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Query: UMLS:C0020437 (hypercalcemia)
10,293 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The occurence of hypercalcemia appears to be unusual in leukemia. The mechanisms are numerous: secretion of PTH of PTH like substance, prostaglandin E2 or vitamin D like sterols. The reported case is one of lymphoblastic acute leukemia and hypercalcemia associated with osteoclast activating factor secreted by leukemic cells. In this patient the serum levels calcium closely paralleled the course of acute leukemia.
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PMID:[Hypercalcemia and osteoclast activating factor (OAF) associated with acute lymphoblastic leukemia (author's transl)]. 22 85

Electrolyte disturbances in leukemia can be the result of the disease process or drug therapy. One group of electrolyte abnormalities is related to the stage of the leukemic process. Included in this group are newly diagnosed patients who may show elevated serum potassium, phosphorus, and magnesium--a result of their release from malignant cells after cytotoxic therapy or their accumulation due to urate nephropathy. Patients in remission usually have normal serum electrolyte concentrations, but acute leukemia patients during relapse may have hypokalemia, hypophosphatemia, and hypomagnesemia. This imbalance may be related to cellular uptake of these electrolytes in the presence of inadequate dietary intake. Other factors contributing to electrolyte derangements, and related to the leukemic process, include hyponatremia and hypochloremia secondary to the SIADH, hypokalemia in acute monocytic or acute myelomonocytic leukemia due to lysozyme-induced tubular damage, hypercalcemia possibly secondary to leukemic infiltration of bone or parathyroid glands (with PTH release), or production of a PTH-like substance by leukemic cells. Nonspecific factors related to the disease process which may aggravate the electrolyte imbalance include gastrointestinal loss through nausea, vomiting, and malnutrition. The drug-related electrolyte abnormalities include cyclophosphamide- and vincristine-induced SIADH; decreased serum sodium, chloride, potassium, and calcium concentrations as a result of polymyxin B nephrotoxicity; hypokalemia and hypomagnesemia secondary to amphotericin B; hypocalcemia, hypophosphatemia, and hyperphosphaturia due to L-asparaginase-induced hypoparathyroidism; hypokalemia due to a nonreabsorbable anion effect of antibiotics in the distal tubule or changes in membrane ionic transport of all cells by large doses of antibiotics. Electrolyte disturbance in leukemia thus have a multifactorial pathogenesis which can best be delineated according to the stage of the leukemic process and the drugs being used. Recognition of the cause or causes in a particular patient is essential for an effective approach to management. This review emphasizes the need for routine measurement of serum electrolytes during all phases of the leukemic process.
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PMID:Electrolyte and acid-base disturbances in the management of leukemia. 26 90

Two cases of childhood leukemia with hypercalcemia are reported. In the first case who died by acute granulocytic leukemia, autopsy showed a generalized calcinosis. The other case was an acute lymphocitic leukemia with hypercalcemia and destructive lessions of bones with pathologic fractures. Response to chemotherapy was good. Literature about mechanismes which can induce hypercalcemia in malignancy is reviewed.
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PMID:[Leukemia and hypercalcemia (author's transl)]. 29 Feb 88

A patient with chronic lymphocytic leukemia (CLL) is described in whom hypercalcemia occurred in association with elevation of the peripheral lymphocyte count and expansion of total tumor mass. Hypercalcemia was ameliorated with the institution of chemotherapy for the leukemic process and subsequent fall in WBC count and decrease in total tumor burden; hypercalcemia recurred with relapse of the leukemic process. The serum immunoreactive parathyroid hormone (iPTH) concentration, when measured, was inappropriately elevated for the degree of hypercalcemia. The hypercalcemia would appear to be a direct consequence of the leukemia, and possibly involved secretion of a parathyroid hormone-like polypeptide by the CLL cells. Although a possible role for either an osteoclast-activating substance or prostaglandins was not excluded, they would not account for the elevated serum iPTH levels observed.
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PMID:Hypercalcemia associated with chronic lymphocytic leukemia. 50 29

The pathogenesis of hypercalcemia and mode of action of glucocorticoid therapy was examined in a patient with lymphosarcoma cell leukemia. Circulating neoplastic cells were cultured in vitro and secreted a bone-resorbing factor. The bone-resorbing factor was partially purified with the use of a bioassay for bone resorption, and was found to be chromatographically and pharmacologically similar to osteoclast activiating factor (OAF), which is produced by normal mitogen-activated peripheral blood lymphocytes. Other factors which stimulate bone resorption, such as parathyroid hormone, prostaglandins and the vitamin D metabolites, were excluded by criteria which included dose-response curves, radioimmunoassays, extraction in organic solvents and failure of glucocorticoids to inhibit bone-resorbing activity. The patient's hypercalcemia responded rapidly to prednisone therapy. The effects of the bone-resorbing factor secreted by the neoplastic cells on bone cultures to which cortisol was added were examined. Cortisol inhibited bone resorption directly at low doses (10(-8) M), which suggests that prednisone may have lowered the serum calcium in this patient by direct inhibition of bone resorption.
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PMID:Pathogenesis of hypercalcemia in lymphosarcoma cell leukemia. Role of an osteoclast activating factor-like substance and a mechanism of action for glucocorticoid therapy. 70 20

