Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0432222 (SEM)
47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the influence of circulating parathyroid hormone-related protein (PTHrP) concentrations on the response of hypercalcemic cancer patients to bisphosphonate therapy. We also examined the changes in circulating PTHrP levels during the normalization of serum Ca to determine if part of the increase in PTHrP concentrations is not secondary to hypercalcemia itself, as suggested by some in vitro data. We sequentially measured in 45 hypercalcemic cancer patients treated by pamidronate the circulating concentrations of PTHrP (by an amino-terminal RIA; normal values < 9 pmol/liter), Ca, Ca2+, Pi, intact PTH, and the fasting urinary excretion of Ca (Ca/Cr) and cyclic AMP (cAMP). Mean +/- SEM baseline PTHrP levels were 9.5 +/- 1.3, with a median (range) value of 6.0 (< 3.4-43) pmol/liter. PTHrP levels were elevated in 18 of 45 patients, more often in epidermoid than in glandular carcinomas (P < 0.05), and they were significantly (P < 0.05) correlated with the concentrations of Pi (r = -0.46), Ca/Cr (r = -0.31), and urinary cAMP (r = 0.47). Mean pretreatment Ca levels were not significantly different between patients with elevated and patients with normal PTHrP levels, 13.3 +/- 0.4 versus 12.9 +/- 0.4 mg/dl, but the concentrations became significantly different (P < 0.005) 4 days after therapy, 10.2 +/- 0.3 versus 9.2 +/- 0.1 mg/dl, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Circulating PTHrP concentrations in tumor-induced hypercalcemia: influence on the response to bisphosphonate and changes after therapy. 832 12

Bisphosphonates are used increasingly in normocalcemic patients for treating tumor-induced osteolysis (TIO) but little is known about the metabolic effects and the most appropriate therapeutic regimen. In 21 patients with breast cancer and TIO, we determined the biochemical effects of a single infusion of pamidronate given at 30 mg (n = 5), 60 mg (n = 5), 90 mg (n = 5), or 120 mg (n = 6). Patients received no other systemic antineoplastic therapy during the trial. We selected patients with baseline fasting urinary Ca/Creat (creatinine) > 0.105 mg/mg (median value of our normal range) and they were followed weekly for up to 14 weeks. The biochemical effects were maximal at day 7. For the whole group, mean (+/- SEM) Ca/Creat levels fell from 0.208 +/- 0.018 to 0.048 +/- 0.008 mg/mg on day 7 and remained significantly ( p < 0.01) lower than baseline up to day 56. Hydroxyproline excretion fell to a lesser degree, from 7.0 +/- 1.2 to 4.0 +/- 0.6 mg x 100/mg of Creat. The falls in Ca/Creat and hydroxyproline excretion were dose-related (ANCOVA, p < 0.05). Changes in serum parameters of calcium metabolism were, however, not significantly dose-related. Serum Ca levels fell from 9.3 +/- 0.1 to 8.7 +/- 0.1 mg/dl on day 7, but not patients developed symptomatic hypocalcemia, and the decrease within each dose group was significant only at 120 mg. Ca2+ levels followed a similar pattern. There was a slight increase in Mg levels and a pronounced fall in Pi levels, from 3.6 +/- 0.2 to 2.8 +/- 0.1 mg/dl. Intact PTH levels increased from 29 +/- 4 to 91 +/- 13 pg/ml and remained significantly (p < 0.05) elevated up to day 28.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Intravenous pamidronate in patients with tumor-induced osteolysis: a biochemical dose-response study. 858 22

