Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020437 (hypercalcemia)
10,293 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gallium nitrate lowers the serum calcium in patients with hypercalcemia caused by malignancy and is available for clinical use. The mechanism for the hypocalcemic action is unknown, however. The present studies were undertaken to determine the effects of gallium on bone metabolism. Normal male rats were implanted subcutaneously with mineralized allogeneic bone matrix. Histomorphometry of the implants and of tibiae was determined after three doses of tetracycline administered at intervals of 1 week. Gallium as nitrate was administered daily by intraperitoneal injection at doses of 0.9, 1.8, and 3.6 mg elemental gallium per kg body weight for 21 days in one study and at 3.5 mg/kg for 33 days in a second study. All the gallium-treated rats gained weight. Rats given gallium at doses of 3.5 mg/kg or more grew at a lower rate than untreated controls (-7 and -10% at doses of 3.5 and 3.6 mg/kg, respectively; p less than 0.05). At a dose of 0.9 mg/kg, gallium did not inhibit bone resorption or lower serum calcium but inhibited bone formation by 32% and bone apposition by 36% at the endosteal surface of the tibia. At a dose of 1.8 mg/kg, gallium produced modest hypocalcemia, prevented a rise in circulating 1,25-dihydroxyvitamin D [1,25-(OH)2D], inhibited bone resorption in implants, and inhibited bone formation by 19% and bone apposition by 18%. At a dose of 3.5 mg/kg, gallium lowered the serum calcium and serum 1,25-(OH)2D, inhibited growth, and accentuated the antiresorptive and antiformative effects seen at the two lower doses.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of gallium on bone in the rat. 154 54

Gallium nitrate, a novel drug for the treatment of cancer-related hypercalcaemia, inhibits osteoclast activity but does not affect osteoclast morphology or viability. Limited clinical experience in patients with cancer-related hypercalcaemia indicates that gallium nitrate is effective in restoring normocalcaemia in 75 to 85% of patients and is well tolerated in those with preserved renal function, producing few clinically relevant adverse effects. In comparative clinical trials it proved a more effective antihypercalcaemic agent than calcitonin or etidronate and produced a longer lasting normocalcaemic response. Gallium nitrate would appear to be indicated in symptomatic patients with cancer-related hypercalcaemia who have failed to respond to adequate rehydration.
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PMID:Gallium nitrate. A review of its pharmacological properties and therapeutic potential in cancer related hypercalcaemia. 171 24

Gallium nitrate (GN) is an agent used in the treatment of hypercalcemia. To more fully characterize the direct actions of GN on bone, we examined its effects on medium calcium, medium beta-glucuronidase (beta-GLU), and collagen synthesis in control and hormone-stimulated neonatal (4-6 days) mouse calvariae in vitro. GN (10 micrograms/ml) inhibited parathyroid hormone-stimulated (PTH; 1 nM) calcium release. A 24 h preincubation with 10 micrograms/ml of GN was required for complete inhibition; partial inhibition was seen with 12 h preincubation; 1, 3, or 6 h was inadequate. A dose-response study showed that with 24 h preincubation, 5, 3, and 1 microgram/ml of GN inhibited 81, 62, and 0% of PTH-induced calcium release. The effects of GN on the release of beta-GLU generally paralleled those on the release of calcium except that 10 micrograms/ml of GN stimulated beta-GLU release. Collagen synthesis was inhibited 50% by 3 micrograms/ml of GN, whereas noncollagen protein synthesis was unaffected. With PTH + GN no further decrease was observed. When GN was withdrawn from the medium after 24 h of preincubation, the inhibitory effect on calcium release and beta-GLU activity, but not on collagen synthesis, persisted through the 72 h of culture. GN also inhibited the resorption elicited by thyroxine (1 microM) and interleukin-1 beta (10 nM) but not by 1,25-dihydroxyvitamin D3 (30 pM). Our results indicate that GN is a powerful inhibitor of bone resorption in neonatal mouse calvariae even at low doses.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Gallium nitrate inhibits bone resorption and collagen synthesis in neonatal mouse calvariae. 179 59

