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Query: UMLS:C0020438 (hypercalciuria)
2,502 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypercalciuria has been reported in rats with mild hyperprolactinemia due to implantation of anterior pituitary glands under the kidney capsule and in rats bearing transplantable tumors that secrete large amounts of prolactin (PRL) and growth hormone (GH). We studied Buffalo rats implanted subcutaneously with the new MMQ pituitary tumor line that secretes only PRL. Urinary calcium excretion increased as the tumors grew. Three weeks after tumor implantation in female rats, the urinary calcium excretion was 1.102 +/- 0.092 mg/100 g body weight (BW).24 hours compared with controls, 0.296 +/- 0.079, P less than .0005. Male tumor-bearing rats also had increased urinary calcium excretion compared with male controls. In tumor-bearing rats the urinary calcium excretion factored for urinary sodium excretion, dietary calcium intake, or urinary creatinine excretion was elevated. Urinary calcium excretion was correlated with serum PRL levels and with estimated tumor volume. Serum calcium, immunoassayable parathyroid hormone, and urinary cyclic adenosine monophosphate (cAMP) excretion were normal in the tumor-bearing rats. There was some evidence of loss of bone calcium in rats bearing the MMQ tumor, and serum levels of calcitonin were decreased. These results are similar to those found in anterior pituitary-grafted hypercalciuric rats. It is unlikely that parathyroid hormone (PTH) abnormalities are responsible for the hypercalciuria in the MMQ-bearing rats. The pituitary gland may have an effect on the distal renal tubule to decrease calcium reabsorption.
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PMID:Hypercalciuria in a new rat model of hyperprolactinemia. 184 86

Sarcoidosis is a multisystem disorder of unknown etiology that frequently involves the lymph nodes, lungs, eyes, and skin. The disease can involve any organ system, and noncaseating granulomas are characteristically present. Synthesis of 1,25-dihydroxyvitamin D, the most biologically active form of vitamin D, occurs in granulomatous tissue and may give rise to increases in its concentration in the peripheral circulation and to hypercalcemia and hypercalciuria. Infiltration of endocrine organs also occurs. Involvement of the hypothalamus and pituitary can cause primary polydipsia and disordered regulation of thirst; diabetes insipidus, impaired secretion of anterior pituitary hormones (with clinically apparent hypothyroidism, hypogonadism, hypoadrenalism, or impaired growth), and increases in serum prolactin may also result. Galactorrhea, however, seldom occurs. Involvement of the thyroid and adrenal glands rarely leads to hypofunction. Involvement of the pancreas rarely occurs but does not produce diabetes mellitus. Involvement of the male reproductive system results in epididymitis and hypogonadism, and involvement of the uterus causes abnormalities in menstrual function.
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PMID:Endocrine complications of sarcoidosis. 193 22

Rats rendered chronically hyperprolactinemic by implantation of extra anterior pituitary glands (AP) under the kidney capsule have excess urinary calcium excretion. Although serum testosterone levels are normal in male AP-grafted rats, more subtle androgen deficiency might contribute to the increased calcium loss. Female AP-grafted rats lose the normal estrous cycle, which might also alter calcium homeostasis. The urinary calcium and calcium/sodium excretion ratio in gonadectomized AP-grafted rats of both sexes were compared with that of otherwise intact AP-grafted rats and muscle-grafted control rats. AP-grafted rats had increased urinary calcium excretion and calcium/sodium excretion ratio, regardless of gonadal status. Treatment of castrated male AP-grafted animals with testosterone or dihydrotestosterone did not have a significant effect on urinary calcium loss, nor did estrogen replacement of ovariectomized female AP-grafted rats. These studies indicate that the hypercalciuria of the AP-grafted rat is not mediated via an anti-gonadal effect of the prolactin-secreting pituitary graft.
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PMID:Hypogonadism does not mediate urinary calcium loss in pituitary-grafted rats. 276 18

