UMLS:C0151825 - FACTA Search

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Query: UMLS:C0151825 (bone pain)
3,118 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The principal pathophysiologic alteration in severe hypercalcemia accompanying hyperparathyroidism and malignancy is enhanced osteoclastic bone resorption. Hypercalcemia impairs renal mechanisms that lead to sodium and calcium excretion; PTH and PTHrP acting on renal tubules enhance further calcium reabsorption. Although rehydration is often necessary as an initial therapy of hypercalcemia, the cornerstone of therapy is to inhibit osteoclastic bone resorption. The bisphosphonates, plicamycin, gallium, and calcitonin all inhibit osteoclastic bone resorption. Calcitonin is the most rapidly acting agent. Toxicities of calcitonin are minimal, yet its therapeutic efficacy is limited by lack of potency and tachyphylaxis. The second-generation bisphosphonates such as pamidronate represent a class of compounds that are extremely effective in inhibiting the metabolic function of the osteoclast. Given in a single infusion, a significant majority of patients will have normalization of corrected serum calcium lasting, on average, 1-2 weeks. Therapeutic benefit will be of greater duration because most patients remain only minimally symptomatic until corrected serum calcium rises above 11.5 mg/dL. Side effects of low-grade fever, hypophosphatemia, hypomagnesemia, and hypocalcemia may occur. Gallium nitrate is a potent inhibitor of bone resorption and may be of increased clinical value when more efficient administration protocols can be developed. Plicamycin, available for two decades, has cumulative toxicities and is less potent than the aminobisphosphonates. Renal insufficiency often accompanies severe hypercalcemia. The nephrotoxicity of gallium nitrate and plicamycin should preclude their use when there is moderate impairment of renal function, and amino bisphosphonates become the treatment of choice in these patients. Although several authors have advocated individualized approaches to the management of hypercalcemia, the potency and duration of action of the aminobisphosphonates make them a reasonable treatment choice for most patients with symptomatic hypercalcemia. Most importantly, the most effective therapy for hypercalcemia is to recognize and treat the underlying disease. Acute primary hyperparathyroidism requires surgery. The effective treatment of hypercalcemia of malignancy allows the introduction of tumor-specific therapy, limits morbidity, and shortens and deintensifies hospitalization. At times, the most appropriate and compassionate decision (particularly in patients with malignancy who have exhausted all therapeutic options and have relentless bone pain) is to withhold therapy for hypercalcemia. Future therapies directed at the osteoclast, such as more potent later-generation bisphosphonates; inhibitors of osteoclast attachments and inhibitors of peptides, which stimulate osteoclastic bone resorption, may permit safe, easily administered, outpatient therapies that will improve the quality of life for hypercalcemic patients.
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PMID:Pathophysiology and management of severe hypercalcemia. 832 91

