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)

A particularly high hypercalcemia (141 mg/ml) was observed in a man with Graves' disease. An intense muscle asthenia, with lack of dynamism and vomiting which may cause dehydration, are the most suggestive signs of hypercalcemia. Bone biopsy and above all parathormone estimations permit one to eliminate associated hyperparathyroidism. The efficacy of mithramycin used alone, without any other hypocalcemic drug, was remarkable. The direct responsibility of thyrotoxicosis as a cause of the calcium disorder seems undoubted but the precise mechanism of the hypercalcemia remains unexplained.
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PMID:[Severe hypercalcemia during hyperthyroidism]. 19 81

Adrenocortical insufficiency causes difficulty in diagnosis and morbidity out of proportion to its rarity, because of the non-specific, multi-system nature of the clinical features. Most of these are due to cortisol deficiency. Prominent features are well-known ones such as weight loss and asthenia, and hypoglycaemia. Less prominent in recent accounts are those due to failure of cellular sodium export and to vasopressin excess, which are frequent and clinically significant. For this reason, the clinical features of isolated ACTH deficiency, isolated glucocorticoid deficiency and Addison's disease overlap greatly. In addition, cortisol deficiency has secondary endocrine effects, e.g. glucocorticoid-reversible hypothyroidism, hyperprolactinaemia and hypercalcaemia. Further overlap between the various steroid insufficiency syndromes occurs because of the association of various organ-specific autoimmune endocrinopathies with Addison's disease. Over 80% of Addison's disease is of the autoimmune type, though almost any systemic destructive process can cause similar steroid insufficiency. Demonstration of adrenal insufficiency requires various combinations of tetracosactrin adrenal stimulation tests, and hypoglycaemia or equivalent tests, if the cause is ACTH deficiency but the correct test can only be chosen to suit a firm clinical diagnosis. The treatment of adrenocortical insufficiency is described.
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PMID:Adrenocortical insufficiency. 300 80

A 64 year old woman had been on lithium carbonate for 12 years for manico-depressive psychosis. Mild asthenia leads to the diagnosis of primary hyperparathyroidism based on the findings of hypercalcemia up to 2.85 mmol/l inappropriate levels of parathormone and a non-suppressive rise of nephrogenic cyclic AMP. These symptoms were not relieved by removal of a chief cell adenoma of the left inferior parathyroid; surgical reexploration leads to the removal of an adenoma in a high, ectopic situation. Further venous samplings were collected during cervico mediastinal phlebography because of persistent hypercalcemia: parathormone levels were high in a thymic vein and a new cervicotomy revealed a fifth gland with an adenoma in the high mediastinum. After removal of the third adenoma, the patient became hypocalcemic. Lithium was not discontinued according to the patient's wishes. Eighteen months later she was well and normocalcemic on alfacalcidol therapy. Multiple adenomas of the parathyroids are rare (1.7 p. 100 to 5 p. 100) and the recurrence of an adenoma on a supernumerary gland is exceptional. Eighteen clinical cases of primary hyperparathyroidism under lithium therapy have been reported, but mild asymptomatic hypercalcemia with inappropriate increased parathormone levels seems to be more common. Duration of treatment is very variable: 1 day to 12 years, and serum calcium levels or up to 3.9 mmol have been observed. Ten patients underwent cervicotomy with removal of an adenoma 6 of them remaining under treatment, with 2 recurrences in our case. Five of the 8 non-operated patients remained on lithium therapy and showed mild hypercalcemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Multiple hypersecreting lesions of the parathyroid glands during treatment with lithium]. 371 17

