Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0221002 (primary hyperparathyroidism)
4,921 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Estrogen and/or progestin administration to postmenopausal women with primary hyperparathyroidism lowers serum calcium. We measured cytosolic estrogen receptors (ER) and progesterone receptors (PR) by classical hormone-receptor binding techniques in parathyroid tissue removed from 10 men and 20 women, and ER by immunocytochemistry in tissue from an additional one man and seven women in order to ascertain whether these agents might exert a direct effect upon tissue responsible for hyperparathyroidism. ER were negative (< 3.1 fmol bound estradiol/10 mg tissue) in all 8 adenomas and 4 of 5 secondary hyperplasias removed from men, and from women in 19 of 22 adenomas, 2 of 3 secondary hyperplasias, and 3 of 4 primary hyperplasias. PR were negative (< 10.1 fmol bound progesterone/10 mg tissue) in 7 of 8 adenomas and all 5 secondary hyperplasias removed from men, and from women in 20 of 22 adenomas, all 3 secondary hyperplasias, and all 4 primary hyperplasias. For immunocytochemical studies, quick-frozen specimens were analyzed with a monoclonal antibody (Abbott Laboratory) directed at nuclear ER. All eight samples--five adenoma and three primary hyperplasia--were negative. We conclude that abnormal human parathyroid tissues have nondetectable levels of ER and PR. It is unlikely that estrogen and progesterone exert a direct, ER, or PR-mediated effect upon parathyroid tissue.
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PMID:Measurement of estrogen and progesterone receptors in abnormal human parathyroid tissue. 145 37

Estrogens decrease serum total and ionized calcium (Ca) concentrations in postmenopausal women with or without primary hyperparathyroidism, but cause little or no increase in serum PTH suggesting a modification of the relationship between the two. In order to define this relationship, we studied the effect of conjugated estrogens on total and ionized serum Ca and serum PTH concentrations in five normal postmenopausal women, before and after 3, 11, and 23 weeks of therapy. Dynamic tests of parathyroid gland function, based on 2-h iv infusions of CaCl2 and NaEDTA, were performed at each time. Total and ionized serum Ca and carboxylterminal PTH were measured every 15 min during the infusions, and parathyroid function was evaluated by a nonlinear 4-parameter mathematical model. Estrogen therapy caused decreases in serum total [2.36 +/- 0.04 (SD) mmol/L, baseline vs. 2.19 +/- 0.05 mmol/L, 23 weeks, P less than 0.005) and ionized calcium (1.27 +/- 0.01 mmol/L, baseline vs. 1.21 +/- 0.02 mmol/L, 23 weeks, P less than 0.005]; the decreases were evident at 3 weeks and persisted for the duration of the study. Serum PTH concentrations did not change (8.94 +/- 1.84 pmol/L, baseline vs. 8.98 +/- 2.38 pmol/L, 23 weeks). Three parameters of the parathyroid function, the maximal response to hypocalcemic stimulation, the nonsuppressible fraction of circulating PTH, and the slope of PTH on calcium at the set point were not affected by estrogen treatment. The fourth parameter, the set point of PTH stimulation by serum total calcium (2.16 +/- 0.04 mmol/L, baseline vs. 1.97 +/- 0.07 mmol/L, 23 weeks, P less than 0.0166) or by serum ionized Ca (1.19 +/- 0.04 mmol/L, baseline vs. 1.12 +/- 0.03 mmol/L, 23 weeks, P less than 0.01), was decreased by estrogen treatment. This was evident at the earliest time point studied and persisted thereafter. The decrease in ionized Ca set point only explained 40% of the decrease in total calcium set point, the remaining 60% being related to hemodilution of plasma protein during therapy. We conclude that estrogen replacement can influence parathyroid function in postmenopausal women by resetting the set point of PTH stimulation by ionized Ca. This in turn could contribute to the estrogen-induced changes in their Ca balance.
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PMID:Estrogen replacement decreases the set point of parathyroid hormone stimulation by calcium in normal postmenopausal women. 292 12

