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

The metabolism of vitamin D is essential in the control of bone and mineral metabolism. Hyperthyroidism as well as hypothyroidism effect the metabolism of bone tissue and vitamin D. We present a dihydrotachysterol-calcium treated patient with post-operative hypothyroidism, who developed hypercalcaemia, when the thyroxine dosage was increased.
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PMID:Hypercalcaemia induced by increased thyroxine substitution in a patient treated with dihydrotachysterol. 669 41

Hypercalcaemia is a recognised complication of hypothyroidism. We describe three patients who developed hypercalcaemia after thyroidectomy when thyroid supplements were discontinued. They were treated with thyroxine, dihydrotachysterol, and calcium after operation, and in all three cases serum calcium concentrations remained constant during combined treatment. Thyroxine treatment was discontinued several weeks before a radioiodine scan was performed; dihydrotachysterol and calcium were continued throughout. Serum calcium concentrations rose to hypercalcaemic levels in all cases. Elimination of dihydrotachysterol from plasma may be delayed in hypothyroidism, resulting in hypervitaminosis D. It is advisable to reduce the dose of dihydrotachysterol and to check serum calcium concentrations regularly in patients whose thyroid treatment is interrupted.
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PMID:Hypercalcaemia due to dihydrotachysterol treatment in patients with hypothyroidism after thyroidectomy. 679 16

In a woman with myxedema and normal total and ionized plasma calcium levels, persistent hypercalcemia developed when she was treated with thyroxine. A parathyroid adenoma was subsequently removed, with return of plasma calcium levels to normal. Hypothyroidism may therefore be a further cause of "masked" primary hyperparathyroidism. The mechanism of masking is likely to have been mediated by hypomagnesemia.
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PMID:Primary hyperparathyroidism masked by hypothyroidism. 684 22

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

Controlled studies in 1990-1992 with Danish, Sardinian, and Hongkong-Chinese patients consistently revealed a prevalence of goiter of about 50% in lithium treated patients. This is far beyond the frequency generally assumed for Germany, the whole country still known to be an endemic goiter area. Hypothyroidism as a side effect of lithium occurs in a clearly different group of patients and is much less frequent, the overall incidence being not substantially different from the incidence in the general population. But the risk of becoming hypothyroid as well as hyperparathyroid during lithium prophylaxis is markedly higher in women over 45 years of age, who in the general population are also prone to both endocrine dysfunctions. Lithium is considered to have a provoking role. Lithium is known to be accumulated in the bone and an impact on bone metabolism was shown in animal studies. The data reviewed prohibit the use of lithium during lactation and enforce strict indication in children. In adults the effect of lithium on bone should be considered only in osteomalacia and severe osteoporosis. This review is illustrated by the case of a 60-year-old woman, who after 4 years of successful treatment with lithiumcarbonate because of schizoaffective psychosis, developed a syndrome of hypercalcemia. Exstirpation of a parathyroid adenoma rendered her normocalcemic. Moreover, a pre-existing diffuse goiter had grown to a large nodular goiter within the course of her 5-year treatment. As she finally became paraparetic, she was admitted to our rehabilitation center for the diseases of the spinal cord. Her paraparesis may have been caused not only by the lithium-induced primary HPT, but in part by lithium itself. There are a few reports on lithium causing peripheral neuropathy at toxic levels. A transient deterioration of a pre-existing neuropathy, as in our case study, may have happened at lithium serum levels not far beyond the upper limit of 0.8 mmol/l.
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PMID:[Lithium and its effects on the endocrine system, bones and peripheral nerves--a current review]. 775 53