In outlining the pathology of various electrolyte metabolism abnormalities in cancer patients we considered the main clinical points between pathologies and emergency treatment. In regard to sodium (Na+) metabolism, one pathologic state that requires our attention is hypernatremia. Hypernatremia is accompanied with dehydration and is due to water loss, vomiting, diarrhea and renal insufficiency. One of the major causes of this condition is lack of the antidiuretic hormone due to intracranial metastasis of the tumor. When hypernatremia becomes severe, it is accompanied with circulatory failure, muscular asthenia, disorientation, convulsions, coma and other cerebral symptoms. Treatment consists of replenishing the water content by infusion of electrolyte solutions which should be carefully conducted after complete diagnose of the severity of the patient's pathological condition. Hyponatremia, like sick cell syndrome, is observed relatively frequently in cancer patients. When the serum Na level falls markedly, it induces cerebral edema and causes disorders of consciousness. The major treatment consists of providing both water and sodium supplements. Hyperkalemia is observed at the time of renal insufficiency, tissue lesions, vomiting, and diarrhea. When serum potassium level rises, it causes bradycardia, ventricular fibrillation, or cardiac arrest. It is important to diagnostically apprehend the severity of this condition using EKG and determining the serum K1+ level. For emergency treatment injection of calcium gluconate is very effective. Hypokalemia is often manifested by the loss of intestinal fluids due to diarrhea or during administration of diuretic agents. Clinical symptoms include neural paralysis but emergencies occur relatively infrequently. K C1 injections are used in treating this condition. Hypercalcemia is manifested in cancer patients during hyperparathyroidism. Its clinical symptoms include lassitude, tachycardia, nausea, vomiting, and renal dys-function, leading to neural symptoms in severe cases. The main treatment consists of injection of physiological saline solution and administration of calcitonin, mithramycin. Hypocalemia is manifested during renal insufficiency, lack of vitamin D, and hypothyroidism. In classic cases it causes tetanic spasms. Injection of calcium is an effective treatment but since during tetanic spasms alcalosis may easily occur, treatment should only be provided after obtaining a complete understanding of the patient's condition. The pathological conditions described above can not be said to specific to cancer but it should be kept in mind that one of their main causative factors is the involvement of mechanism which produces ectopic hormones from cancerous tissues.
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PMID:[Electrolyte metabolism and emergency]. 688 72

The authors present a case of disseminated tuberculosis in a patient under dialysis with endstage renal disease. Fever, nocturnal sweating, anorexia, asthenia, ascites, lymph node involvement and granulomatous involvement of the bone marrow were observed. In the twenty nine months of renal failure which preceded the beginning of the tuberculosis, serum calcium levels were normal or low-normal and there was a secondary hyperparathyroidism. During that period the patient was treated with calcium carbonate and calcitriol. At the onset of tuberculosis, serum calcium levels rose above normal. Treatment with calcium and calcitriol was withdrawn but hypercalcemia remained unchanged. Serum concentration of parathormone fell significantly. Antituberculosis drugs were started. The resolution of active tuberculosis was accompanied by normalization of serum calcium levels and by elevation above normal of serum concentration of parathormone.
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PMID:[Tuberculosis and hypercalcemia]. 900 10

Cachexia consists of a constellation of metabolic changes that occur in cancer patients, including the reduction of muscle and fat tissue, asthenia, anorexia, hypoglycemia and hypercalcemia. These syndromes complicate therapeutic intervention and decrease the quality of life of the patient. This review discusses the involvement of cytokines in cancer cachexia and describes the contribution of IL-6 and other cytokines to the wasting of C-26-bearing mice. The neutralization of IL-6 by antibody, or IL-6 receptor antagonism by suramin, significantly reduce the severity of key parameters of cachexia. The participation of several other factors (PGE2, IL-1, IL-10 and TNF-alpha) in the cellular communication between the C-26 tumor cell and tumor-infiltrating macrophages is also described.
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PMID:Inhibition of experimental cancer cachexia by anti-cytokine and anti-cytokine-receptor therapy. 938 67

Symptoms can markedly influence the hemodialysis patients well-being and quality of life. The aim of this paper is to study the frequency of symptoms at home and how these relate to biochemical and treatment variables. Seventy-three hemodialysis patients were questioned on the absence, occasional presence or daily recurrence (score = 0, 1, 2) of 14 symptoms and a record was made of their biochemical parameters, age, time on treatment and KtIV as a function of each symptom. The following relationships were detected: thirst with high Osm and BUN; asthenia with old age and hypoalbuminemia; insomnia with hypercalcemia; hypersomnia with hypoxemia and hypernatremia; anorexia with hypokalemia; dyspnea with old age, hypernatremia and hypokalemia; dysgeusia with hypoxemia; nausea with alkalemia, hypoxemia and low BUN; vomiting with alkalemia. Pruritus, arthralgia, restless legs syndrome, cramp and tremor showed no relationships. Monitoring acid-base balance and plasma electrolytes could help to alleviate symptoms and ameliorate quality of life of hemodialysis patients.
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PMID:Symptoms in hemodialysis patients and their relationship with biochemical and demographic parameters. 998 55