Serum osteocalcin levels peaked 1 yr after oophorectomy in a prospective study of 12 women. Estrogen treatment restored serum osteocalcin to the normal range within 4 months of therapy. The changes in serum osteocalcin preceded those in bone alkaline phosphatase activity by 1-2 months, in these oophorectomized patients and during estrogen treatment. The changes in these two markers of bone formation over time were significantly different from those in urinary hydroxyproline excretion. A significant positive correlation was found between bone alkaline phosphatase and serum osteocalcin levels in patients after oophorectomy and in 18 patients with primary hyperparathyroidism. Significant positive correlations also were found between the biochemical indices of osteoblastic function and urinary hydroxyproline excretion and/or nephrogenous cAMP in primary hyperparathyroidism. In most of the patients with primary hyperparathyroidism, however, the elevation in bone alkaline phosphatase was more marked than that in osteocalcin. These data indicate that the clinical utility of serum osteocalcin as a marker of bone formation is similar but not identical to that of bone alkaline phosphatase.
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PMID:Serum osteocalcin levels and bone alkaline phosphatase isoenzyme after oophorectomy and in primary hyperparathyroidism. 303 Nov 19

Serum calcium, urinary calcium and a calcium loading test were evaluated twice in 5 elderly women with primary hyperparathyroidism, once not under and once under estrogen therapy. The treatment produced a significant lowering of blood calcium and normalization of urinary calcium excretion in the fasting state, per 24 h and after calcium load. Estrogen therapy might be useful in conservative treatment of asymptomatic hyperparathyroidism and in symptomatic cases where surgery is impossible.
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PMID:[Primary hyperparathyroidism of the aged female: effect of estrogens on calcium metabolism]. 713 50

Though vertebral fractures were required to make the diagnosis of osteoporosis prior to the advent of methods for accurate bone measurement, osteopenia is readily defined by a decrease of bone mineral density by 2 to 2.5 SD from the peak bone density. After excluding other metabolic bone diseases such as primary hyperparathyroidism, osteomalacia, renal osteodystrophy, multiple myeloma and tumor metastases by means of X-ray studies and biochemical studies on serum and urine, by far the largest proportion of patients with osteopenia are usually found to have osteoporosis. Primary osteoporosis is found in males and females after middle age, and secondary osteoporosis at any age with definite causes such as corticosteroid excess, immobilization, rheumatoid arthritis or vitamin C deficiency. Estrogen withdrawal in young women is classified as secondary osteoporosis, but postmenopausal osteoporosis with similar cause is usually classified into primary osteoporosis, creating a confusion. Rapid bone loss occurring only during a few years after menopause should be clearly distinguished from the life-long process of bone loss common to males and females and should not be classified as a "type" of osteoporosis.
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PMID:[Osteoporosis--concept, classification and epidemiology]. 796 67

Bone is a living tissue; throughout life, new bone formation coexists with bone resorption. Although a large number of hormones and cytokines modulate osteoblast and osteoclast function, osteoporosis results from any disorder in which bone formation becomes uncoupled from bone resorption. Many disorders are associated with the uncoupling of bone formation and resorption. The most common is loss of gonadal steroid action on bone, as occurs in menopause or in male and female hypogonadism not associated with menopause. Other relatively common causes include primary hyperparathyroidism and endogenous or exogenous hypercortisolism and thyrotoxicosis. A large number of other, less frequent disorders also cause osteoporosis. Treatment of osteoporosis consists first of removing the cause if possible, for example, abolishing hypercortisolism, thyrotoxicosis, or hyperparathyroidism. In menopausal women or hypogonadal men or women, replacement of estrogens or androgens represents effective therapy. Estrogens and androgens given to hypogonadal subjects strikingly reduce bone resorption. For patients with established osteoporosis who either cannot take gonadal steroids or who are not hypogonadal, calcitonin decreases bone resorption and may stabilize bone mass. Estrogen replacement and calcitonin are approved by the Food and Drug Administration for treatment of osteoporosis. Experimental therapies presently include 1,25-dihydroxyvitamin D (calcitriol), bisphosphonates in intermittent treatment regimes, and fluoride in lower dosages than were used in previous studies. The use of fluoride is controversial, and to some extent it has fallen into disrepute. Effective use of any treatment is predicated on understanding the pathophysiology in any particular disease setting.
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PMID:Osteoporosis: pathophysiology, prevention, diagnosis, and treatment. 822 93