For proper use of systemic GCS, a basic knowledge of the normal HPA axis, as well as knowledge of the pharmacology, clinical usage guidelines, and adverse reactions of these agents is imperative. Both short-term (acute) and long-term side effects should be well known by the physician. The pros and cons of oral and parenteral therapy for various disorders and in various situations should be recognized. For long-term therapy, an intermediate-acting agent such as prednisone in single, early morning doses is most commonly used to minimize suppression of the HPA axis. Alternate-morning doses produce even less suppression if the disease process will respond. A through patient history, including general medical history and medications the patient is taking, is important to anticipate any potential problems. Weight and blood pressure should be checked initially and every 1 to 3 months thereafter. Blood glucose, electrolytes, and lipid studies, including triglycerides, should be done approximately every 6 months. An ophthalmology examination should be performed every year, and stool examination for occult blood and chest radiography can be obtained as indicated. Bone density studies might be necessary in patients who are at high risk for osteoporosis. Specific acute situations may dictate other studies. The patient on long-term GCS should be kept as active as possible, as mild-to-moderate exercise helps prevent certain side effects, such as osteoporosis. The dose of oral GCS is best given with food to prevent gastrointestinal irritation, and agents to decrease gastric acidity might be needed in certain situations. Exposure to infections should be prevented, where possible, and treatment initiated at the first sign of systemic or cutaneous infection. Pain should be evaluated early, especially abdominal pain or bone pain; MRI is indicated if aseptic necrosis of bone is suspected. Both trauma and severe sun exposure should be avoided. Consultation with other specialists is strongly recommended when the situation dictates. Diet is one of the most important strategies to minimize side effects from long-term GCS therapy. Vegetable protein should be increased in the diet, and fats and carbohydrates limited. Adequate calcium is imperative, and calcium supplementation is recommended for high-risk osteoporosis patients. Small amounts of vitamin D may be necessary to increase absorption of calcium. Restriction of sodium is also important, as is maintainance of dietary potassium. Supplemental potassium may be necessary in some patients, and a thiazide diuretic might be useful in patients with hypertension, edema, or osteoporosis. Vitamin C can be given to promote wound healing. A good doctor-patient relationship is important in managing the patient on long-term GCS. The patient must return for regular visits and be encouraged to promptly report any adverse reactions to the physician. If these criteria are maintained and the strategies noted previously are followed, problems from long-term therapy with GCS will be minimized.
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PMID:Minimizing complications from systemic glucocorticosteroid use. 878 96

The rationale for and efficacy of bisphosphonates for pain due to cancer that has metastasized to bone are reviewed. Typical strategies for controlling metastatic bone pain have consisted of opioids, nonsteroidal anti-inflammatory drugs, surgery to stabilize bone, cancer chemotherapy, radiation therapy, and radiopharmaceuticals. Cancer metastasis to bone can produce pain through the release of prostaglandins, bradykinin, substance P, and histamine; growth of tumor into surrounding tissue; stretching of the periosteum; and pathological fractures. It has been suggested that bisphosphonates can benefit these patients by decreasing the amount of pain or decreasing analgesic requirements. Bisphosphonates bind to hydroxyapatite crystals, making it more difficult for osteoclasts to recognize exposed unmineralized bone surfaces, and are directly toxic to osteoclasts. Etidronate disodium, pamidronate disodium, clodronate disodium, and alendronate sodium are bisphosphonates that have been studied in patients with painful bone metastases. Although each of these has shown at least some benefit, the most promising agent appears to be pamidronate, especially the i.v. formulation given monthly. Although oral formulations of this agent have been studied, poor bioavailability and adverse effects limit their usefulness. Adverse effects of bisphosphonates include GI reactions, impairment of renal function, anemia, and electrolyte abnormalities. Bisphosphonates are of some benefit in relieving metastatic bone pain, but the exact role, agent, route, and duration are issues that need further study.
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PMID:Bisphosphonates for controlling pain from metastatic bone disease. 886 2

Sodium clodronate is effective in the management of osteolytic lesions, hypercalcaemia and bone pain associated with skeletal metastasis. Clinical and biochemical data underpin a licensed total daily dose of 1600-3200 mg.
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PMID:Bioavailability of two clodronate formulations. 887 4

For virtually all asymptomatic postmenopausal women, moderate exercise and supplementation with calcium and vitamin D are recommended. In addition, most postmenopausal women without contraindications would benefit from estrogen replacement therapy, primarily because of its cardiovascular benefits. In patients with contraindications or an aversion to hormone therapy, bone densitometry should be performed to determine risks before expensive nonhormonal treatment is initiated. Therapy with alendronate sodium (Fosamax) or calcitonin (Calcimar, Miacalcin) is clearly indicated in women with established osteoporosis and may be appropriate for early postmenopausal women with osteopenia. Calcitonin is a good option in patients with disabling spinal bone pain. Slow-release sodium fluoride, although still considered experimental, may eventually be given for vertebral fracture in patients with mild to moderate disease.
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PMID:Osteoporosis. Current pharmacologic options for prevention and treatment. 900 93