The pathogenesis of PTH-induced bone loss is uncertain. Experimental evidence suggests that PTH induces the production by osteoblasts of the bone-resorbing cytokine, interleukin-6. We measured the circulating levels of interleukin-6, tumor necrosis factor-alpha, and interleukin-1 beta and examined their relationship to biochemical markers of bone turnover in 38 patients with primary hyperparathyroidism (7 of whom also were studied after successful parathyroid adenomectomy), 6 patients with hypoparathyroidism, and 12 subjects with normal parathyroid function. The patients with untreated primary hyperparathyroidism had mean serum levels of interleukin-6 that were 16-fold higher than control values (mean +/- SEM; primary hyperparathyroidism 18.6 +/- 2.1 pg/mL, controls 1.1 +/- 0.1; P < 0.001). Circulating levels of interleukin-6 soluble receptor (primary hyperparathyroidism 41.7 +/- 1.2 ng/ mL, controls 25.1 +/- 1.0; P < 0.001), and tumor necrosis factor-alpha (primary hyperparathyroidism 11.6 +/- 0.8 pg/mL, controls 2.5 +/- 0.2; P < 0.001) were also elevated. After successful parathyroid adenomectomy, levels of each of these cytokines fell into the normal range. The mean levels of interleukin-6, its soluble receptor, and tumor necrosis factor-alpha in the subjects with hypoparathyroidism were lower than control values (P < 0.001 for each variable). There was no difference between subjects with primary hyperparathyroidism and controls in the circulating level of interleukin-1 beta. In the subjects with untreated primary hyperparathyroidism, serum levels of interleukin-6 correlated strongly with those of intact PTH (r = 0.47, P = 0.003) and biochemical markers of bone resorption: serum deoxypyridinoline (r = 0.93, P < 0.001), serum type I collagen carboxyterminal telopeptide (r = 0.87, P < 0.001), urinary pyridinoline (r = 0.81, P < 0.001), and urinary deoxypyridinoline (r = 0.63, P = 0.005). Levels of tumor necrosis factor-alpha correlated less strongly with the same variables: PTH (r = 0.41, P = 0.01), serum deoxypyridinoline (r = 0.48, P = 0.002), serum type I collagen carboxyterminal telopeptide (r = 0.46, P = 0.004), urinary pyridinoline (r = 0.61, P = 0.008), and urinary deoxypyridinoline (r = 0.61, P = 0.007). Levels of interleukin-6 also correlated with those of tumor necrosis factor-alpha (r = 0.44, P = 0.005). Multiple regression analysis indicated that interleukin-6, but not tumor necrosis factor-alpha, was independently predictive of bone resorption. We conclude that serum levels of interleukin-6 and tumor necrosis factor-alpha are increased in patients with primary hyperparathyroidism and are normalized by successful surgical treatment. The finding that these cytokines correlate with biochemical markers of bone resorption suggests that they play a role in the pathogenesis of bone loss in primary hyperparathyroidism.
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PMID:Circulating levels of interleukin-6 and tumor necrosis factor-alpha are elevated in primary hyperparathyroidism and correlate with markers of bone resorption--a clinical research center study. 885 82

Calcitriol, as used for treating secondary hyperparathyroidism, has a low therapeutic index. The safety and efficacy of the vitamin D analog, 1 alpha (OH)-vitamin D2, (1 alpha D2), which has less toxicity in animals than 1 alpha (OH)-vitamin D3, was tested in a multicenter study of 24 hemodialysis patients with secondary hyperparathyroidism [serum intact (i) PTH > 400 pg/ml]. Calcium-based phosphate binders alone were used to maintain serum phosphorus < or = 6.9 mg/dl. After eight weeks without calcitriol (washout), oral 1 alpha D2, 4 micrograms/day or 4 micrograms thrice weekly, was started, with the dose adjusted over 12 weeks to maintain serum iPTH between 130 and 250 pg/ml. Pre-treatment serum iPTH fell from 672 +/- 70 pg/ml (SEM) to 289 +/- 36 after treatment (P < 0.05). The maximal decrease in serum iPTH was 48 to 96%, with 87.5% of patients reaching target iPTH levels. The final dose of 1 alpha D2 average 14.2 micrograms/week. Pre-treatment serum calcium rose modestly from 8.8 +/- 0.2 mg/dl to 9.5 +/0 0.2 after treatment (P < 0.001). Only once did modest hypercalcemia (serum Ca > 11.2 mg/dl) necessitate stopping treatment. Neither the average serum P level, the incidence of hyperphosphatemia, nor the dose of phosphate binders changed from washout to treatment. Thus, oral 1 alpha D2 is highly efficacious in suppressing secondary hyperparathyroidism in hemodialysis patients and is safe despite exclusive use of calcium-based phosphate-binders. Future studies should clarify the optimal dosage regimen.