Lithium has proved to be a highly effective preventive measure in mood disorders and an increasing number of patients are receiving long-term lithium carbonate therapy. Among other biologically and clinically important effects of lithium, the possible induction of hyperparathyroidism was first suggested in 1973 by Garfinkel et al. About thirty other case reports have since been described, but they could simply have represented the coincidental occurrence of primary hyperparathyroidism and lithium carbonate treatment in the same patients. Eleven cross-sectional studies of calcium metabolism in patients treated with lithium carbonate have been reported. Evidence of a causal relationship of lithium to hyperparathyroidism can lead to a loss of effectiveness of lithium in controlling the affective symptoms. Interestingly, coexistence with hypothyroidism is not uncommon. Low serum phosphate, high serum chloride are also observed. Bone mineral content may decrease. In addition, several studies have shown that lithium treatment increases serum magnesium level. Unusual metabolic features are associated with hyperparathyroidism and long-term lithium treatment: low urinary calcium excretion, absence of nephrolithiasis, and normal urinary cyclic AMP excretion. Lithium inhibition of PTH sensitive adenylcyclase in the kidney would explain these features. In vitro studies suggested that lithium is a potent inhibitor of several hormone responsive adenylcyclase systems. It is possible that the tissue susceptibility to adenylcyclase inhibition in an individual may decide the nature of endocrine dysfunction seen during lithium treatment. Information about the time course with which abnormalities may develop is derived from longitudinal studies. Several months to several years are needed for lithium inducing primary hyperparathyroidism. In vitro studies provide strong evidence that lithium can induce a shift in the set-point for inhibition of PTH secretion by calcium and a direct stimulation of PTH secretion. The extent to which we can extrapolate these data to the clinical situation is discussed. In vivo data from Shen an Seely are compatible with these two mechanisms. These alterations should cause parathyroid hyperplasia. The possibility that a generalized parathyroid stimulus might lead to formation of a single adenima is not proved. Several recommendations regarding parathyroid function in patients receiving lithium have been suggested. Measurement of total calcium and serum proteins or of serum calcium ion values when available should be performed before therapy is begun. If elevated values are obtained, lithium treatment should be deferred and evaluation for hyperparathyroidism performed. Serum calcium should be monitored periodically during lithium treatment. Sustained hypercalcemia or true hyperparathyroidism require parathyroidectomy. If hypercalcemia is mild without complication and psychiatric symptoms well controlled, perhaps surgery should not be employed.
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PMID:[Hyperparathyroidism with lithium]. 808 38

First, it is important to find out whether the patient is complaining of infrequent defaecation, excessive straining at defaecation, abdominal pain or bloating, a general sense of malaise attributed to constipation, soiling, or a combination of more than one symptom. Second, one must decide if there is a definable abnormality as a cause of the symptom(s). Is the colon apparently normal or is its lumen widened (megacolon)? Is the upper gut normal or is there evidence of neuropathy or myopathy? Is the ano-rectum normal or is there evidence of a weak pelvic floor, mucosal prolapse, major rectocele, an internal intussusception or solitary rectal ulcer? Is there any systemic component such as hypothyroidism, hypercalcaemia, neurological or psychiatric disorder or relevant drug therapy? Choice of treatment will depend on this clinical evaluation. The range of treatments available is: Reassurance and stop current treatment: Patients with a bowel obsession may take laxatives or rectal preparations regularly without need. Increase dietary fibre: Most cases of 'simple' constipation respond to increased dietary fibre, possibly with an added supplement of natural bran. Toilet training and altered routine of life: Young people particularly may need to recognise the call to stool and alter their daily routine to permit and encourage regular defaecation. Medicinal bulking agent: Ispaghula, methyl cellulose, concentrated wheat germ or bran, and similar preparations are useful when patients with a normal colon find it difficult to take adequate dietary fibre. These preparations increase the bulk of stool and soften its consistency. They may be useful for those patients with the constipated form of irritable bowel syndrome.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Clinical management of constipation. 823 32

The changes in normal endocrine physiology which accompany pregnancy result in changes in normal ranges of hormone levels and in specific changes in the course and management of endocrine diseases. This review presents information about the various endocrine diseases and their management in pregnant adolescents. Normal pituitary function during pregnancy is described as is the effect of pregnancy on pituitary tumors such as microadenomas and prolactinomas. The effects of bromocriptine therapy in cases where tumor enlargement occurs during pregnancy are tabulated. Methods of distinguishing placental growth hormone secretion and pituitary growth hormone secretion in patients with acromegaly are presented (with the note that acromegalic patients rarely become pregnant). TSH-secreting, gonadotropin, and nonsecreting tumors are rare in this age group, and there is no evidence that they enlarge during pregnancy. The discussion of the pituitary covers chronic hypopituitarism, Sheehan's Syndrome, lymphocytic hypophysitis, and diabetes insipidus. After reviewing normal changes in thyroid physiology during pregnancy, hyperthyroidism (usually due to Graves' disease), thyroid storm, and hypothyroidism are considered. The adrenal is the next subject, with a brief description of normal changes during pregnancy followed by comments on Cushing's Syndrome, adrenal insufficiency, congenital adrenal hyperplasia, and primary hyperaldosteronism. The symptoms, diagnosis, and treatment of pheochromocytomas, which are uncommon during pregnancy but are associated with high fetal and maternal mortality, are the next topics. After a review of changes in calcium metabolism during pregnancy and hypercalcemia, this report ends with a consideration of diabetes mellitus which includes alterations in maternal carbohydrate metabolism during pregnancy, effects of diabetes on the fetus, and management of insulin-dependent diabetes mellitus during pregnancy (the most likely type to be present in adolescents).
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PMID:Endocrine problems of adolescent pregnancy. 824 53

