data support the proposed humoral role of PTHRP in cancer-associated hypercalcemia and suggest that the assay has clinical utility in the differential diagnosis of hypercalcemia.
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PMID:Development and validation of an immunoradiometric assay of parathyrin-related protein in unextracted plasma. 203 20

To investigate whether parathyroid hormone-related protein (PTHrP), a hypercalcemia-inducing factor responsible for malignancy-associated hypercalcemia (MAH), is excreted into urine of these patients, radioimmunoassay was established using antiserum specific for the C-terminal region of PTHrP-(127-141). Immunoreactive PTHrP (iPTHrP) was detected in the urine of all patients with MAH (n = 6) in whom nephrogenous cyclic AMP excretion was elevated. However, iPTHrP was not detected in the urine of normal subjects (n = 25) or hypercalcemic patients with primary hyperparathyroidism (n = 8). In normocalcemic patients with malignant disorders iPTHrP was not detected in the urine in most cases (24 of 25 patients) but was detectable in 1 of 25 patients. iPTHrP was also detected in the urine of hypercalcemic nude mice transplanted with PTHrP-producing tumors, but not in the urine of control and normocalcemic nude mice transplanted with PTHrP-nonproducing tumor. Furthermore, size-exclusion high-performance liquid chromatography revealed that the molecular weight of iPTHrP is about 2000-6000 daltons in the urine of patients as well as tumor-bearing nude mice. These data indicate that the fragments of the C-terminal region of PTHrP are excreted into the urine of patients with MAH and in a few normocalcemic patients with malignancies, suggesting that the measurement of iPTHrP in the urine is potentially useful in the differential diagnosis of hypercalcemia, particularly in differentiating humoral hypercalcemia of malignancy and primary hyperparathyroidism.
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PMID:Urinary excretion of parathyroid hormone-related protein fragments in patients with humoral hypercalcemia of malignancy and hypercalcemic tumor-bearing nude mice. 204 34

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

Parathyroid carcinoma is rare, occurring in less than 2-3% of the patients with clinical features of primary hyperparathyroidism. In haemodialysis patients parathyroid carcinoma has only once been described, although secondary hyperparathyroidism in these patients is common. We discuss two female haemodialysis patients with parathyroid carcinoma. Both were treated surgically: in one patient only local excision of the malignancy was performed; the other patient underwent a modified neck dissection on the side of the tumour as well. Physical, biochemical and radiological evaluation for 4-7 years after operation gave no evidence of recurrence of the malignancy.
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PMID:Successful surgical treatment of parathyroid carcinoma in two haemodialysis patients. 185 30

Hypercalcemia is a potentially lethal endocrine disorder occurring in 10% to 20% of cancer patients at some time during the course of their disease. Clinical manifestations vary in severity, depending on the degree and duration of hypercalcemia, rapidity of onset, patient's age, performance status, sites of metastases, previous antineoplastic therapy, and the presence of hepatic or renal dysfunction. The clinical features of hypercalcemia are protean and affect multiple organ systems, resulting most prominently in neurologic, gastrointestinal, renal, cardiovascular, and musculoskeletal morbidity. Recognition of the disorder requires a high index of suspicion because many of its symptoms, such as nausea, anorexia, weakness, fatigue, lethargy, and confusion, are non-specific and, in the patient with a malignancy, can result from other complications of the primary disorder. If identified appropriately as being related to hypercalcemia, such symptomatology is potentially reversible with treatment. Whereas in the ambulatory general medical population the most common cause of hypercalcemia is primary hyperparathyroidism, in cancer patients and hospitalized patients in general, the most common cause is malignancy. Hypercalcemia in cancer patients is, in most cases, due to advanced metastasized disease. Diagnostic tests are useful in the differential diagnosis of hypercalcemia, and such tests, together with an accurate history and careful clinical observation, permit the best therapeutic approach to an individual patient.
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PMID:Clinical manifestations of cancer-related hypercalcemia. 218 49

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

The previous cytometric studies on parathyroid tumors have provided conflicting data regarding the relationship between DNA content and histopathology, resulting from differences in technical methods and data analysis. This study measured nuclear DNA of parathyroid tumors by flow cytometry in fresh material and determined whether DNA aneuploidy really assists in making a pathologic diagnosis of carcinoma or not. From May 1987 through April 1989, 65 consecutive patients operated on for primary hyperparathyroidism had DNA analysis of the freshly excised parathyroid tumors. Three of the patients had metastatic lesions of parathyroid carcinoma in the lung, cervical lymph nodes, and lung and mediastinal lymph nodes, respectively. Pathologic classifications of the lesions from the other 62 patients were 54 adenomas, four carcinomas, and four hyperplasias. In all the latter patients, hyperplasia was associated with a multiple endocrine neoplasia syndrome. Unequivocal evidence of aneuploidy was found in all of the metastatic lesions and 60% of the primary lesions of the carcinomas, in 9% of the adenomas and in 50% of the hyperplasias. Therefore, parathyroid carcinomas were more apt to be aneuploid than were adenomas (P = 0.0015, both-sided testing). In each of the cases of aneuploid hyperplasia, a small aneuploid peak was found. The high incidence of aneuploidy in patients with multiple endocrine neoplasia type 1 may indicate the presence of clonal heterogeneity of hyperplastic glands and the presence of an abnormal subset of cells that have malignant potential. Cell distribution analysis did not provide any significant information beyond ploidy level. In conclusion, DNA flow cytometric analysis of DNA ploidy patterns is a valuable adjunct to the histopathologic diagnosis of parathyroid neoplasms.
Cancer 1990 Oct 01
PMID:Flow cytometric DNA analysis of parathyroid tumors. Implication of aneuploidy for pathologic and biologic classification. 220 8