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PMID:Effective suppression of parathyroid hormone by 1 alpha-hydroxy-vitamin D2 in hemodialysis patients with moderate to severe secondary hyperparathyroidism. 899 49

Chronic lithium (Li) therapy, used extensively in the treatment of bipolar affective disorders, is one of psychiatry's most effective treatments. The data on the effects of Li on baseline PTH and calcium (Ca) levels are conflicting. A clear resetting of the PTH set-point to the right was documented in vitro; however, the effect of Li on the Ca-PTH axis has not been rigorously studied in vivo. In this study, we used a Ca and citrate infusion protocol to fully characterize PTH dynamics in seven female patients, 40 +/- 11 yr old, on chronic Li therapy for 5.23 +/- 4.0 yr, compared with seven controls, 41 +/- 16 yr old (mean +/- SD). Baseline ionized Ca (Cai) and intact PTH levels were 5.2 +/- 0.06 mg/dL and 38.4 +/- 5.7 pg/mL in the Li group and 4.9 +/- 0.06 mg/dL and 21.2 +/- 5.0 pg/mL in the controls, (mean +/- SEM) P = 0.008 and 0.042, respectively. We defined an inverse sigmoidal curve between Cai and the intact biologically active PTH molecule (iPTH) for the two study groups and demonstrated a significant shift in the iPTH set-point to the right in the Li-treated patients, compared with controls. The set-point was 5.08 +/- 0.04 for the former group and 4.88 +/- 0.04 mg/dL for the latter, P = 0.004. Patients on Li had significantly higher Cai levels during citrate and Ca infusions, P = 0.0008 and 0.012, respectively; however, iPTH levels were not significantly different between the two study groups during either infusion. The shift in the iPTH set-point to the right in the Li-treated patients and the similar iPTH levels, despite higher serum Cai levels during both infusions, establish the presence of a clear alteration in PTH dynamics in patients on chronic Li therapy.
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PMID:Alterations in parathyroid dynamics in lithium-treated subjects. 928 8

Lack of consistent information concerning the pathophysiology of corticosteroid-related bone loss may be due to coexisting independent factors that influence bone mineral density (BMD). For example, the disease being treated may increase bone turnover and cause bone loss, and its severity may influence the dose of corticosteroids chosen. Similarly, disease remission due to the treatment or disease progression despite treatment may influence bone turnover and the rate of bone loss. The hormonal changes purportedly responsible for reduced bone formation or increased bone resorption may be the result of the disease, not the corticosteroids. To determine the pathophysiology of corticosteroid-related bone loss, we conducted a controlled, prospective study in men with no systemic illness treated with corticosteroids to reduce antisperm antibodies. We measured BMD using dual x-ray absorptiometry and circulating biochemical and hormonal determinants of bone turnover in 9 men before and during prednisolone treatment and in 10 age-matched controls. The results were expressed as the mean +/- SEM. There were no differences in BMD between the two groups at baseline. The patients received 50 mg prednisolone daily for 3.7 +/- 0.6 months (range, 1-6). BMD decreased by 4.6 +/- 0.8% at the lumbar spine (P = 0.0007), by 2.6 +/- 0.6% at the trochanter (P = 0.004), and by 4.8 +/- 1.9% at the Ward's triangle (P < 0.04). The decrease in lumbar spine BMD correlated with the cumulative dose of corticosteroids (r = -0.49; P = 0.03). Serum osteocalcin and skeletal alkaline phosphatase decreased by 28.5 +/- 15.5% (P = 0.08) and 24.2 +/- 8.6% (P < 0.03), respectively. The decrease in lumbar spine BMD correlated with the decrease in osteocalcin (r = -0.48; P < 0.02). Serum testosterone and sex hormone-binding globulin decreased by 28.6 +/- 4.4% (P < 0.003) and 28.5 +/- 8.3% (P < 0.007), respectively. The testosterone/sex hormone-binding globulin ratio did not change. The decrease in total testosterone correlated with the decrease in osteocalcin (r = -0.40; P = 0.05). There were no detectable changes in urinary C-telopeptide, serum PTH, or serum calcium. Estradiol decreased by 23.5 +/- 11.4% (P < 0.003). Corticosteroid therapy results in rapid bone loss, probably due to reduced bone formation. Neither increased bone resorption nor secondary hyperparathyroidism appears to contribute to the rapid bone loss. Whether the reduction in bone formation may be partly mediated by changes in sex steroids remains unclear.