Hyper- or hypofunctioning endocrine organs present a number of perianaesthetic challenges. This review covers some of the issues of perianaesthetic management of patients with primary or coexisting pathology of the following endocrine organs: The pancreas with diabetes mellitus as the most common endocrine cause of primary and secondary organ dysfunctions affecting anaesthetic care. Adrenal cortical pathology with excess or deficiency of adrenocortical hormones. Pheochromocytoma of the adrenal medulla with infrequent but challenging perianaesthetic problems. Thyroid gland diseases with hyper- or hypothyroidism. Parathyroid gland pathology with hypercalcaemia or hypocalcaemia. Disorders of the anterior and posterior pituitary gland. The carcinoid syndrome and more uncommon endocrinopathies such as adenomas from the gastroenteropancreatic endocrine tissues and the ovarian hyperstimulation syndrome are also reviewed briefly.
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PMID:Perianaesthetic management of patients with endocrine disease. 890 15

Most patients with hypertension in the United States have essential (primary) hypertension (95%), the cause of which is unknown. The remaining 5% of adults with hypertension have the secondary form of hypertension, the cause and pathophysiologic process of which are known. Internists and other primary care physicians refer to this as treatable or curable hypertension, because the hypertension can be managed or even controlled with medications. Similarly, the condition is called surgical hypertension by surgeons in the belief that once the cause is determined and identified, surgical intervention will result in cure of hypertension. Secondary causes of hypertension include renal parenchymal disease, renovascular diseases, coarctation of the aorta, Cushing's syndrome, primary hyperaldosteronism, pheochromocytoma, hyperthyroidism, and hyperparathyroidism. Occasionally included in this category are alcohol- and oral contraceptive-induced hypertension and hypothyroidism, but these conditions are not discussed herein. The evaluation of secondary hypertension is of interest and can bring together different facets of anatomy, physiology, pharmacology, and radiology in the medical and surgical treatment of these disorders. Despite enthusiasm that can be generated in the evaluation of these conditions, evaluation can be expensive and should not be conducted for all patients with hypertension. Features that aid in the diagnosis of secondary hypertension include the following: 1. Onset of hypertension before the age of 20 or after the age of 50 years. The presence of hypertension at a young age may suggest coarctation of the aorta, fibromuscular dysplasia, or an endocrine disorder. Hypertension found for the first time after the age of 50 years may suggest the presence of renovascular hypertension caused by atherosclerosis. 2. Markedly elevated blood pressure or hypertension with severe end-organ damage, as in grade III or IV retinopathy. These findings suggest the presence of renovascular hypertension or pheochromocytoma. 3. Specific body habitus and ancillary physical findings. For example, truncal obesity and purple striae occur with hypercortisolism, and exophthalmos is associated with hyperthyroidism. 4. Resistant or refractory hypertension (poor response to medical therapy usually necessitating use of more than three antihypertensive medications from three different classes). 5. Specific biochemical test that suggest the existence of certain disorders, such as hypercalcemia in hyperparathyroidism, hyperglycemia in Cushing's syndrome and pheochromocytoma, and unprovoked hypokalemia with renin-producing tumors, primary hyperaldosteronism, or renin-mediated renovascular hypertension. 6. Other characteristics that may suggest secondary hypertension such as abdominal diastolic bruits (renovascular hypertension), decreased femoral pulses (coarctation of the aorta), or bitemporal hemianopias (Cushing's disease). A combination of a good history and physical examination, astute observation, and accurate interpretation of available data usually are helpful in the diagnosis of a specific causation.
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PMID:Secondary hypertension: evaluation and treatment. 894 19


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