A 41-year-old man with acromegaly was suffering from chronic, progressive backache and aware of reduction in his body height. Endocrine studies revealed increased glucose non-suppressible serum growth hormone (GH) and serum prolactin (PRL). Pituitary microadenoma was detected by a computerized axial tomogram and subsequently resected by trans-sphenoidal adenomectomy. The tumor proved to be a mixed GH- and PRL-secreting adenoma by electron microscopy and immunoperoxidase staining. Concurrent investigation of backache and reduced height disclosed markedly reduced radiodensity of the spinal bones, bilateral nephrocalcinosis, and hypercalciuria, which were ascribed to renal tubular acidosis (RTA) demonstrated by reduced urinary excretion of acids and insufficient reduction of urinary pH following oral administration of ammonium chloride. From the analogy to certain endocrinopathies, it appears likely that enhanced calcium metabolism and resultant hypercalciuria due to excess GH and PRL have led to the development of RTA, which further enhanced calciuria. Such enhanced calcium metabolism and consequent hypercalicuria conceivably led to accelerated demineralization of the spine and resulted in the reduced height of this patient in his early forties.
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PMID:A case of active acromegaly with reduced height and type 1 renal tubular acidosis. 289 4

The anterior pituitary (AP) grafted, adrenalectomized, steroid hormone-replaced male rat is characterized by hyperprolactinemia and hypercalciuria. To determine the origin of the hypercalciuria, clearance experiments were performed under Inactin anesthesia in adrenalectomized Fischer rats 8-10 wk after implantation of extra AP glands under the kidney capsule. Glomerular filtration rate, ultrafilterable calcium, and fractional sodium excretion were comparable in the AP and control groups. However, fractional calcium excretion was significantly higher in the AP-implanted rats, P less than 0.05, resulting in a marked dissociation of the calcium/sodium clearance ratio. Because filtered calcium load did not change, these results clearly demonstrate that AP-implanted animals have a defect in tubular calcium reabsorption. The dissociation of calcium transport from sodium transport suggests the distal tubule as a likely site of action. Parathyroidectomy did not alter the calciuric response to AP implantation. To test whether hyperprolactinemia was responsible for decreased calcium reabsorption in AP-implanted rats, purified rat prolactin was infused into normal rats to achieve high blood prolactin levels, or was injected into normal rats daily for 8 days. Changes in fractional calcium excretion and the ratio of calcium to sodium clearance were identical in animals receiving prolactin or control infusions. Thus, hypercalciuria in the AP-implanted rat may be attributed to an unidentified factor, perhaps secreted from the implanted anterior pituitaries, rather than to prolactin excess.
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PMID:Examination of hypercalciuria in anterior pituitary-implanted rats. 357 34

There is evidence that prolactin (PRL) excess plays a role in the etiology of osteoporosis associated with human prolactinoma. Calcium balance in human hyperprolactinemia has not been thoroughly investigated. In the present study, rats with excess circulating PRL levels (male anterior pituitary-grafted Fischer 344 rats) had urinary calcium excretion twice that of control rats (4.16 +/- 0.43 v 2.25 +/- 0.30 mg/24h X 100 g BW). Calcium excretion expressed per mg of calcium intake was also high in pituitary-grafted rats. The excess calcium excretion in hyperprolactinemic rats was not accompanied by a concomitant rise in sodium excretion. This dissociation suggests that PRL has an effect on the renal handling of calcium. Since thiazide diuretics have a well-described hypocalciuric action, their effect was tested in these rats. In normal rats, benzthiazide, a long-acting agent, significantly reduced urinary calcium excretion in a dose-dependent fashion. Hyperprolactinemic rats responded to benzthiazide in a manner similar to control rats. In pituitary-grafted rats, benzthiazide also decreased the calcium excretion to intake ratio and normalized the calcium to sodium excretion ratio. Since the hypercalciuria of experimental hyperprolactinemia can be corrected by thiazide diuretics, these agents may have therapeutic potential in human PRL excess.
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PMID:Hypercalciuria in hyperprolactinemic rats: effects of benzthiazide. 372 59