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PMID:Corticosteroid-induced bone loss in men. 950 31

Patients with hyperparathyroidism (HPT) generally display reduced bone mass due to excessive PTH activity. The effect of parathyroidectomy on bone mass changes in different types of HPT, however, is not well understood. Bone mineral density (BMD) was measured in the distal radius, total body, femoral neck, and lumbar spine by dual energy x-ray absorptiometry in four groups of patients with different hyperparathyroid conditions: primary symptomatic HPT (n = 54), primary asymptomatic (mild) HPT (n = 24), HPT associated with hemodialysis (n = 20), and HPT associated with renal transplant (n = 30). Subsets of patients with primary symptomatic HPT (n = 52), HPT associated with hemodialysis (n = 19), and HPT associated with renal transplant (n = 15) underwent parathyroidectomy, and bone density was measured longitudinally for 3 yr. Patients with primary asymptomatic (mild) HPT did not undergo surgery and were followed prospectively. Before surgery, all groups showed a greater reduction of bone mineral density in cortical bone (distal radius) than in predominantly trabecular bone (lumbar spine). In primary symptomatic HPT, the BMD z-score of the distal radius was -1.80 +/- 0.21 (+/-SEM), and the corresponding figures for the total body, femoral neck, and lumbar spine were -0.60 +/- 0.15, -0.54 +/- 0.14, and -0.53 +/- 0.18 compared with those of an age- and sex-matched reference group. In renal HPT BMD z-scores were -2.51 +/- 0.38 (hemodialysis patients) and -2.83 +/- 0.43 (renal transplant patients) for the distal radius and between -0.81 and -1.46 for the other measured sites. After parathyroidectomy, BMD increased by 1-8% at all sites in patients with primary symptomatic HPT and HPT associated with renal transplant. The largest increase in bone mass was observed in patients with HPT associated with hemodialysis, in whom the improvement amounted to 7-23%. In patients with primary HPT and HPT associated with hemodialysis, this increase in bone density resulted in virtual recovery from their preoperative bone loss. The majority of patients with asymptomatic primary HPT disease (n = 21) maintained their bone density during the follow-up period and have not shown evidence of increases in serum calcium or PTH levels, but three patients followed conservatively underwent parathyroidectomy due to progressive deterioration of BMD. We conclude that, regardless of the etiology, a large proportion of HPT patients show reduced bone density. In patients with primary symptomatic HPT and patients with HPT associated with hemodialysis, bone density increases after parathyroidectomy to an extent that largely restores the preoperative bone loss. However, no anabolic effect of parathyroidectomy on bone mass was observed in patients with HPT associated with renal transplant, probably because of their immunosuppressive therapy.
