Bisphosphonate treatment of osteoporosis

Bisphosphonates represent the agents of choice for most patients with osteoporosis. They are the best studied of all agents for the prevention of bone loss and reduction in fractures. They increase BMD, primarily at the lumbar spine, but also at the proximal femur. In patients who have established osteoporosis, bisphosphonates reduce the risk of vertebral fractures, and are the only agents in prospective trials to reduce the risk of hip fractures and other nonvertebral fractures. Bisphosphonates reduce the risk of fracture quickly. The risk of radiographic vertebral deformities is reduced after 1 year of treatment with risedronate [68]. The risk of clinical vertebral fractures is reduced after 1 year of treatment with alendronate [69] and just 6 months' treatment with risedronate [157]. The antifracture effect of risedronate has been shown to continue through 5 years of treatment [158]. Alendronate and risedronate are approved by the FDA for prevention of bone loss in recently menopausal women, for treatment of postmenopausal osteoporosis, and for prevention (risedronate) and treatment (alendronate and risedronate) of glucocorticoid-induced osteoporosis. Alendronate is also approved for treatment of osteoporosis in men. Other bisphosphonates (etidronate for oral use, pamidronate and zoledronate for intravenous infusion) are also available and can be used off label for patients who cannot tolerate approved agents. Although bisphosphonates combined with estrogen or raloxifene produce greater gains in bone mass compared with single-agent treatment, the use of two antiresorptive agents in combination cannot be recommended because the benefit on fracture risk has not been demonstrated and because of increased cost and side effects.     

Prevention and treatment strategies for glucocorticoid-induced osteoporotic fractures

Glucocorticoids are the most common cause of drug-related osteoporosis. We reviewed current evidence on risk factors for glucocorticoid-induced osteoporosis (GIOP) and prevention and treatment of GIOP-related fractures. Guidelines for GIOP management published since 2000 were also reviewed. Significant bone loss and increased fracture risk is seen with daily prednisone doses as low as 5 mg. Alternate-day glucocorticoid therapy can lead to similar bone loss. No conclusive evidence exists for a safe minimum dose or duration of glucocorticoid exposure. Physicians should consider risk factors for involutional osteoporosis such as older age, postmenopausal status, and baseline bone density measurements as they assess patients for prevention or treatment of GIOP. Bisphosphonates were reported to reduce GIOP-related vertebral fractures, but inconclusive data exist for hip fractures associated with glucocorticoid use. Hormone replacement therapy and parathyroid hormone analogs are effective in preserving bone density in GIOP. The risk of osteoporosis and fractures should be routinely assessed in patients receiving glucocorticoid therapy. Effective prevention and treatment options are available and can result in meaningful reduction of GIOP-related morbidity and mortality. Current guidelines for GIOP management recommend bisphosphonates, especially alendronate and risedronate, as first-line agents for GIOP, and these guidelines propose the preventive use of bisphosphonates early in the course of glucocorticoid therapy in high-risk patient subgroups.     

Calcitonin.

Calcitonin is FDA approved for the treatment of postmenopausal osteoporosis but not for prevention. The preferred delivery system is nasal. Nasal calcitonin is safe and well tolerated. The vertebral fracture efficacy of calcitonin is less robust than the two approved bisphosphonates (alendronate and risedronate) but is similar to raloxifene in the treatment of established osteoporosis. Calcitonin has not been demonstrated to reduce hip fracture risk, although a post-hoc pooled analysis suggests potential effectiveness of nasal calcitonin. Calcitonin produces small increments in bone mass of the spine and modestly reduces bone turnover in women with osteoporosis. Calcitonin may have analgesic benefit in patients with acute painful vertebral fractures. Treatment with calcitonin should be considered for older women with osteoporosis with painful vertebral fractures and for women who fail to respond to or cannot tolerate bisphosphonates. Calcitonin may also be indicated for women who are unable to take bisphosphonates because of impaired renal function.     

Post-transplantation osteoporosis.

Osteoporosis is prevalent in transplant recipients and is related to pre- and post-transplantation factors. Low bone density and fractures may antedate transplantation, related to traditional risk factors for osteoporosis, effects of chronic illness, and end-stage organ failure and its therapy, on the skeleton. Bone loss after transplantation is related to adverse effects of immunosuppressive drugs (glucocorticoids and calcineurin inhibitors) on bone remodeling. Newer immunosuppressive medications may permit lower doses of glucocorticoids and may be associated with decreased bone loss and fractures. Bisphosphonates are currently the most effective agents for the prevention and treatment of post-transplantation osteoporosis.     