Ninety-seven patients with light chain disease (LCD) were studied. The median survival from diagnosis was 30 mo for 52 patients with kappa-LCD and 10 mo for 45 patients with lambda-LCD (p less than 0.0007). A lower proportion of kappa-LCD patients (15.7%) than lambda-LCD patients (42.2%) died within the first 6 mo after diagnosis. The survival of the remaining patients with kappa-LCD was still much longer than of those with lambda-LCD (p = 0.022). The shorter survival of lambda-LCD patients could not be ascribed to an increased incidence of recognized manifestations indicating a poor prognosis (e.g., anemia, hypercalcemia, azotemia, low albumin, the extent of osteolytic lesions, or proteinuria), the incidence of amyloidosis, the clinical stage of the disease at diagnosis, or the response to treatment, and remains unexplained. A comparison of the clinical manifestations of LCD with those of other myelomas revealed some differences. LCD patients were slightly younger than IgA and IgG patients but older than IgD patients. A 1:1 ratio of males to females was similar to the ratios in IgA and IgG myeloma, but differed from the 3:1 ratio reported for IgD myeloma. Plasma-cell leukemia developed in 7/97 LCD patients, an incidence that was higher than has been reported in other myelomas. The initial BUN was more than or equal to 30 mg/100 ml in 54 of 95 LCD patients, an incidence that was higher than has been reported for IgA and IgG myeloma, but lower than the incidence in IgD myeloma. The incidence of amyloidosis in LCD (23 of 97 patients) was similar to that reported for IgA and IgG myeloma, but less than the incidence in IgD myeloma.
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PMID:Kappa and lambda light chain disease: survival rates and clinical manifestations. 82 Mar 87

We studied a patient with acute myeloblastic leukemia, hypercalcemia, hypophosphatemia and inappropriately elevated serum parathyroid hormone levels to define the mechanism of the hypercalcemia. On six occasions during two years, hypercalcemia occurred in conjunction with relapses of leukmia. Each time, serum calcium decreased to normal levels in parallel with reduction of the leukemic mass. During two periods of hypercalcemia, immunoreactive parathyroid hormone values were abnormally high. In addition, hormone was detected in vitro after short-term incubation of the leukemic cells (after 24 hours, the patient's cells produced 129 pg of PTH per milliliter, whereas myeloblasts from a normocalcemic patient with leukemia produced only 33 pg). In freeze-thawing experiments, 39 pg of parathyroid hormone was released form 1 x 108 of the patient's myeloblasts; no hormone was released from the normocalcemia cells. These findings suggest that the hypercalcemia resulted from ectopic parathyroid hormone production by leukemic cells.
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PMID:Acute myelobalstic leukemia and hypercalcemia. A case of probable ectopic parathyroid hormone production. 106 24

Hypercalcaemia developed in a patient with chronic lymphatic leukaemia. The hypercalcaemia did not respond to conventional treatment. At bone biopsy osteoclastic resorption was found (a photomicrograph is presented). 7 cases from the literature of hypercalcaemia and chronic lymphatic leukaemia are briefly reviewed. Possible mechanisms are discussed and it is suggested that osteoclast-stimulating factors may be of importance in the development of the hypercalcaemia.
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PMID:Hypercalcaemia in chronic lymphatic leukaemia. 118 16

Urinary excretion of parathyroid hormone-related protein (PTH-rP) was measured by radioimmunoassay in 25 patients with adult T-cell leukemia (ATL), in 68 patients with other hematologic disorders and in 13 asymptomatic individuals seropositive for human T-cell leukemia virus type I (HTLV-I). The mean levels of urinary PTH-rP in ATL patients with hypercalcemia (11.01 micrograms/g.Cr) were higher than in ATL patients with normocalcemia (5.16 micrograms/g.Cr). The mean levels in patients with acute type (8.84 micrograms/g.Cr), lymphoma type (4.18 micrograms/g.Cr) and crisis ATL (18.20 micrograms/g.Cr) were significantly higher than in urine of healthy controls. However, all asymptomatic carriers of HTLV-I and patients with chronic and smoldering ATL had normal urinary PTH-rP levels. In 7 patients with acute myelogenous leukemia, 1 patient with blastic crisis of chronic myelogenous leukemia and 3 patients with malignant lymphoma, the urinary levels of PTH-rP were above the normal range. Urinary levels of PTH-rP of the ATL patients with hypercalcemia correlated with the serum calcium levels. Urinary levels of PTH-rP of the all ATL correlated with serum lactic dehydrogenase level. These findings suggest that the measurement of urinary levels of PTH-rP is useful for evaluation of ATL and that some tumor cells of other hematologic diseases may produce PTH-rP.
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PMID:[Urinary excretion of parathyroid hormone-related protein in patients with adult T-cell leukemia and other hematologic disorders]. 143 36

The expression of the leukemia inhibitory factor/D factor (LIF) gene in human T-cell leukemia virus type 1 infected T-cell lines was examined. Human T-cell leukemia virus type 1 infected T-cell lines MT-1, MT-2, H89-59, H89-79, and H109 expressed LIF mRNA, but the T-cell lines MOLT-4 and TALL-1 did not. LIF mRNA expression was enhanced by interleukin 2 or 12-O-tetradecanoylphorbol-13-acetate in MT-2 cells. The biological activity of LIF was detected in culture medium enhanced by interleukin 2 in MT-2 cells. The expression of LIF mRNA was suppressed by 1 alpha,25-dihydroxyvitamin D3 and dexamethasone. These results imply that the expression of the LIF gene is involved in the development of hypercalcemia and abnormalities of the immune system observed in patients with adult T-cell leukemia.
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PMID:Expression and regulation of the leukemia inhibitory factor/D factor gene in human T-cell leukemia virus type 1 infected T-cell lines. 145 88


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