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)

Parathyroid hormone (PTH) exerts its regulatory effects on calcium homeostasis in part by stimulating the release of calcium from the skeleton. PTH stimulates bone resorption indirectly, by inducing the production by stromal/osteoblastic cells of paracrine agents which recruit and activate the bone-resorbing cell, the osteoclast. The identity of the stromal cell/osteoblast-derived paracrine factor(s) responsible for mediating the effects of PTH on osteoclasts is uncertain. Recently, it has been demonstrated that the cytokine interleukin-6 (IL-6), which potently induces osteoclastogenesis, is produced by osteoblastic cells in response to PTH. Further, we have reported that circulating levels of IL-6 are elevated in patients with primary hyperparathyroidism, and correlate with biochemical markers of bone resorption. Thus, IL-6 may play a permissive role in PTH-induced bone resorption. In the current studies, we demonstrate that low-dose PTH infusion in rodents increased serum levels of IL-6, coincident with a rise in biochemical markers of bone resorption. In mice, both acute neutralization and chronic deficiency of IL-6 were associated with markedly lower levels of biochemical markers of bone resorption in response to PTH infusion than were observed in animals with normal IL-6 production. Acute neutralization of IL-6 did not affect PTH-induced changes in markers of bone formation. These findings demonstrate that PTH regulates systemic levels of IL-6 in experimental animals, that IL-6 is an important mediator of the bone-resorbing actions of PTH in vivo and suggest that IL-6 plays a role in coupling PTH-induced bone resorption and formation.
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PMID:A role for interleukin-6 in parathyroid hormone-induced bone resorption in vivo. 1049 26

The relationship between abnormal cell proliferation and aberrant control of hormonal secretion is a fundamental and poorly understood issue in endocrine cell neoplasia. Transgenic mice with parathyroid-targeted overexpression of the cyclin D1 oncogene, modeling a gene rearrangement found in human tumors, were created to determine whether a primary defect in this cell-cycle regulator can cause an abnormal relationship between serum calcium and parathyroid hormone response, as is typical of human primary hyperparathyroidism. We also sought to develop an animal model of hyperparathyroidism and to examine directly cyclin D1's role in parathyroid tumorigenesis. Parathyroid hormone gene regulatory region--cyclin D1 (PTH--cyclin D1) mice not only developed abnormal parathyroid cell proliferation, but also developed chronic biochemical hyperparathyroidism with characteristic abnormalities in bone and, notably, a shift in the relationship between serum calcium and PTH. Thus, this animal model of human primary hyperparathyroidism provides direct experimental evidence that overexpression of the cyclin D1 oncogene can drive excessive parathyroid cell proliferation and that this proliferative defect need not occur solely as a downstream consequence of a defect in parathyroid hormone secretory control by serum calcium, as had been hypothesized. Instead, primary deregulation of cell-growth pathways can cause both the hypercellularity and abnormal control of hormonal secretion that are almost inevitably linked together in this common disorder.
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PMID:Primary hyperparathyroidism caused by parathyroid-targeted overexpression of cyclin D1 in transgenic mice. 1134 70