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PMID:Bone mineral recovery after parathyroidectomy in patients with primary and renal hyperparathyroidism. 981 56

The study of the elimination kinetics of peptide hormones in humans is limited, because determining hormone levels in different compartments is difficult. We calculated the elimination kinetics of intact PTH (1-84) after adenoma removal in primary hyperparathyroidism, based on a 2-compartment model. In 12 patients, blood samples were drawn in short intervals preoperatively, during surgery, and up to 4 days postoperatively. Plasma levels of PTH (1-84), calcium (Ca), and inorganic phosphate were determined. PTH (1-84) levels remained constant before surgery and during adenoma preparation; 2.5 min after clamping of the adenoma's blood supply, PTH (1-84) decreased (34.9 +/- 4.8 vs. 23.3 +/- 2.9 pmol/L, mean +/- SEM, P < 0.001) and then reached a minimum of 0.96 +/- 0.06 pmol/L at 5 h. The elimination half-lives for PTH (1-84) were 3.43 +/- 0.1 min and 81.7 +/- 12.7 min. Ionized Ca started to decrease 30 min after adenoma removal (1.58 +/- 0.04 vs. 1.56 +/- 0.04 pmol/L, P < 0.001). This decrease was paralleled by a decrease in total Ca. Inorganic phosphate increased 24 h after adenoma removal. In conclusion, PTH (1-84) elimination after adenectomy is characterized by a rapid initial decrease and a subsequent prolonged period with a lower elimination rate. This elimination pattern may also apply to other human peptide hormones.
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PMID:Parathyroid hormone after adenectomy for primary hyperparathyroidism. A study of peptide hormone elimination kinetics in humans. 981 57

The pathogenesis of hypercalcemia of malignancy comprises increased net bone resorption and enhanced renal tubular reabsorption of calcium (Ca). To evaluate the prevalence of an increased renal tubular reabsorption of Ca index [tubular reabsorption of calcium index (TRCaI)] in cancer patients with hypercalcemia and of elevated circulating levels of PTH-related protein (PTHrP), which is recognized as a major mediator of this syndrome, we investigated 315 well rehydrated patients, aged 58.1 +/- 0.7 yr (mean +/- SEM), with hypercalcemia [albumin-corrected plasma Ca (pCa), >2.7 mmol/L] secondary to histologically proven malignancy. Changes in pCa and, therefore, various Ca filtered loads were obtained by different degrees of bone resorption inhibition achieved with a single infusion of the bisphosphonate ibandronate, given at various doses on a randomized, double blind basis. PTHrP was determined at baseline in 147 of the patients and 7 days after bisphosphonate therapy in 73. Before ibandronate therapy, pCa was 3.36 +/- 0.02 mmol/L, mean TRCaI was increased at 3.09 +/- 0.03 mmol/L glomerular filtration rate (GFR; normal, 2.40-2.90), and 65% of patients had TRCaI above 2.90 mmol/L GFR. Mean serum PTHrP levels were 4.9 +/- 0.5 pmol/L (normal, <2.5) and values above the normal range were found in 53% of the patients (76% in lung and upper respiratory tract malignancies). By 7 days after the infusion of ibandronate, a decrease in pCa of 0.69 +/- 0.03 mmol/L (20.0 +/- 0.7%; P < 0.001) and in bone resorption [mean change in fasting urinary Ca, 0.09 +/- 0.04 mmol/L GFR (47.6 +/- 8.6%; P < 0.001) and 14.4 +/- 1.7 nmol/mmol (27.6 +/- 10.6%; P < 0.01) in deoxypyridinoline] was observed. TRCaI was slightly lowered by 0.30 +/- 0.09 mmol/L GFR. Mean changes in PTHrP, 1,25-dihydroxyvitamin D3, and PTH were +0.7 +/- 0.4 (P = NS), +27.6 +/- 3.0 (P < 0.001), and +2.9 +/- 0.8 (P < 0.005) pmol/L, respectively. After ibandronate treatment, the relative risk of relapsing hypercalcemia was particularly increased (3.43-fold) in lung and upper respiratory tract malignancies. These results obtained in a large cohort of patients indicate a significant prevalence of an increased renal tubular reabsorption of calcium index in hypercalcemia of malignancy and a substantial proportion of patients with detectable PTHrP.