Rhenium-188 (beta- = 2.2 MeV; gamma = 155 keV; T1/2 16.9 hours) is an attractive therapeutic radioisotope which is produced from decay of the reactor-produced tungsten-188 parent (T1/2 69 days) and thus conveniently obtained on demand by elution from the alumina-based tungsten-188 /rhenium-188 generator system. The rhenium-188 is obtained as sodium perrhenate by elution of the generator with 0.9% saline. The post elution use of disposable tandem, ion-exchange columns is a simple method for the concentration of rhenium-188 saline solutions with specific volumes > 500 mCi/ml. This method can also extend the useful shelf-life of the generator, which can be as long as one year. The long useful shelf-life of the generator is expected to provide rhenium-188 at very reasonable costs for routine preparation of a variety of radiopharmaceuticals for the treatment of a variety of cancers including breast cancer. We are evaluating two types of Re-188-labeled agents under investigation which have potential for the treatment of breast cancer. Rhenium-188-labeled hydroxyethylidenediphosphonate (HEDP) and Re-188-dimercaptosuccinic acid (DMSA) are being applied for palliative treatment of pain associated with skeletal metastases, and the Re-188-RC-160 somatostatin analogue [cyclic NH2-(D)-Phe-Cys-Try-(D)-Trp-Lys-Val-Cys-Trp-NH2] for somatostatin-receptor-positive tumors. The results of initial clinical studies with the two bone pain agents demonstrate good targeting to skeletal metastases, and use of Re-188-HEDP has resulted in pain palliation with minimal bone marrow suppression in the initial patient studies. While these initial studies have been conducted in patients with prostate cancer, similar results are expected in planned studies in breast cancer patients. In animal studies, Re-188-RC-160 has been successfully used for the local/regional treatment of experimental breast cancer and other cancers. Re-188-RC-160 binds to somatostatin-receptor-positive cells both in vitro and in vivo, including breast cancer cells (ZR-75-1 breast carcinoma and NCI-H69 human small cell ling carcinoma), but not to binding-negative cells (Raji, Burkitt's lymphoma). A structurally similar Re-188-cyclic peptide with different binding specificity (CTOP [cyclic NH2-(D)-Phe-Cys-Try-(D)-Trp-Orn-Thr-Pen-Thr-ol]; an opiate-receptor antagonist) did not bind to target cells. Both gentisic acid and ascorbic acid are present in the Re-188-HEDP and Re-188-RC-160 formulations, and have been found to also significantly reduce radiolytic degradation of the somatostatin peptide analogues, and may have general application in the stabilization of Re-188-labeled radio-pharmaceuticals.
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PMID:Availability of rhenium-188 from the alumina-based tungsten-188/rhenium-188 generator for preparation of rhenium-188-labeled radiopharmaceuticals for cancer treatment. 917 35

Hydroxyurea increases fetal haemoglobin in many patients with sickle cell anaemia, but its effectiveness in thalassaemia appears to be less consistent. We describe the response to hydroxyurea in an adult male with homozygous beta thalassaemia, symptomatic paraspinal extramedullary haemopoiesis, bone pain, and progressive tissue iron loading. Prior to therapy with hydroxyurea the circulating haemoglobin (Hb) concentration was 7.0 g/dl and absolute fetal haemoglobin concentration was 5.0 g/dl. Administration of sodium phenylbutyrate had induced no increase in either parameter. Subsequent therapy with hydroxyurea was associated with increases in total haemoglobin to 9.0 g/dl, and in fetal haemoglobin to 7.6 g/dl. Ineffective erythropoiesis was reduced and extramedullary haemopoiesis regressed during therapy.
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PMID:Regression of extramedullary haemopoiesis and augmentation of fetal haemoglobin concentration during hydroxyurea therapy in beta thalassaemia. 963 80