Background: Parathyroid hormone (PTH) and parathyroid hormone-related protein (PTH-rP) are two potent hypercalcemic hormones that act on the same targets. Autonomous secretion of the former is involved in primary hyperparathyroidism (PHPT), whereas the latter is responsible for humoral hypercalcemia of malignancy (HHM). Methods: From 250 consecutive, hypercalcemic serum samples sent to our laboratory for assessment of intact PTH, we were able to obtain clinical information, as well as an additional plasma sample for PTH-rP measurement, in 134 patients. At the time of sampling, patients could be classified into seven groups: cancer without known bone metastases (CaNoMeta, n=36), cancer with bone metastases (CaMeta, n=9), no evidence of cancer (noEvCa, n=71), sarcoidosis (Sarc, n=3), end-stage renal disease (ESRD, n=12), vitamin D overdose (VIT-D, n=2), and hyperthyroidism (Thyr, n=1). Results: In the CaNoMeta group, 29/36 patients had elevated PTH-rP levels, 9/36 patients had inappropriately elevated PTH levels, and 5/36 had elevated levels of both hormones. In the CaMeta group, three of the nine patients had inappropriately elevated PTH levels, two of them with concomitantly elevated PTH-rP levels. In the NoEvCa group, 63/71 patients had an inappropriate elevation of PTH levels and were diagnosed as having PHPT. Four of the 71 patients had elevated levels of both PTH and PTH-rP; three of them were in poor health and died within a short period of time. All of the ESRD patients had very high PTH and normal PTH-rP levels, except for one woman with high PTH-rP and undetectable PTH levels; she died from what later turned out to be a recurrent bladder carcinoma. In the Sarc, Vit-D, and Thyr groups, both PTH and PTH-rP levels were normal. Conclusions: (1) Elevated PTH-rP levels are a common finding in cancer patients without bone metastases. Intact PTH, however, should always be measured in hypercalcemic patients with malignancy because concurrent primary hyperparathyroidism is not rare. (2) Primary hyperparathyroidism accounts for hypercalcemia in 90% of patients without evidence of cancer whose PTH-rP levels may also be found to be elevated in a few cases, even some with surgically demonstrated parathyroid adenoma.
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PMID:Diagnostic approach to hypercalcemia: relevance of parathyroid hormone and parathyroid hormone-related protein measurements. 1139 97

Parathyroid hormone (PTH), especially intact human PTH [hPTH(1-84)] and its various fragments [hPTH(1-31), (1-34), (1-36), (1-38) and their modifications], has been used for the treatment of osteoporosis over the last 10 years. Although chronic continuous excess of PTH markedly increases bone resorption, as seen in the typical example of primary hyperparathyroidism and osteitis fibrosa generalisata, intermittent PTH administration has been found to stimulate bone formation in animals, providing a basis for the use of PTH as a therapeutic agent for osteoporosis. In addition to dramatically increasing trabecular bone density and also sustaining cortical bone density, PTH administration increases bone strength and reduces the fracture rate, despite occasional increases in cortical porosity. Administration of PTH in combination with antiresorptive agents such as estrogen, calcitonin, vitamin D and bisphosphonates augments its effect. Because of its bone anabolic action, PTH is expected to be effective for osteoporosis in those of advanced age with suppressed bone remodelling, which might not respond favourably to antiresorptive agents.
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PMID:Parathyroid hormone in the treatment of osteoporosis. 1170 47

Parathyroid hormone (PTH) increases bone turnover and may thus increase fracture risk. As PTH secretion is increased in primary hyperparathyroidism, surgical cure may prevent fractures. We studied fracture risk before and after diagnosis in patients treated surgically and conservatively for primary hyperparathyroidism. All 1201 patients with newly diagnosed primary hyperparathyroidism (PHPT) between 1982 and 1996 in Denmark were identified through the Danish Hospital Discharge Register. Each patient was compared with three age- and gender-matched controls randomly drawn from the background population. Those who were treated surgically ( n = 841; mean age 58.6 +/- 14.6 years) were significantly younger than those who were not ( n = 360; 65.5 +/- 16.8 years; 2 p < 0.01); they had higher plasma ionized calcium (1.58 +/- 0.16 vs. 1.50 +/- 0.10 mmol/L; 2 p = 0.03) and tended to have lower lumbar spine bone mineral Z-scores (-0.72 +/- 1.35 vs. 0.05 +/- 1.05; 2 p = 0.06). Before diagnosis, fracture risk was elevated in both those who subsequently underwent surgery [incidence rate ratio (IRR) 1.45, 95% CI 1.05-1.99] and in those who did not (IRR 1.59, 95% CI 1.10-2.29). After diagnosis, no difference in fracture risk was present between surgically and nonsurgically treated patients. The risk of death was significantly lower in the operated patients than in those who did not have surgery (RR 0.58, 95% CI 0.47-0.73). No differences in fracture risk could be demonstrated between those who had and those who did not have surgery, taking age, gender, and previous fractures into account.
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PMID:Fractures in patients with primary hyperparathyroidism: nationwide follow-up study of 1201 patients. 1260 64