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PMID:Serum parathyroid hormone-related protein levels and response to bisphosphonate treatment in hypercalcemia of malignancy. 1052 93

Hyperthyroid patients have high bone turnover and negative calcium and phosphorus balance often associated with mild osteopenia. Early during antithyroid treatment bone turnover decreases, the mineral balance is converted to positive, and sometimes hypocalcemia occurs. The aim of this investigation was to study the mechanisms of the changes in some parameters of bone and mineral metabolism after treatment of thyrotoxicosis. Thirteen newly diagnosed patients with Graves' disease (seven postmenopausal women, four premenopausal women, and two men) were studied longitudinally, every 6 weeks, for 1 yr after commencing antithyroid treatment with methimazole. Mean serum calcium and phosphorus were both slightly above the normal mean at week 0 and decreased significantly (by 10% and 24%, respectively) during treatment. Fasting urinary calcium was 236 +/- 4 (mean +/- SEM) mg/g creatinine, and the fractional excretion of Ca was 2.0 +/- 0.33% before treatment; both fell significantly to minimums of 61 +/- 20 mg/g and 0.6 +/- 0.16%, respectively. Urinary phosphorus was 282 +/- 60 mg/g creatinine, and the fractional excretion of phosphorus was 3.3 +/- 0.6% before treatment; both increased significantly to 452 +/- 40 mg/g and 8.4 +/- 1.0%, respectively, during treatment. The z-scores were calculated from the mean and SD ofthe respective control groups. The z-score of urinary N-telopeptides of type I collagen (U.NTx) was 9.3 +/- 1.3 at week 0 and declined exponentially, but failed to normalize after 1 yr of antithyroid treatment. The serum alkaline phosphatase (ALP) z-score was initially 2.2 +/- 0.2, increased to 6.0 +/- 1.0 at week 6, and declined slowly there after to 1.0 +/- 1.1 at week 54. The serum osteocalcin (OC) z-score showed a temporal pattern similar to that of ALP. It was initially 2.2 +/- 0.2, increased to 4.0 +/- 0.6 at week 6, and later declined slowly to 0.7 +/- 0.5 at week 54. The failure of the markers of bone turnover to normalize after 1 yr of therapy indicates an on-going high rate of bone turnover despite the attained euthyroidism. The uncoupling index (UI = z-score of U.NTx minus z-score of OC) was 7.1 +/- 1.2 before treatment, indicating unbalanced bone turnover in favor of bone resorption, and fell close to zero at week 30 of treatment. Pretreatment plasma PTH was suppressed slightly to 2.17 +/- 0.47 pmol/L and rose significantly during treatment, reaching a plateau of 5.27 +/- 0.78 at week 12. In all postmenopausal women PTH increased above the upper limit of normal (6.84 pmol/L). Pretreatment serum 25-hydroxyvitamin D was normal and remained unchanged during treatment, whereas 1,25-dihydroxyvitamin D was initially subnormal and rose to normal level after treatment. There was a significant positive linear correlation between PTH and U.NTx after week 12. PTH was also significantly correlated with ALP, but not with OC. ALP and OC were significantly correlated. A significant positive correlation was found between T3 and U.NTx, and a negative correlation was found between T3 and each of the formation markers (ALP and OC) over the 0- to 12-week interval. The latter correlations and the very high pretreatment UI indicate some inhibitory effect of the high thyroid hormone levels on the osteoblasts. The marked and sustained elevation of PTH, more pronounced in the postmenopausal women, during the first year of treatment of hyperthyroidism seems to play a pivotal role in maintaining a relatively high rate of bone turnover despite euthyroidism, and in the conservation of calcium by reducing renal calcium excretion and increasing calcium absorption (via 1,25-dihydroxyvitamin D). It may also account in part for the additional rise of the bone formation markers by an anabolic effect on the osteoblasts. Endogenous PTH may be important in the restoration of bone mineral density of treated hyperthyroid patients.
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PMID:Changes in parameters of bone and mineral metabolism during therapy for hyperthyroidism. 1072 46


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