Serum-calcium levels were determined in 9666 hospital inpatients during one year. Hypercalcaemia was present in 101 patients (51 women, 50 men, mean age 57 years). In 46 patients, hypercalcaemia was caused by malignancy. The second commonest cause was primary hyperparathyroidism (pHPT) in 35 cases. In the other 20 patients, hypercalcaemia was related to thiazid medication (8 patients), elevated 25-hydroxy-vitamin-D3-levels (six patients) or immobilisation (two patients). In four patients, no cause was found. Intact parathyroid hormone levels reliably distinguished patients with pHPT (values greater than 60 ng/l) from patients with hypercalcaemia of other causes (values less than 40 ng/l). Other laboratory tests were less useful. Serum-calcium levels greater than 2.9 mmol/l were found only in pHPT and hypercalcaemia of malignancy. In pHPT, the medical history frequently revealed nephrolithiasis (12 patients) and gastrointestinal ulcers (8 patients), whereas weight loss was far more common in hypercalcaemia of malignancy (28 patients).
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PMID:[Epidemiology of hypercalcemia. Significance of the determination of intact parathyroid hormone for differential diagnosis]. 222 85

We compared measurements of parathyroid hormone (PTH) using two assays, in order to detect intact PTH and midregion/C-terminal PTH (M/C-PTH) in a variety of calcium metabolic disorders. The series consisted of a total of 101 patients, including subjects with primary hyperparathyroidism (n = 24), hypoparathyroidism (n = 18), hypercalcaemia of malignancy (n = 10), moderate chronic renal failure (n = 14), chronic renal failure undergoing haemodialysis (n = 19), and small bowel disorders (n = 16). The intact PTH assay was superior to the M/C-PTH assay in reflecting parathyroid function in primary hyperparathyroidism, hypoparathyroidism and hypercalcaemia of malignancy. In patients with chronic renal failure, both assays were indicators of a comparable number of patients with elevated PTH levels. Intact PTH proved most reliable in detecting changes in parathyroid hormone secretion in response to variations in ionized calcium induced by haemodialysis. In patients with extensive intestinal resection, both assays showed increased levels of PTH. It is concluded that measurement of intact PTH is a more reliable index of parathyroid function than measurement of midregion/C-terminal PTH. Thus such an approach should be the one of choice for clinical evaluation of calcium homeostasis.
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PMID:Diagnostic applicability of intact and midregion/C-terminal parathyroid hormone assays in calcium metabolic disorders. 225 16

To determine the incidence and causes of hypercalcaemia in a hospital population in Hong Kong, all 29,107 samples received in the laboratory in one year were analysed for plasma calcium and albumin, and samples with a plasma calcium concentration adjusted for albumin greater than 2.55 mmol/l were investigated. Plasma calcium greater than 2.55 mmol/l was found in 462 patients. Repeat samples were received from 302 of these and hypercalcaemia was confirmed in 183. The main causes of hypercalcaemia were malignancy (72.1 per cent), tuberculosis (6.0 per cent), and primary hyperparathyroidism (5.5 per cent). In the malignant hypercalcaemia group, carcinoma of lung was the most common (31.8 per cent) and carcinoma of breast was uncommon (3.0 per cent). Secondary deposits in bone were detected in 35 of the 122 solid tumours. In order to identify the mechanism of hypercalcaemia the contributions of renal tubular reabsorption and increased bone resorption to the plasma calcium concentration were calculated. Increased tubular reabsorption was the main contributor to hypercalcaemia in primary hyperparathyroidism and carcinoma of liver (none of whom had bony metastases) and it contributed significantly to hypercalcaemia in carcinoma of lung without bony metastases and carcinoma of oesophagus. We conclude that in Hong Kong (a) primary hyperparathyroidism is uncommon, (b) tuberculosis is an important cause and (c) humoral factors may be responsible for a relatively high proportion of cases of malignant hypercalcaemia.
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PMID:Incidence, causes and mechanism of hypercalcaemia in a hospital population in Hong Kong. 229 Sep 21

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