The role of zoledronic acid in the management of osteoporosis

Bisphosphonates are the current standard of care for treatment of osteoporosis. However, oral bisphosphonates are associated with complicated dosing regimens because of poor absorption and have the potential for upper gastrointestinal (GI) tract irritation, resulting in poor adherence and persistence. Zoledronic acid (ZOL) 5 mg, a once-yearly intravenous bisphosphonate, is approved for treatment and prevention of postmenopausal osteoporosis, increasing bone mass in men with osteoporosis, and treatment and prevention of glucocorticoid-induced osteoporosis. Because it is administered as an infusion, ZOL ensures adherence and persistence over the entire 12-month dosing interval and bypasses the GI absorption/irritation problems associated with oral bisphosphonates. The objective of this study was to review the safety and efficacy of 5 mg ZOL and its potential for improving patient compliance. Published reports dating back to 2001 were reviewed, with emphasis on osteoporosis treatment. In the HORIZON-Pivotal Fracture Trial, annual infusions of 5 mg ZOL produced significant reductions in risk of morphometric vertebral fractures (70%) and hip fractures (41%) vs placebo over 3 years in postmenopausal women with osteoporosis. In the HORIZON-Recurrent Fracture Trial, an annual infusion of 5 mg ZOL after repair of a recent low-trauma hip fracture was associated with significant reductions in risk for new clinical fractures (35%) vs placebo. In men with osteoporosis, an annual treatment of ZOL over 2 years increased lumbar spine bone mineral density (BMD) by 6% compared with baseline. In patients starting or continuing treatment with chronic glucocorticoids, ZOL resulted in significantly greater increases in lumbar spine BMD over 1 year than an oral bisphosphonate. In postmenopausal women with osteopenia, a single infusion of ZOL over a 2-year period produced significantly greater gains in lumbar spine and hip BMD than placebo. ZOL is generally safe and well tolerated. Five milligrams of ZOL has the potential to improve compliance with osteoporosis therapy and, consequently, to reduce fracture risk in clinical practice.     

Bisphosphonates

Osteoporosis is the result of bone loss due to an imbalance in bone turnover such that bone resorption exceeds bone formation. Bisphosphonates are potent inhibitors of osteoclast activity that reduce bone turnover and re-establish the balance between bone resorption and formation. In clinical studies, several bisphosphonates prevent bone loss, preserve bone structure, improve bone strength and, in patients with osteoporosis, substantially reduce fracture risk. They are effective in multiple clinical settings including postmenopausal osteoporosis, low bone mass in men and drug-induced bone loss. Intermittent oral dosing and intravenous administration are more convenient than the original daily dosing regimen. These drugs are generally well tolerated and have an excellent safety profile in that serious side effects are uncommon. Potent bisphosphonates are generally the preferred treatment option for most patients with or at risk for osteoporosis.     

Anabolic skeletal therapy for osteoporosis

Antiresorptive agents for osteoporosis are a cornerstone of therapy, but anabolic drugs have recently widened our therapeutic options. By directly stimulating bone formation, anabolic agents reduce fracture incidence by improving bone qualities besides increasing bone mass. In this article, we review the role of anabolic treatment for osteoporosis. The only anabolic agent currently approved in the United States for osteoporosis, teriparatide [recombinant human parathyroid hormone(1-34)], has clearly emerged as a major approach to selected patients with osteoporosis. Teriparatide increases bone density and bone turnover, improves microarchitecture, and changes bone size. The incidence of vertebral and nonvertebral fractures is reduced. Teriparatide is approved for both postmenopausal women and men with osteoporosis who are at high risk for fracture. Other potential anabolic therapies for osteoporosis, including other forms of parathyroid hormone, strontium ranelate, growth hormone, and insulin-like growth factor-1, are also reviewed in this article.     

Evidence-based review of preventive practice for osteoporosis

Preventive procedures for osteoporosis should aim to eliminate or reduce the risk of osteoporotic fractures later in life. It is important for this purpose to achieve greater peak bone mass during adolescence, to reduce postmenopausal bone loss, and to maintain bone mass and to prevent falls in the elderly. All the available evidences for this topic have been reviewed and evidence-based recommendations for the prevention of osteoporosis and osteoporotic fractures are presented.     