Hypercalcemia is a major source of morbidity and mortality in patients with cancer. Gallium nitrate and the bisphosphonate, etidronate, are new agents that have recently become available for treatment of this disorder. To directly compare therapeutic effectiveness, we conducted a randomized, double-blind, multicenter study of gallium nitrate compared with etidronate for acute control of cancer-related hypercalcemia. Gallium nitrate was administered by continuous intravenous (IV) infusion at a dose of 200 mg/m2/d. Etidronate was administered as a 4-hour IV infusion at a dose of 7.5 mg/kg. Both drugs were given daily for 5 consecutive days. Eligible patients had persistent moderate-to-severe hypercalcemia (total serum calcium [corrected for serum albumin] greater than or equal to 12.0 mg/dL) after 2 days of hospitalization and IV hydration. Seventy-one patients were randomized and treated. Twenty-eight of 34 patients (82%) who received gallium nitrate achieved normocalcemia compared with 16 of 37 patients (43%) who received etidronate (P less than .001). Patients who received etidronate required significantly greater amounts of IV fluids (P = .04) and more hypocalcemic drug treatment (P less than .05) during the poststudy period than patients who received gallium nitrate. Kaplan-Meier analysis showed a significantly longer median duration of normocalcemia for patients treated with gallium nitrate (8 days v 0 days, P = .0005). A significantly higher proportion of patients treated with gallium nitrate developed asymptomatic hypophosphatemia compared with patients treated with etidronate (97% v 43%, P less than .001). We conclude that gallium nitrate is highly effective and superior to etidronate for acute control of moderate-to-severe cancer-related hypercalcemia.
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PMID:A randomized double-blind study of gallium nitrate compared with etidronate for acute control of cancer-related hypercalcemia. 190 32

Gallium nitrate is a clinically effective agent for the treatment of cancer related hypercalcemia. The mechanism of action of this agent was investigated following development of a quantitative in vivo bone resorption assay modified from the method of Glowacki. In a preliminary study, the time course of resorption of 50 mg subcutaneous implants of bone powder in growing rats was followed by chemical analysis of mineral (ash and Ca) contents, enzymatic and histochemical assay of tartrate resistant acid phosphatase (TRAP) activity, and image analysis of changes in particle size using von Kossa stained sections. Day 21 was chosen as a single time point for the comparison of the extent of resorption of gallium-containing and control bone particles. Resorption of bone particles containing 0.39 micrograms Ga/mg bone was significantly inhibited relative to control particles. Mineral content (6.7 vs. 3.6 mg), Ca content (1.72 vs. 1.37 mg), and the percentage of the field covered by bone particles (12 vs. 9%) were greater in the animals which received gallium-containing bone particles. Similarly, the number of osteoclast-like cells and the TRAP activity in the gallium-containing bone particle implants at 21 days were increased relative to controls. These data indicate that gallium incorporation into bone matrix confers resistance to resorption.
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PMID:Bone particles from gallium-treated rats are resistant to resorption in vivo. 202 8

Gallium nitrate has been used clinically to treat cancer-related hypercalcemia. It has been suggested that gallium may reduce calcium release from bone by inhibiting bone resorption, but the mechanism(s) involved remain to be elucidated. Therefore, we have examined the effect of gallium on bone resorption in vitro using osteoclasts isolated from neonatal rat long bones cultured on slices of cortical bone. Gallium nitrate (0.01-100 micrograms/ml) produced a concentration-dependent inhibition of bone resorption. Morphological studies showed that even (100 micrograms/ml) gallium nitrate induced no light microscopical change in osteoclast morphology and did not affect their survival on bone slices. Pretreatment of bone slices with gallium nitrate (100 micrograms/ml for 18 h), followed by extensive washing also inhibited subsequent osteoclastic bone resorption. These results suggest that gallium can be adsorbed onto the calcified surface of bone and inhibit osteoclastic bone resorption.
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PMID:Gallium inhibits bone resorption by a direct effect on osteoclasts. 227 60

Intractable hypercalcemia is the major cause of morbidity and mortality in patients with parathyroid carcinoma. Because gallium nitrate previously was shown to inhibit the bone resorptive activity of parathyroid hormone (PTH) in vitro, we used it to treat two patients with parathyroid carcinoma and resistant hypercalcemia. In both patients, total serum calcium levels were reduced from initial values of 3.62 and 3.77 mmol/L to posttreatment values of 2.32 and 1.45 mmol/L, respectively. Urinary excretion of calcium and hydroxyproline also declined significantly. Serum PTH levels were lower in both patients after therapy, although all levels remained markedly elevated. Nephrogenous cyclic adenosine monophosphate and tubular reabsorption of phosphate remained unchanged. These data indicate that treatment with gallium nitrate can control hypercalcemia in patients with high circulating levels of PTH. Gallium nitrate antagonizes the bone resorptive activity of PTH without altering renal effects of the hormone.
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PMID:Gallium nitrate for treatment of refractory hypercalcemia from parathyroid carcinoma. 282 62