Fluorides salts are used in the treatment for osteoporosis for 30 years, since their anabolic action on trabecular bone is well documented, but safety and efficacy of this treatment is still debated. Fluoride administration results in increased number and level of activity of osteoblasts leading to thicker trabeculae. The highest fluoride concentration and activity can be found within newly formed osteoid. Recommended dose is 15-25 mg per day, that is 33-55 mg of sodium fluoride or 140-190 of Na2FPo3. Calcium and vitamin D should be prescribed to all patients concurrently. Most frequent side effects include bone pain and dyspeptic problems.
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PMID:[The use of fluoride in the treatment of osteoporosis]. 973 72

Mastocytosis comprises several diseases characterized by an abnormal increase in tissue mast cells. Cutaneous mastocytosis (CM) is the most common form of mastocytosis, affects predominantly children, and presents as a mast cell hyperplasia limited to the skin. Systemic mastocytosis (SM) comprises multiple distinct entities in which mast cells in filtrate the skin and/or other organs. The diagnosis of SM is based on the presence of one major criterion and one minor criterion or three minor criteria. Major criteria include the presence of multifocal dense infiltrates of > 15 mast cells in bone marrow and/or other extracutaneous organs. Four minor criteria include the presence of elevated serum alpha-tryptase levels > 20 ng/mL, the expression of CD2 and CD25 surface markers in c-kit-positive mast cells from bone marrow or other organs, the presence of a c-kit mutations on bone marrow and/or other tissues mast cells, and the presence of > 25% abnormal spindle-shaped mast cells in bone marrow and/or tissues. Symptoms of CM include pruritus, flushing urticaria, and dermatographism. Symptoms of SM include cutaneous symptoms in association with syncope, gastric distress, nausea and vomiting, diarrhea, bone pain, and neuropsychiatric symptoms. Activating and nonactivating mutations of c-kit (Asp816Val) are seen in adult SM and in some pediatric CM (Gly839Lys), indicating a clonal dysregulation. There is no cure for mastocytosis but the majority of pediatric CM regress at puberty. Women with mastocytosis are fertile and pregnancy and delivery have been successful by blocking mast cell-mediated symptoms. Symptomatic treatment aimed at reducing the effect of mediators is effective with antihistamines and mast cell-stabilizing agents such as sodium cromolyn. To reduce mast cell burden, interferon alpha, steroids, and purine analogs have been used with varying results. Future directions include tyrosine kinase inhibitors and bone marrow transplant.
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PMID:Mastocytosis: classification, diagnosis, and clinical presentation. 1505 60

Systemic mastocytosis (SM), as opposed to cutaneous-only mastocytosis, implies the presence of neoplastic mast cell infiltration in extracutaneous tissue. Mast cell disease in adults is often systemic and often involves the bone marrow. Typical clinical and laboratory features of SM include urticaria pigmentosa, mast cell mediator symptoms (eg, headache, flushing, lightheadedness, urticaria and pruritus, nausea, diarrhea, abdominal pain, and vasodilatory shock), bone pain (eg, osteoporosis, lytic bone lesions, and fractures), hepatosplenomegaly, cytopenia, eosinophilia, elevated serum tryptase and histamine, and bone marrow fibrosis and angiogenesis. SM may be indolent (no evidence of organ dysfunction), aggressive (presence of organ dysfunction), associated with another often chronic myeloid hematologic disease (SM-AHD), or present as mast cell leukemia or sarcoma. Mast cell-mediator symptoms are treated with histamine antagonists and cromolyn sodium. Indolent SM does not require cytoreductive therapy. Aggressive SM and SM-AHD are managed based on their molecular profile. Recent information suggests that FIP1-like-1-platelet-derived growth factor receptor-alpha(+) SM responds well to imatinib mesylate, whereas interferon-alpha should be considered as a first-line treatment in all of the other cases, including patients with Asp816Val(+) SM. Cladribine has been shown to be effective in patients who develop resistance to interferon treatment.
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PMID:Systemic mastocytosis: current concepts and treatment advances. 1508 68

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