Anabolic Agents for Osteoporosis

Antiresorptive agents for osteoporosis are a cornerstone of therapy, but anabolic drugs have recently widened our therapeutic options. By directly stimulating bone formation, anabolic agents reduce fracture incidence by improving other bone qualities in addition to increasing bone mass. Teriparatide (human parathyroid hormone[1-34]) has clearly emerged as a major approach for selected patients with osteoporosis. Teriparatide increases bone mineral density and bone turnover, improves bone microarchitecture, and changes bone size. The incidence of vertebral and non-vertebral fractures is reduced. Teriparatide is approved in many countries throughout the world for the treatment of both postmenopausal women and men with osteoporosis who are at high risk for fracture. Another anabolic agent, strontium ranelate, may both promote bone formation and inhibit bone resorption. Clinical trials support the use of strontium ranelate as a treatment for postmenopausal osteoporosis and have shown that strontium ranelate reduces the frequency of vertebral and non-vertebral fractures. Other potential anabolic therapies for osteoporosis, including other forms of parathyroid hormone, growth hormone, and insulin-like growth factor-I, have been examined, although less data are currently available on these approaches.     

Male osteoporosis-what are the causes,diagnostic challenges,and management

Osteoporosis is underrecognized and undertreated in men, even though up to 25% of fractures in patients over the age of 50 years occur in men. Men develop osteoporosis with normal aging and accumulation of comorbidities that cause bone loss. Secondary causes of bone loss may be found in up to 60% of men with osteoporosis. Mortality in men who experience major fragility fracture is greater than in women. Diagnosis of osteoporosis in men is similar to women, based on low-trauma or fragility fractures, and/or bone mineral density dual-energy X-ray absorptiometry (DXA) T-scores at or below ?2.5. Because most clinical trials with osteoporosis drugs in men were based on bone density endpoints, not fracture reduction, the antifracture efficacy of approved treatments in men is not as well documented as that in women. Men at a high risk of fracture should be offered treatment to reduce future fractures.     

Management of osteoporosis in liver disease

Osteoporosis resulting in a high risk for fracture is a common complication in patients with liver disease, particularly in those with chronic cholestasis and with end-stage cirrhosis. The pathogenesis of bone loss in liver patients is poorly understood but it mainly results from low bone formation as a consequence of cholestasis or the harmful effects of alcohol or iron on osteoblasts. Increased bone resorption has also been described in cholestatic women with advanced disease. The management of bone disease in liver patients is addressed to reduce or avoid the risk factors for osteoporosis and fracture. Bisphosphonates associated with supplements of calcium and vitamin D are safe and effective for increasing bone mass in patients with chronic cholestasis and after liver transplantation, though no clear achievements in descreasing the incidence of fractures have been described, probably because of the low number of patients included in the therapeutic trials. Randomized studies assessing bisphosphonates in larger series of patients, the development of new drugs for osteoporosis and the improvement in the management of liver transplant recipients may change the future.     

Aging bone and osteoporosis: strategies for preventing fractures in the elderly

As the older population increases, the incidence of osteoporotic fractures is expected to dramatically rise during the next few decades. Older patients are much more susceptible to fracture at any given bone mineral density (BMD) than are younger patients because of various factors, including the quality of aging bone, which involves more than BMD. Suppression of increased bone turnover by antiresorptive therapies, even with only small changes in BMD, can reduce fracture risk, especially in the lumbar spine. Bisphosphonate treatment can significantly reduce vertebral and nonvertebral fractures, including hip fractures, even in the very elderly. Prospective analyses show that risedronate therapy consistently and significantly reduces the risk of new morphometric vertebral fractures after 1 year in postmenopausal women. Post hoc analyses report significant reductions in the risk of 1 new clinical vertebral fracture after 6 months of risedronate therapy and after 1 year of alendronate therapy. Oral raloxifene therapy and salmon calcitonin nasal spray therapy have been shown to reduce the risk of vertebral fracture after 3 and 5 years, respectively, and post hoc data show a significant reduction in clinical vertebral fracture risk at 1 year with raloxifene use. However, neither raloxifene therapy nor calcitonin therapy reduce the risk of nonvertebral and hip fractures at currently approved doses. Bisphosphonates have been shown to be safe and efficacious with 7 years' risedronate sodium and 10 years' alendronate sodium data published, and bisphosphonates reduce bone turnover and increase BMD to a greater degree than raloxifene and calcitonin, which may partly account for their nonvertebral and hip fracture reduction effect. Therefore, bisphosphonate therapy with risedronate or alendronate should be considered in patients with low BMD at the hip and in older patients with osteoporosis and osteopenia, particularly those with an existing fracture.     