Gallium nitrate (GaN) reduces cancer-related hypercalcemia and inhibits bone resorption in vitro. This study investigated the effects of chronic GaN administration on bone, kidney, and parathyroid gland activity of growing rats. Experimental animals received GaN (1.75 mg elemental gallium i.p. QOD X 8, Ga+), and controls received the solvent (Ga-). In the bone of Ga+ rats the number of osteoclasts was increased (Ga+: 70.4 +/- 2.31 osteoclasts/mm2; Ga-: 46.5 +/- 1.61 osteoclasts/mm2, P less than 0.001), and apposition rate and osteoid width were unchanged. Ga was concentrated in bone (2.4 mumol/g cortical bone) and detected by electron microprobe on the surface of a few trabeculae. Alkaline (Alp) and acid (Acp) phosphatase activities were higher in Ga+ than in Ga- calvaria (Ga+: Alp 223 +/- 23.4 U/mg prot, Ga-: Alp 145 +/- 13.3 U/mg prot, P less than 0.02; Ga+: Acp 69.5 +/- 4.7 U/mg prot, Ga-: 57.5 +/- 2.8 U/mg prot, P less than 0.05). Serum iPTH was increased (Ga+: 112.9 +/- 17.6 pg/ml, Ga-: 41.4 +/- 7.4 pg/ml, P less than 0.01), serum calcium was reduced (Ga+: 2.4 +/- 0.02 mmol/l, Ga-: 2.6 +/- 0.03 mmol/l, P less than 0.001); calciuria remained comparable to controls. Relative to the hypocalcemia this suggests renal loss of Ca. The calcemic response to hPTH 1-34 (i.v. 50 micrograms/kg) was decreased 2 hours after injection of the hormone (delta Ca: TPTX Ga+: 0.11 +/- 0.04 mmol/l, Ga-: 0.33 +/- 0.03 mmol/l P less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Bone modeling in gallium nitrate-treated rats. 310 80

Gallium nitrate is the anhydrate salt of the naturally occurring heavy metal. It has demonstrated antitumor activity in a variety of murine tumor models, including Walker carcinosarcoma 256, fibrosarcoma M-89, leukemia K-1964, adenocarcinoma 755, mammary carcinoma YMC, reticulum cell sarcoma A-RCS, lymphoma P1798, and osteosarcoma 124F. Preclinical studies performed in rats, rabbits, dogs, and monkeys showed the dose-limiting toxicity to be renal. The hepatic, pulmonary, gastrointestinal, hematologic, and integumentary systems were also involved. The major route of elimination is the kidneys, with 35%-71% of the infused dose excreted within 24 hours. Three phase I studies suggested the following phase II doses: 700-750 mg/m2 by short infusion, once every 2-3 weeks; 300 mg/m2/day by short infusion for 3 consecutive days, to be repeated every 2 weeks; and 300 mg/m2/day by continuous infusion for 7 consecutive days, to be repeated every 3-5 weeks. The major organ toxicity reported was renal; however, this can be adequately controlled either by hydration and osmotic diuresis or by use of continuous schedule. (Either maneuver appears to allow delivery of the recommended phase II dose with a less than 30% risk of change in serum creatinine.) In limited phase II evaluation, the drug has shown antitumor activity in patients with either refractory lymphomas or small cell lung carcinoma, with total objective response rates of 28% and 11%, respectively. In addition, it has been effective in the treatment of patients with cancer-related hypercalcemia by having an inhibitory effect on calcium reabsorption from bone. Single-agent phase II studies are planned in all major tumor types. Some are already ongoing in patients with genitourinary malignancies (renal, bladder, prostate, testicular), small cell lung carcinoma, and multiple myeloma. Metabolic studies are in progress at Memorial Sloan-Kettering Cancer Center to further elucidate the mechanism or mechanisms of the hypocalcemic effects.
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PMID:Gallium nitrate: the second metal with clinical activity. 353 51

Current treatment of cancer-related hypercalcemia is limited by agents of limited effectiveness or excessive toxicity. Gallium nitrate is a new drug which both inhibits bone resorption and increases calcium content of bone. We have now treated 39 episodes of hypercalcemia with gallium nitrate administered as a continuous i.v. infusion for 5-7 days at 3 daily dose levels (100 and 200 mg/m2, and 50 mg/m2 by brief infusion followed by 150 mg/m2). Nadir calcium values were significantly lower (9.2 +/- 1.5 mg/dl) for patients who received the highest dose relative to patients who received the lowest dose (10.5 +/- 1.6 mg/dl, P less than 0.001). While the actual percentage of patients who achieved normocalcemia was higher at the highest dose relative to the lowest dose (86 versus 60%), this difference was not statistically significant. Mean serum concentration of inorganic phosphorous declined significantly for all patients from 2.9 +/- 0.86 mg/dl at base line to 1.8 +/- 0.66 mg/dl (P less than 0.001). Pharmacokinetic studies suggested that a threshold plasma gallium concentration of approximately 1 microgram/ml must be attained to achieve acute normalization of elevated serum calcium levels. Steady-state plasma gallium levels were attained after 48 h; there was no evidence of drug accumulation in plasma after 2 days. Effects on serum creatinine concentration were negligible, and there were no other toxic reactions. These data confirm preclinical experiments which suggested that inhibition of bone resorption by gallium nitrate is dependent upon the dose and duration of drug exposure. We conclude that gallium nitrate is effective treatment for cancer-related hypercalcemia. The drug is now being evaluated against standard treatment in a randomized, double-blind trial.
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PMID:Gallium nitrate for acute treatment of cancer-related hypercalcemia: clinicopharmacological and dose response analysis. 373 Oct 88


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