Multiple myeloma is characterized by the presence of bone pain, weakness, and fatigue. Ninety-eight percent of patients have an M-protein in the serum or urine at the time of diagnosis. Skeletal roentgenograms are abnormal in nearly 80%. Renal insufficiency (creatinine > or = 2 mg/dL) is present in one-fourth. The major causes of renal insufficiency are "myeloma kidney" and hypercalcemia. The diagnosis of multiple myeloma depends upon the presence of more than 10% plasma cells or a plasmacytoma plus an M-protein in the serum or urine or lytic bone lesions. Multiple myeloma must be differentiated from monoclonal gammopathy of undetermined significance and smoldering multiple myeloma. The plasma cell labeling index and the presence of circulating plasma cells in the peripheral blood are helpful in the differential diagnosis. Plasma cell leukemia, osteosclerotic myeloma (POEMS syndrome), and plasmacytomas are discussed. The heavy-chain diseases consist of alpha, gamma, and mu heavy-chain disease. The fibrils of primary amyloidosis consist of kappa or lambda monoclonal light chains. Weakness, fatigue, and weight loss are the most frequent symptoms. Macroglossia occurs in 10%. An M-protein is found in the serum or urine in 90%. The presence of nephrotic syndrome, renal insufficiency, congestive heart failure, orthostatic hypotension, or sensorimotor peripheral neuropathy, and an M-protein in the serum or urine suggest the possibility of primary amyloidosis. The diagnosis depends upon the demonstration of amyloid in tissues. The subcutaneous fat aspirate is positive in 80% while the bone marrow is positive in 55%. If these tissues are negative, one should obtain tissue from an involved organ.
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PMID:Clinical aspects of multiple myeloma and related disorders including amyloidosis. 1019 81

Primary plasma cell leukaemia (P-PCL) is a variant of multiple myeloma (MM) first diagnosed in the leukemic phase, with >2000/mm(3) circulating plasma cells (PCs) and plasmacytosis >20% of the white cell count. We investigated the clinical characteristics, therapy, immunophenotype and prognosis factors of 18 patients. Common features at diagnosis were asthenia (seven patients), renal insufficiency (ten patients), bone pain (seven patients), splenomegaly or hepatomegaly (five patients). Hypercalcemia was present at diagnosis in seven patients and was the most potent poor prognosis factor (P<0.05). Most patients (16 out of 18) were treated with an anthracyclin containing regiment; complete remission was attained in one patient and partial remission in 11 patients while six patients had no response. The median survival time from diagnosis was 7 months (2--12, 95% confidence interval), but response to treatment had favorable predictive value (P<0.05). The PCs were usually positive for mature B-cell markers (PCA-1, CD38). They expressed integrins which may increase their binding to endothelial cells and thus participate in PCL physiopathology by favoring plasmocyte extramedullary spread.
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PMID:Primary plasma cell leukaemia: a report of 18 cases. 1116 24

Hyperparathyroidism is a disease characterized by hypercalcemia with hypophosphoremia resulting from increased secretion of parathyroid hormone (PTH). The disease may be divided into 3 forms: a) primary, b) secondary, c) tertiary (secondary refractory form). Primary hyperparathyroidism is rare in children; hyperplasia is more frequent during the early years of life (neonates and infants) and is difficult to distinguish from adenoma in children. The disease may be asymptomatic; elevated calcemia levels (>12 <13.5 mg/dl) are accompanied by anorexia, asthenia and persistent stipsis; severely elevated concentrations (>13.5 mg/dl) are accompanied by nausea, vomiting, polyuria due to osmosis, with dehydration and progressive onset of lethargy, stupor and coma. Osteopenia or osteitis fibrosa cystica may be present due to augmented bone resorption. Height and weight increases are altered due to anorexia and dehydration. Differential diagnosis includes iatrogenic causes of hypercalcemia (excessive vitamin D intake, prolonged immobilization, etc.) and idiopathic familial hypercalcemia. Emergency treatment is required in cases of extremely elevated hypercalcemia (Ca >13.5-14 mg/dl), due to risk of injury to the heart, the central nervous system, the gastrointestinal tract and the kidneys. The 4 cardinal points of treatment are: hydration, calciuresis, inhibition of bone calcium resorption, treatment of the cause underlying hyperparathyroidism. Secondary hyperparathyroidism is found in cases where chronic hypocalcemia is present, particularly in chronic renal failure, untreated deficiency rickets, chronic intestinal malabsorption, hepatobiliary disease, types I and II vitamin D-dependent rickets, tubular acidosis or Fanconi's syndrome. The tertiary form is distinguished by the autonomous nature of the parathyroid glands which have become hypertrophic/hyperplastic due to uncontrollable, chronic severe renal failure. It can also be of iatrogenic origin due to excessive intake of inorganic phosphates in familial hypophosphatemic rickets or chronic vitamin D deficiency.
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PMID:Hyperparathyroidism. 1524 24


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