We have shown that Walker 256/S mammary carcinoma caused osteoporosis-like changes in young female rats, accompanied by low serum estradiol and hypercalciuria without changes in the serum levels of calcium, phosphorus, and parathyroid hormone-related peptide. In this study, we investigated the cause of bone loss after Walker 256/S inoculation into female 6-week-old Wistar Imamichi rats, focusing on the sex hormone balance in the host animal. Walker 256/S-bearing rats showed characteristic osteoporosis, with a significant increase in spleen weight and a significant decrease in uterine weight by 14 days after s.c. tumor inoculation. In the in vitro bone marrow culture, mineralized nodule formation ability decreased according to the time after tumor inoculation, and tartrate-resistant acid phosphatase-positive multinucleated cell formation increased at 7 days after tumor inoculation, but it began to decrease at 14 days after tumor inoculation. This indicates that after inoculation with Walker 256/S tumor, the progenitors of osteoblasts and ostroclasts lost their balance in the bone turnover, resulting in bone resorption. On the other hand, Walker 256/S carcinoma expressed luteinizing hormone-releasing hormone (LH-RH) mRNA, and in Walker 256/S-bearing rats, the serum LH-RH level increased significantly from 3 days after tumor inoculation, whereas in the healthy control rats, this level was very low. Consequently, the serum levels of follicle-stimulating hormone, luteinizing hormone, estradiol, and progesterone were significantly lower in the tumor-bearing rats than in the healthy control rats. Because the LH-RH gene is located in the long prolactin release-inhibiting factor (PIF) gene and mRNA amplified by reverse transcription-PCR in this study contained whole LH-RH and a part of PIF, the Walker 256/S tumor is thought to express PIF. Indeed, the serum prolactin level decreased in tumor-bearing rats. The serum level of growth hormone, one of the other pituitary hormones, was not changed. Moreover, the level of an osteolytic cytokine, tumor necrosis factor alpha, increased in the serum of Walker 256/S-bearing rats, although this may be a result of the immune response of the host animal to tumor growth as well as an enlarged spleen. In conclusion, the Walker 256/S tumor lowers estrogen secretion through ectopical oversecretion of LH-RH, and then osteolytic cytokines, such as tumor necrosis factor alpha, increase in tumor-bearing rats, escape the control of estrogen, and activate osteoclasts, resulting in bone loss in a short period.
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PMID:Walker 256/S carcinosarcoma causes osteoporosis-like changes through ectopical secretion of luteinizing hormone-releasing hormone. 1009 51

Hypercalciuria with or without hypercalcemia is a well-known complication of sarcoidosis, the pathogenesis of which is not fully understood. Pregnancy is associated with physiologic alterations in calcium metabolism. These changes can further alter the derangement of calcium metabolism that occurs in sarcoidosis, if the two conditions coexist. We had the opportunity to study prospectively the changes in serum and urine calcium along with all the hormonal changes that occur during pregnancy in a young woman with sarcoidosis, who had hypercalciuria at presentation. We believe that an increased level of calcitriol is central to the calcium abnormalities in our patient. In her case, the increased calcitriol is derived from sarcoid granulomas and renal sources enhanced by the effect of estradiol and prolactin on the conversion of 25(OH)D to 1,25(OH)(2) D. She acquired hypoparathyroidism, with normal serum calcium, which probably was due to the direct suppression of parathyroid hormone (PTH) secretion by calcitriol. Finally, hypercalciuria is the result of the combined effect of hyperabsorption of calcium from the gut (the result of increased calcitriol levels leading to increased filtration of calcium) and decreased tubular reabsorption of calcium, as a result of undetectable PTH.
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PMID:Pregnancy and sarcoidosis: an insight into the pathogenesis of hypercalciuria. 1536 85

During pregnancy and lactation women have to form and maintain fetus and newborn skeleton. These processes require maternal hormonal and metabolic adjustments. During the first weeks of pregnancy, calcium intestinal absorption rise and reach a maximum in the last trimester. Hypercalciuria can be detected until lactation is stopped. During lactation, calcium that is present in maternal milk, results from lowering maternal calcium excretion and increasing bone resorption. Plasma 1,25 (OH)(2) D(3) levels increase two-fold early in pregnancy due to high placental 1-alpha-hydroxilase activity, remain high until delivery and decline to normal values during lactation. Estrogen, prolactin and placental lactogen, which are involved in calcium absorption, increase at the same time. Normal or even low levels of parathyroid hormone (PTH) can be detected during pregnancy. This suggests that their physiological actions could be mimicked by the parathyroid- related-peptide (PTHrP), which increases in late stages of pregnancy and remain high during delivery and lactation. Calcitonin levels increase during pregnancy, decline during lactation and return to normal values after lactation is stopped. The physiological roll of tumor necrosis factor, interleukin 6 and osteoprotegerin has not been elucidated yet. The above mentioned changes can exceptionally lead to generalized or regional osteoporosis. The aim of this article is to review the published bibliography concerning the physiopathology of these diseases.
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PMID:[Osteoporosis during pregnancy and lactation]. 1643 84

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