Drug insight: Existing and emerging therapies for osteoporosis

Osteoporosis is a major public health problem that is characterized by microarchitectural deterioration, low bone mass, and increased risk of fractures. Currently, many women and men affected with this disease are not diagnosed or treated. As osteoporosis is often clinically silent, risk-factor assessment and measurement of BMD are needed to identify those who may benefit from osteoporosis therapy. Although adequate daily intake of calcium and vitamin D, and regular weight-bearing exercise are important for skeletal health, they are not adequate treatments for individuals with osteoporosis. Therapies approved for treatment and/or prevention of osteoporosis in the United States include oral bisphosphonates (alendronate, ibandronate and risedronate), calcitonin, estrogens, teriparatide (parathyroid hormone fragment [1-34]), and raloxifene. For most patients, oral bisphosphonates are the treatment of choice, given the large-scale randomized-trial data demonstrating efficacy in fracture reduction, although bisphosphonates that reduce spine and nonspine fractures (e.g. alendronate and risedronate) are preferred. For high-risk patients (those with very low bone density, or with fractures), teriparatide therapy for 2 years should be considered. The treatment paradigm for osteoporosis will evolve further as promising new treatments progress through clinical development.     

Management of corticosteroid-induced osteoporosis

OBJECTIVES: To educate scientists and health care providers about the effects of corticosteroids on bone, and advise clinicians of the appropriate treatments for patients receiving corticosteroids. METHODS: This review summarizes the pathophysiology of corticosteroid-induced osteoporosis, describes the assessment methods used to evaluate this condition, examines the results of clinical trials of drugs, and explores a practical approach to the management of corticosteroid-induced osteoporosis based on data collected from published articles. RESULTS: Despite our lack of understanding about the biological mechanisms leading to corticosteroid-induced bone loss, effective therapy has been developed. Bisphosphonate therapy is beneficial in both the prevention and treatment of corticosteroid-induced osteoporosis. The data for the bisphosphonates are more compelling than for any other agent. For patients who have been treated but continue to lose bone, hormone replacement therapy, calcitonin, fluoride, or anabolic hormones should be considered. Calcium should be used only as an adjunctive therapy in the treatment or prevention of corticosteroid-induced bone loss and should be administered in combination with other agents. Conclusions: Bisphosphonates have shown significant treatment benefit and are the agents of choice for both the treatment and prevention of corticosteroid-induced osteoporosis.     

The use of parathyroid hormone in the treatment of osteoporosis

Anabolic skeletal agents have recently broadened our therapeutic options for osteoporosis. By directly stimulating bone formation, they reduce fracture incidence by improving bone qualities in addition to increasing bone mass. Teriparatide [recombinant human parathyroid hormone(1–34)], the only anabolic agent currently approved in the United States for osteoporosis, has emerged as a major therapeutic approach to selected patients with osteoporosis. Teriparatide is approved for both postmenopausal women and men with osteoporosis who are at high risk for fracture. With the use of this anabolic agent, bone density and bone turnover increase, microarchitecture improves, and bone size is beneficially altered. The incidence of vertebral and nonvertebral fractures is reduced with teriparatide use. Combination therapy with parathyroid hormone and an antiresorptive does not appear to offer definitive advantages over the use of PTH or an antiresorptive alone, although recent ideas about combining these agents may offer new insights. In order to maintain increases in bone density acquired during PTH therapy, it is important to follow its use with an antiresorptive agent.     

Emerging anabolic treatments for osteoporosis

Therapy for osteoporosis is principally centered on the use of agents that block bone resorption and supplementation with vitamin D and calcium. Although these drugs are effective in reducing the risk of subsequent fractures, and modestly increasing bone density, most patients being treated for osteoporosis still have low bone mass and a greater risk of fracture. Anabolic agents stimulate bone formation, strength, and mass. In addition, there is emerging evidence that anabolic agents can reduce subsequent fracture risk. The two most promising agents, parathyroid hormone (PTH) and GH/IGF-I, act to increase osteoblast mediated bone formation. A review of the potential usefulness of PTH and GH/IGF-I is presented.     

Unusual mid‐shaft fractures during long‐term bisphosphonate therapy

Background Bisphosphonates are the most commonly prescribed medications for the treatment of osteoporosis. Although existing evidence supports a good safety profile, there is concern that chronic administration of these agents could result in severe suppression of bone turnover with increased risk of nonvertebral fractures. Objective The objective of this study was to report the clinical presentation, selected bone histomorphometry and X‐ray images of patients who developed mid‐shaft long bone fractures during bisphosphonate therapy, six of whom had bone biopsy for histomorphometery. Results Of the 13 patients who sustained atraumatic mid‐shaft fractures, 10 were on alendronate and three were on risedronate therapy before the fractures. In addition to bisphosphonates, three patients were on oestrogen and two on tamoxifen concomitantly. Four patients with glucocorticoid‐induced osteoporosis were on alendronate for 3–11 years along with glucocorticoid therapy. Bone histomorphometry showed severe suppression of bone turnover in five patients and low bone turnover in one patient. Conclusion Long‐term bisphosphonate therapy may increase the risk of unusual long bone mid‐shaft fractures. This is probably due to prolonged suppression of bone turnover, which could lead to accumulation of microdamage and development of hypermineralized bone. At present, the scope of this complication in the larger context of patients receiving bisphosphonate therapy remains unknown, but appears to be small.     

