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Query: CAS:66376-36-1 (Alendronate)
 536 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The purpose of this overview is to provide a summary of recent data on the clinical safety and efficacy of alendronate sodium, an amino-bisphosphonate that is a potent and specific inhibitor of osteoclast mediated bone resorption, in the treatment of osteoporosis in postmenopausal women. Published data are available from two randomized, placebo-controlled, double-blind clinical trials of 2-year duration in over 470 patients with postmenopausal osteoporosis. The women studied were 4 to 5 years postmenopause, ages 42 to 76, with osteoporosis defined on the basis of low spine bone mineral density (BMD). Percent change in spine BMD was the primary endpoint; hip and total body BMD were secondary outcomes. In the Dose Ranging Study, alendronate 5 and 10 mg/day for 2 years significantly increased lumbar spine BMD by approximately 7.2%, which did not differ from patients receiving higher doses. Total hip BMD increased by 3.6 and 5.3%, respectively, with the 5 and 10 mg doses; 10 mg was significantly more effective than 5 mg. Placebo patients lost 1.2-1.4% BMD at these sites. Total body BMD also significantly increased with alendronate. In the Calcitonin Comparison Study, alendronate 10 and 20 mg/day for 2 years significantly increased spine and hip BMD; 100 IU of intranasal salmon calcitonin did not increase BMD at any site, and did not differ from placebo. Alendronate reduced bone turnover to a new steady state, as assessed by biochemical markers and was well tolerated. Preliminary reports indicate that alendronate progressively increases spine, hip, and total body bone mass for 3 years, with associated significant reductions in vertebral fractures, stature loss, and non-vertebral fractures.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:An overview of the results of clinical trials with alendronate, a promising treatment of osteoporosis in postmenopausal women. 856 61

The main objective of this study was to determine the effect of daily oral alendronate treatment on bone mass in postmenopausal women affected by osteoporosis. The efficacy of intranasal salmon calcitonin was also examined. Nine centers in Italy enrolled 286 postmenopausal women between the ages of 48 and 76 with spinal bone mineral density > or = 2 SD below adult mean peak in the two-year, double-blind, randomized, placebo-controlled trial. Patients were randomized to one of four treatment arms: double-blind placebo, alendronate 10 mg/day, alendronate 20 mg/day, or open-label intranasal salmon calcitonin 100 IU/day; all patients received 500 mg Ca++ supplements. Bone mass was measured by dual-energy x-ray absorptiometry every six months for two years. Patients who received alendronate 10 or 20 mg experienced significant increases in bone mass at all sites measured. At the end of the second year, the mean percent changes, for alendronate 10 and 20 mg relative to placebo, were 5.2% and 7.3% at the lumbar spine, 3.8% and 4.6% at the femoral neck, and 7.1% and 7.5% at the trochanter, respectively. In contrast, intranasal salmon calcitonin failed to increase bone mineral mass significantly at any site. Both alendronate doses significantly decreased serum alkaline phosphatase, serum osteocalcin, and urinary pyridinolines, markers of bone turnover, whereas placebo and intranasal calcitonin did not. Alendronate was generally well tolerated and no serious adverse events were attributed to its use.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of oral alendronate and intranasal salmon calcitonin on bone mass and biochemical markers of bone turnover in postmenopausal women with osteoporosis. 857 12

Alendronate is an aminobisphosphonate which appears to attenuate, rather than completely inhibiting bone turnover, by suppressing the activity of osteoclasts. Clinical trials have established that 10 mg/day orally administered alendronate is the optimum dosage. Despite its poor bioavailability after oral administration, alendronate is highly effective at preventing bone loss associated with the absence of endogenous estrogen. A sustained increase in bone mass was observed during alendronate therapy without accelerated loss after withdrawal of the drug. Increased bone mass was associated with a reduction in the risk and rate of occurrence of vertebral fractures. A recent study demonstrated a 47% reduction in the risk of developing new radiographic vertebral fractures over 3 years in women with low bone mass and pre-existing vertebral fractures. There have been few direct comparisons in clinical trials. However, when compared with calcium or low dosages of salmon calcitonin (salcatonin) therapy in women with postmenopausal osteoporosis, alendronate induced a sustained increase in bone mass during therapy that was not seen with the comparator. In clinical trials alendronate was generally well tolerated when taken as recommended. Adverse events tended to be transient and usually associated with the upper gastrointestinal tract; the most common events included abdominal pain, nausea, dyspepsia, constipation and diarrhoea, which are also common with other bisphosphonates. Of potential concern are the small number of reports of patients developing oesophageal ulceration; however, this adverse event was attributed to noncompliance with the manufacturer's recommendations for administration of the drug. In addition, alendronate has not been associated with osteomalacia. Studies are still required to establish the long term efficacy of alendronate, particularly with regard to other available therapies. Although estrogen replacement therapy is generally considered the treatment of choice for the management of postmenopausal osteoporosis, many women are unable or unwilling to receive estrogens on a long term basis. Thus, alendronate, with its demonstrated beneficial effects and its good tolerability profile (when taken as recommended), is a promising alternative treatment option for the management of postmenopausal osteoporosis.
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PMID:Alendronate. A review of its pharmacological properties and therapeutic efficacy in postmenopausal osteoporosis. 907 43