Parathyroid surgery is indicated in patients presenting with primary hyperparathyroidism (PHPT) and osteoporosis (defined as bone mineral density more than 2 standard deviations below normal). Many are elderly women with complex medical problems, either unwilling or considered unfit for surgery. Estrogen replacement therapy (ERT) may potentially be an alternative form of therapy in this group. We studied 15 consecutive postmenopausal women presenting with PHPT and osteoporosis. Group 1 comprised 5 women who elected to be treated with ERT (conjugated equine estrogen, 0.3-0.625 mg/day). The other 10 women underwent successful parathyroidectomy. These 10 patients were randomly subdivided into group 2 (5 patients who received calcitriol 0.25 micrograms b.i.d. for 12 months following surgery) and group 3 (5 patients who received elemental calcium 1 g/day for 12 months following surgery). Lumbar spine and femoral neck bone mineral density (BMD) were measured prior to and after 12 months of therapy, using a dual-energy X-ray absorptiometer (Lunar DPX-L). The three groups did not differ with respect to their ages (group mean 71.8 years), or baseline serum calcium (group mean 2.77 mmol/l), serum parathyroid hormone (group mean 11.0 pmol/l), lumbar spine BMD (group mean 0.93 g/cm2) and femoral neck BMD (group mean 0.73 g/cm2). Serum calcium normalized in all patients who underwent surgery and none developed hypoparathyroidism. A non-significant decrease in serum calcium was seen in patients treated with ERT only. Lumbar spine (+5.3% per year; 95% CI, 1.1% to 9.6%) and femoral neck BMD (+5.5% per year; 95% CI, -2.1% to 13.2%) increased significantly after 12 months of ERT (p < 0.001 compared with pre-therapy values). These increases in BMD did not differ significantly from those in patients who underwent successful parathyroidectomy followed by either calcitriol therapy or calcium replacement (lumbar spine BMD increase of +6.2% per year, 95% CI 3.1% to 9.4%; and femoral neck BMD increase of +3% per year, 95% CI 0 to 6%). In summary, increases in lumbar spine and femoral neck BMD occur following treatment of PHPT. ERT appeared as effective as parathyroidectomy (combined with either calcitriol or calcium supplements) for the treatment of osteoporosis in elderly postmenopausal women presenting with PHPT.
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PMID:Estrogen replacement may be an alternative to parathyroid surgery for the treatment of osteoporosis in elderly postmenopausal women presenting with primary hyperparathyroidism: a preliminary report. 888 24

We employed skeletally matured rats to study changes in biochemical markers of bone turnover, bone mineral density (BMD), and bone biomechanics produced by continuous elevation of parathyroid hormone (PTH) in estrogen-deplete and -replete rodents. Ninety-six 7-month-old virgin female rats were divided randomly into 12 groups (n = 8) and treated as follows. One group was killed on the day of surgery. The remaining groups were either bilaterally ovariectomized (Ovx) or sham-operated and left untreated for 8 weeks, at which point, two groups, one sham and one Ovx, were killed. The remaining nine groups were treated for 2 weeks or 4 weeks. One sham and two Ovx groups received subcutaneous implants of Alzet miniosmotic pumps with vehicle for PTH. Two Ovx groups were given pumps with vehicle as well as a subcutaneous implant of 17beta-estradiol, which delivered 10 microg/kg per day. Two Ovx groups were implanted with rat PTH(1-34) in Alzet miniosmotic pumps, which delivered 30 microg PTH/kg per day. Two Ovx groups were implanted with both estradiol pellets and PTH-loaded pumps. One group of Ovx animals from each treatment was killed after 2 weeks and the other after 4 weeks. Biochemical markers of bone turnover, serum osteocalcin and urinary free pyridinoline, BMD, and mechanical strength of excised bones were measured. As expected, there was a significant increase in N-terminal PTH and serum calcium levels in all PTH infusion groups. Both serum osteocalcin and urinary pyridinoline showed a rapid increase within the first 2 weeks of the PTH infusion and remained elevated at week 4. In estrogen-replete groups, osteocalcin increased by week 2 of PTH infusion but pyridinoline did not increase until week 4. BMD of the distal and proximal femur showed the expected decrease 8 weeks after ovariectomy but did not exhibit any further changes during the 4 weeks of treatment with vehicle. Four weeks of PTH infusion in Ovx animals resulted in BMD loss at the midshaft, distal, and proximal regions of the femur. Estrogen repletion by itself, beginning 8 weeks after ovariectomy, produced no change in BMD at any site when compared with from Ovx vehicle-treated rats. Estrogen repletion in PTH-infused Ovx animals resulted in significant improvements of BMD comparable with sham-operated animals at all three femoral regions. The indentation test at the cancellous bone of the distal femur, three-point bending test at the midshaft femur, and cantilever bending test at the femoral neck showed that the changes in mechanical strength in these sites were consistent to the changes found in BMD. Our results showed that (1) continuously elevated levels of PTH induced additional loss of BMD in estrogen-deficient animals beyond the rapid bone loss phase associated with ovariectomy, (2) estrogen repletion, given by implant, to PTH-infused Ovx animals, reversed these BMD changes increasing BMD to levels comparable with estrogen-sufficient rats, and (3) these changes were reflected in the mechanical strength determined at these sites. These results lend experimental support that hormone replacement therapy may benefit bone health in postmenopausal women with primary hyperparathyroidism (PHPT). In addition, it raises the possibility that a continuous elevation of PTH could exert anabolic effects on skeletal tissue if its catabolic component can be minimized.
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PMID:Skeletal effects of parathyroid hormone infusion in ovariectomized rats with or without estrogen repletion. 1078 Aug 65