Primary hyperparathyroidism (PHPT) was a rare but serious disease with massive biochemical, renal and skeletal signs at the time of diagnosis. In the last decades it has become a more common disorder often diagnosed by chance. The disease usually shows minimal symptoms. These clinical changes are due to advances in biochemical screening procedures, which have led to a remarkable increase in the incidence of PHPT. The aim of this study is to describe the clinical profiles, biochemical data, operative findings and postoperative results. Seventy one consecutive patients were prospectively enrolled and underwent surgical examination. Most of them showed symptoms: 6 patients were asymptomatic and 11 had a normocalcemic hyperparathyroidism. After surgery 5 patients showed persistent primary hyperparathyroidism. Parathyroid hormone concentration returned to normal levels in 95.77% of the patients studied. Parathyroidectomy is a safe and effective approach to the treatment of primary hyperparathyroidism.
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PMID:[Descriptive analysis and surgical outcome of primary hyperparathyroidism]. 1265 45

Hypercalcemia is a disorder commonly encountered by primary care physicians. The diagnosis often is made incidentally in asymptomatic patients. Clinical manifestations affect the neuromuscular, gastrointestinal, renal, skeletal, and cardiovascular systems. The most common causes of hypercalcemia are primary hyperparathyroidism and malignancy. Some other important causes of hypercalcemia are medications and familial hypocalciuric hypercalcemia. An initial diagnostic work-up should include measurement of intact parathyroid hormone, and any medications that are likely to be causative should be discontinued. Parathyroid hormone is suppressed in malignancy-associated hypercalcemia and elevated in primary hyperparathyroidism. It is essential to exclude other causes before considering parathyroid surgery, and patients should be referred for parathyroidectomy only if they meet certain criteria. Many patients with primary hyperparathyroidism have a benign course and do not need surgery. Hypercalcemic crisis is a life-threatening emergency. Aggressive intravenous rehydration is the mainstay of management in severe hypercalcemia, and antiresorptive agents, such as calcitonin and bisphosphonates, frequently can alleviate the clinical manifestations of hypercalcemic disorders.
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PMID:A practical approach to hypercalcemia. 1522 42

The management of oestrogen deficiency bone loss needs to include general measures to protect against osteoporosis, the identification and treatment of other reversible causes of bone loss, and the use of proven agents for the treatment of osteoporosis. The general measures include improved physical activity, adequate diet (paying particular attention to calcium and vitamin D), and avoidance of behaviours that promote bone loss, such as smoking and alcohol abuse. The diseases that should be identified, other than estrogen-deficiency, include primary hyperparathyroidism, thyrotoxicosis and celiac disease. The treatments that are proven to prevent fractures in women with estrogen deficiency, include hormone replacement therapy, raloxifene, nasal calcitonin, bisphosphonates, (alendronate and risedronate) and parathyroid hormone. The most appropriate therapy in the younger woman is HRT, although the trial-based evidence that HRT prevents fractures is not strong. There is a wide choice of preparations and the use of continuous combined preparations avoids regular menstrual periods, one of the limitations to the use of HRT. Raloxifene has less effect on bone mineral density than HRT, but a similar effect on vertebral fractures and does not result in menstrual bleeding or increased risk of breast cancer. There is recent evidence suggesting that the beneficial effects on lipids translate into reduced risk of cardiovascular disease. Bisphosphonates are the standard treatment for the older woman with osteoporosis. Alendronate has been found to reduce the risk of spine, hip, and wrist fractures and has approval for a once weekly regimen, an approach that appears to prevent GI side effects. Risedronate reduces the risk of spine and non-vertebral fractures within the first year of treatment and has been shown to reduce the risk of hip fracture. It has not been associated with an excess of GI side effects. Parathyroid hormone therapy results in increases in BMD that are even greater than estrogen and the bisphosphonates and to an even greater reduction in the risk of fractures, particularly non-vertebral fractures. It works by stimulation of bone formation rather than by inhibition of bone resorption. However, it has to be given by daily injection. Thus, we have a wide choice of therapies for the woman with osteoporosis due to ovarian failure.
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PMID:Management of osteoporosis due to ovarian failure. 1286 23