Alendronate, an aminobisphosphonate used in the treatment of osteoporosis, is a potent inhibitor of bone resorption. Its mechanism of action is unknown. Because it localizes to bone surfaces, we compared the sensitivity of components of the resorptive process to incubation on alendronate-coated bone surfaces. We found that bone resorption by osteoclasts isolated from neonatal rat bone was unaffected by alendronate (10(-4) M). Osteoclast production in bone marrow cultures, as assessed by the production of calcitonin-receptor positive cells, was observed even at 10(-4) M, but bone resorption in these cultures was almost completely abolished by 10(-5) M alendronate. The greater sensitivity of osteoclast activation to inhibition by alendronate that these results suggest was supported by similar inhibition of osteoblast-mediated activation of osteoclasts from neonatal rat bone. Thus, activation of osteoclasts by osteoblastic/stromal cells is apparently the most sensitive component of the pathway whereby bone resorption is affected. Moreover, the ability of alendronate to suppress osteoclastic activation does not depend on resorption-mediated release of alendronate from bone surfaces. This ability extends the range of cell types and processes that might be affected by alendronate, beyond those in the immediate vicinity of resorbing cells, to include any cell that comes into contact with alendronate-coated bone surfaces.
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PMID:Osteoclast activation: potent inhibition by the bisphosphonate alendronate through a nonresorptive mechanism. 920 28

Osteoporosis is the most frequent metabolic condition experienced by elderly individuals. It is characterised by a low bone mass and microarchitectural deterioration of bone tissue leading to an increase in bone fragility and susceptibility to fracture. Osteoporosis constitutes a significant financial burden for health services as well as a source of pain and disability and a cause of a decrease in the quality of life for patients with the condition. Effective therapy for osteoporosis is, therefore, urgently needed. Currently, a number of different therapeutic approaches exist that have more or less proven positive effects on the incidence of fractures, for example estrogen replacement therapy, calcitonin, fluoride salts, calcium plus vitamin D supplementation and the first-generation bisphosphonate etidronate (etidronic acid). Alendronate (alendronic acid) is an alkylaminobisphosphonate with a very potent antiresorptive capability. In contrast to etidronate, alendronate possesses an excellent ratio between its potency for inhibiting bone resorption and its potency for impairing bone formation. In addition, no case of focal or generalised osteomalacia has so far been observed with alendronate. The bioavailability of oral alendronate is poor and the agent has to be taken in a fasting state, at least 30 minutes before breakfast, with a full glass of water. Alendronate has demonstrated its ability to increase bone mass significantly above the placebo values at any studied skeletal site in a wide variety of patient subgroups regardless of age, race, baseline rate of bone turnover or baseline bone mineral density. Alendronate is the only medication with a demonstrated positive effect on symptomatic and asymptomatic vertebral fracture rate, as well as on nonvertebral fracture rate. In clinical trials, alendronate was generally well tolerated and no significant clinical or biological adverse experiences were observed. However, postmarketing data have included reports of oesophageal lesions compatible with the diagnosis of alendronate-induced chemical oesophagitis, in around 1% of patients taking the agent. However, in the vast majority of cases alendronate tablets had been taken incorrectly. Therefore, with proper use, that is, use complying with the manufacturers administration recommendations, this potentially dangerous complication should be minimised and should not outweigh the overall positive benefit of alendronate in the prevention of fractures.
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PMID:A risk-benefit assessment of alendronate in the treatment of involutional osteoporosis. 970 50

In summary, the clinical efficacy studies provide clear evidence that treatment with oral alendronate markedly suppresses bone turnover and produces clinical improvement in pagetic patients. Serum alkaline phosphatase was greatly decreased by treatment, and the response to alendronate was superior to that observed for currently available therapies such as etidronate and calcitonin, which usually reduce alkaline phosphatase, on average, by 40%-50%. Alendronate also markedly reduced urinary resorption markers and induced radiologic improvement of pagetic osteolysis. A majority of alendronate-treated patients normalized their serum alkaline phosphatase by month 6. This observation is likely to be relevant to the duration of response to treatment, as previous studies have shown that the degree of suppression of alkaline phosphatase after antiresorptive treatment correlates with the duration of remission. Therefore, patients who responded to treatment with alendronate, especially those who normalized their alkaline phosphatase levels, are likely to maintain the biochemical remission for several years. Indeed, preliminary unpublished data seem to indicate that alendronate is capable of producing long-term biochemical remission in the majority of patients. In addition to its efficacy, the safety and tolerability profile of alendronate 40 mg/day was very favorable and, overall, comparable to that of placebo.
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PMID:Treatment of Paget's disease of bone with alendronate. 1032 31