Generally, it is believed that intermittent administration of parathyroid hormone (PTH) has an anabolic effect on the skeleton, whereas continuous administration is catabolic. However, there is evidence that continuous exposure to PTH may have an anabolic effect, for example, in patients with mild primary hyperparathyroidism (PHPT). The possibility of delivering PTH continuously may have important implications for the treatment of osteoporosis. Furthermore, estrogen treatment may be useful in the medical management of PHPT. Therefore, we examined the skeletal effects of continuous administration of PTH, with or without estrogen, in the estrogen-deficient rat with established osteopenia. Forty 7-month-old SD rats were divided into four ovariectomy (OVX) groups and one sham-operated group. Eight weeks post-OVX, three groups received subcutaneous implants of Alzet mini pumps loaded with PTH(1-34) (30 microg/kg per day), 17beta-estradiol (10 microg/kg per day) pellet, or both PTH and 17beta-estradiol separately for 4 weeks. OVX and sham control groups were given the mini pumps loaded with vehicle. Two doses of calcein (10 mg/kg) were given subcutaneously to all rats 2 days and 8 days before death. Histomorphometry was performed on cancellous and cortical bone of the fourth lumbar vertebra. At 3 months, post-OVX rats displayed bone loss with high bone turnover. Estrogen reversed OVX-mediated high turnover without restoring cancellous bone volume (BV/TV). PTH infusion further increased bone turnover and partially restored BV/TV. However, PTH infusion increased cortical porosity. Estrogen inhibited PTH-mediated cancellous bone resorption and substantially increased BV/TV above sham control. The combined treatment was associated with a significant increase in peritrabecular fibrosis and woven bone formation. The combined treatment of PTH infusion and estrogen replacement enhanced cortical width but estrogen did not prevent the PTH-induced cortical tunneling. We conclude that continuous administration of PTH and estrogen increases cortical porosity but has substantial beneficial effects on vertebral cancellous bone volume and cortical width in OVX rats.
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PMID:Continuous parathyroid hormone and estrogen administration increases vertebral cancellous bone volume and cortical width in the estrogen-deficient rat. 1145 Jul 6

We have observed a strong correlation between circulating levels of both interleukin-6 (IL-6) and interleukin-6 soluble receptor (IL-6sR) and rates of bone turnover in patients with primary hyperparathyroidism. Furthermore, we have found that serum levels of IL-6sR predict rates of bone loss in postmenopausal women with this disease. Estrogen modulates parathyroid hormone (PTH)-induced increases in serum IL-6/IL-6sR, such that, in the estrogen-deficient state, there is an exaggerated release of these cytokines. We therefore propose that the perimenopausal period represents a time when skeletal sensitivity to the resorbing actions of PTH increases because of augmented release of IL-6 and IL-6sR. To test this hypothesis, we retrospectively examined data from 91 women with primary hyperparathyroidism who were seen over the last 5 years at our institution. Women were categorized, based on their age, as premenopausal (n = 20, 41 +/- 2 years), perimenopausal (n = 17, 54 +/- 1 years), or postmenopausal (n = 54, 64 +/- 1 years). Despite having similar mean values for PTH, perimenopausal women had a mean serum IL-6 value that was significantly higher than that in the premenopausal group (13 +/- 2 vs. 8 +/- 2 pg/ml; p = 0.03). This difference in cytokine profile was mirrored by higher mean values for urine N telopeptides of type I collagen (NTX) in the perimenopausal group compared with premenopausal women (114 +/- 9 vs. 80 +/- 11 nM bone collagen equivalents (BCE)/mM creatinine, p = 0.01). Of the three groups of patients, values for IL-6 and urine NTX were highest in the postmenopausal group. We conclude that the perimenopausal period may be a time of increased risk for the skeletal complications of hyperparathyroidism. This is because of increased skeletal sensitivity to the resorbing actions of PTH, mediated in part, by the IL-6/IL-6sR cytokine system.
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PMID:Role of the interleukin-6/interleukin-6 soluble receptor cytokine system in mediating increased skeletal sensitivity to parathyroid hormone in perimenopausal women. 1241 87


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