Parathyroid hormone (PTH) and PTH-related protein/peptide (PTHrP) bind to the same PTH/PTHrP receptor and stimulate osteoblasts to secrete pro-inflammatory cytokines like interleukin (IL)-6. In patients with primary hyperparathyroidism, elevation of plasma levels of tumor necrosis factor (TNF)-alpha and IL-6 was also described. We, therefore, postulated that PTHrP secreted from cancer cells stimulates the secretion of cytokines and causes increases in their blood levels. Blood concentrations of several cytokines (TNF-alpha, IL-1beta, IL-5, IL-6, IL-8, IL-11 and IL-12) in cancer-bearing patients with or without elevation of blood PTHrP were measured by ELISA. The patients with high plasma PTHrP levels (n=29, intact PTHrP: 8.5 +/- 1.4 pmol/l, normal: <1.1) had higher serum type 1 collagen C-telopeptide (ICTP). Twenty of the patients were hypercalcemic. Plasma concentrations of TNF-alpha, IL-6 and IL-8 were significantly increased in patients with high PTHrP, in either the presence or absence of hypercalcemia. The concentrations of TNF-alpha and IL-6 were also significantly correlated with those of PTHrP. Our observations indicate that high plasma levels of PTHrP in cancer-bearing patients contribute not only to the development of hypercalcemia, but also to the development of the syndrome caused by an excess of pro-inflammatory cytokines.
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PMID:Elevation of circulating plasma cytokines in cancer patients with high plasma parathyroid hormone-related protein levels. 1450 17

Parathyroid hormone (PTH) stimulates osteoblasts to produce the proinflammatory cytokine interleukin-6 (IL-6), causing bone resorption. In patients with primary hyperparathyroidism, elevated serum levels of IL-6 normalize after resection of parathyroid tumours. Because IL-6 is also expressed in normal parathyroids and in other endocrine cells (adrenal and islet), we hypothesized that parathyroid tumours might contribute directly to the elevated serum IL-6 levels in patients with hyperparathyroidism. Immunohistochemistry identified IL-6, PTH, and chromogranin-A (an endocrine and neuroendocrine tumour marker) in normal, adenomatous and hyperplastic parathyroids. Using immunofluorescence and confocal microscopy, IL-6 co-localized with PTH and with chromogranin-A in parathyroid cells. All cultured parathyroid tumours secreted IL-6 at levels markedly higher than optimally stimulated peripheral blood mononuclear cells. Supernates from cultured parathyroids stimulated proliferation of an IL-6-dependent cell line, and anti-IL-6 MoAb abolished this stimulatory effect. IL-6 mRNA was documented in cultured parathyroid tumours, cultured normal parathyroids, fresh operative parathyroid tumours and fresh operative normal specimens. In conclusion, these data show that parathyroid tumours and normal parathyroids contain, produce and secrete IL-6. Our findings present a novel pathway by which human parathyroids may contribute markedly to IL-6 production and elevation of serum IL-6 levels in patients with hyperparathyroidism. The physiological relevance of IL-6 production by human parathyroids remains to be determined, but IL-6 secretion by parathyroid tumours may contribute to bone loss and to other multi-system complaints observed in these patients.
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PMID:Interleukin-6 production and secretion by human parathyroids. 1503 May 26

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