In the past years, there has been a multiplication of drugs identified as candidates for use in the prevention or the treatment of osteoporosis. When treating established osteoporosis, the objective is to prevent further skeletal deterioration, improve bone mass and/or bone microarchitecture to provide a documented reduction of the risk of vertebral and/or peripheral fractures. Calcium and vitamin D have been shown to be particularly efficient in elderly patients, mainly to prevent non-vertebral fractures. By inhibiting osteoclastic activity, calcitonin improves bone mineral density at all sites. Preliminary results suggest that it might also decrease vertebral fracture rates. Bisphosphonates have been investigated for 20 years in the treatment of osteoporosis. Alendronate was shown to reduce spinal and extravertebral fractures. New formulations of fluoride, like monofluorophosphate appear to be particularly beneficial in women with mild to moderate osteoporosis. Several new compounds, including parathormone, strontium salts, ipriflavone or others are currently developed and subject to large investigational programs to demonstrate their ability to reduce fracture.
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PMID:Treatment of osteoporosis: where are we and where are we going to. 1054 35

This study compared the effects of oral alendronate and intranasal calcitonin for treatment of osteoporosis in postmenopausal women. Women at least 5 yr postmenopause (n = 299) were randomized to either 10 mg alendronate, matching alendronate placebo, or open-label intranasal calcitonin 200 IU daily for 12 months. Hip and spine bone mineral density (BMD) and markers of bone turnover were measured, and safety and tolerability were assessed. Alendronate produced greater increases in BMD than calcitonin at 12 months at the lumbar spine (5.16% vs. 1.18%; P < 0.001), trochanter (4.73% vs. 0.47%; P < 0.001), and femoral neck (2.78% vs. 0.58%; P < 0.001). Changes in BMD with calcitonin were greater than with placebo at the femoral neck, but were not different from placebo at either the trochanter or lumbar spine. Greater decreases in bone turnover were seen with alendronate than with calcitonin (serum bone-specific alkaline phosphatase, 43% vs. 9%, P < 0.001; urinary N-telopeptide, 62% vs. 11%, P < 0.001). Similar percentages of patients in each group reported an adverse experience during the study. We conclude that, in postmenopausal women with osteoporosis, 12 months of therapy with alendronate produced significantly greater increases in BMD of the hip and spine and greater decreases in bone turnover than intranasal calcitonin.
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PMID:Comparison of alendronate and intranasal calcitonin for treatment of osteoporosis in postmenopausal women. 1084 52

Women who have had breast cancer may be at higher risk for osteoporosis than other women. First, they are more likely to undergo early menopause, due to chemotherapy-induced ovarian failure or oopherectomy. In addition, chemotherapy may have a direct adverse effect on bone mineral density (BMD), and osteoclastic activity may increase from the breast cancer itself. While estrogen therapy is considered standard for the prevention and treatment of osteoporosis, use of estrogen in women with a history of breast cancer is usually contraindicated. The approach to osteoporosis in women with breast cancer is also affected by the use of tamoxifen in many, as this drug appears to have opposite effects on BMD in premenopausal and postmenopausal women. We have reviewed therapeutic alternatives for the prevention and treatment of osteoporosis, focusing on patients with a history of breast cancer. Alendronate and raloxifene are currently approved in the United States for the prevention of osteoporosis; alendronate, raloxifene, and calcitonin are approved for treatment. Alendronate has the greatest positive effect on BMD and reduces the incidence of vertebral and nonvertebral fractures. Raloxifene and calcitonin appear to reduce the incidence of vertebral fractures; their effects on the incidence of nonvertebral fractures are not yet proven. Although no published studies specifically address the use of these approved agents for osteoporosis in women with breast cancer, understanding their relative effects on BMD in postmenopausal women in general will facilitate therapy selection in this population. Postmenopausal women with a history of breast cancer should undergo bone mineral analysis. Normal results and absence of other risk factors ensure that calcium and vitamin D intake are adequate. If osteopenia or other risk factors are present, preventive therapy with alendronate or raloxifene should be considered. For osteoporosis, treatment with alendronate should be strongly considered. Raloxifene and calcitonin are alternatives when alendronate is contraindicated. Further studies are needed to evaluate the optimal timing of initial bone mineral analysis in premenopausal women after breast cancer diagnosis and to determine the value of preventive treatment in women scheduled to undergo chemotherapy.
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PMID:Prevention and treatment of osteoporosis in women with breast cancer. 1094 37

Bisphosphonates are safe and effective agents for treatment and prevention of osteoporosis. Alendronate and risedronate are the best studied of all agents for osteoporosis in terms of efficacy and safety. They increase bone mass. In patients who have established osteoporosis, they reduce the risk of vertebral fractures. They are the only agents shown in prospective trials to reduce the risk of hip fractures and other nonvertebral fractures. They are approved by the US FDA for prevention of bone loss in recently menopausal women, for treatment of postmenopausal osteoporosis, and for management of glucocorticoid-induced bone loss. Other bisphosphonates (e.g., etidronate for oral use, pamidronate for intravenous infusion) are also available and can be used off-label for patients who cannot tolerate approved agents. Bisphosphonates combined with estrogen produce greater gains in bone mass compared with either agent used alone; whether there is a greater benefit of combination therapy on fracture risk is not clear. Combining a bisphosphonate with raloxifene or calcitonin is probably safe, although data on effectiveness are lacking.
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PMID:Treatment of osteoporosis with bisphosphonates. 1128 96


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