Glucocorticoid-induced osteoporosis

Glucocorticoid-induced osteoporosis is the most frequent cause of secondary osteoporosis. Glucocorticoids cause a rapid bone loss in the first few months of use, but the most important effect of the drug is suppression of bone formation. The administration of oral glucocorticoid is associated with an increased risk of fractures at the spine and hip. The risk is related to the dose, but even small doses can increase the risk. Patients on glucocorticoid therapy lose more trabecular than cortical bone and the fractures are more frequent at the spine than at the hip. Calcium, vitamin D and activated forms of vitamin D can prevent bone loss and antiresorptive agents are effective for prevention and treatment of bone loss and to decrease fracture risk. Despite the known effects of glucocorticoids on bone, only a few patients are advised to take preventive measures and treat glucocorticoid-induced osteoporosis.     

Basics and management of glucocorticoid-induced osteoporosis

Glucocorticoids interfere with bone metabolism at different levels. Therefore, glucocorticoid-induced osteoporosis (GIO) is the most frequent form of secondary osteoporosis and up to 50 percent of patients on chronic glucocorticoid therapy suffer fractures. This is also because GIO is still under-diagnosed and not adequately treated. Besides, the fracture risk is higher in GIO than in primary osteoporosis even in the presence of equal bone mass density. The risk of osteoporotic fractures increases with dose and duration of glucocorticoid therapy, although the loss of bone mass is more prominent within the first three to twelve months after initiation of treatment. Besides glucocorticoid treatment, other factors, such as e.g. the underlying disease, substantially influence the fracture risk. Therefore, a diagnostic screening is mandatory in each case and should include the patient's history, physical examination, laboratory studies, evaluation of the bone-mass density by dual X-ray absorptiometry and imaging of the spine. Education of the patients and pharmacological prevention are very important, antiresorptive therapy has to be started earlier than in primary osteoporosis and osteoanabolic agents have also been proven to be effective.     

Recommendations for the prevention and treatment of glucocorticoid-induced osteoporosis: 2001 update. American College of Rheumatology Ad Hoc Committee on Glucocorticoid-Induced Osteoporosis

Glucocorticoid-induced bone loss should be prevented, and if present, should be treated (Table 2). Supplementation with calcium and vitamin D at a dosage of 800 IU/day, or an activated form of vitamin D (e.g., alfacalcidiol at 1 microg/day or calcitriol at 0.5 microg/day), should be offered to all patients receiving glucocorticoids, to restore normal calcium balance. This combination has been shown to maintain bone mass in patients receiving long-term low-to-medium-dose glucocorticoid therapy who have normal levels of gonadal hormones. However, while supplementation with calcium and vitamin D alone generally will not prevent bone loss in patients in whom medium-to-high-dose glucocorticoid therapy is being initiated, supplementation with calcium and an activated form of vitamin D will prevent bone loss. There are no data available to support any conclusion about the antifracture efficacy of the combination of calcium supplementation plus an activated form of vitamin D. Antiresorptive agents are effective in the treatment of glucocorticoid-induced bone loss. All of these agents either prevent bone loss or modestly increase lumbar spine bone mass and maintain hip bone mass. While there are no randomized controlled trials of prevention of glucocorticoid-induced bone loss or radiographic vertebral fracture outcomes with HRT or testosterone, patients receiving long-term glucocorticoid therapy who are hypogonadal should be offered HRT. The bisphosphonates are effective for both the prevention and the treatment of glucocorticoid-induced bone loss. Large studies have demonstrated that bisphosphonates also reduce the incidence of radiographic vertebral fractures in postmenopausal women with glucocorticoid-induced osteoporosis. Treatment with a bisphosphonate is recommended to prevent bone loss in all men and postmenopausal women in whom long-term glucocorticoid treatment at > or =5 mg/day is being initiated, as well as in men and postmenopausal women receiving long-term glucocorticoids in whom the BMD T-score at either the lumbar spine or the hip is below normal. While there is little information on the prevention or treatment of bone loss in premenopausal women, these women, too, may lose bone mass if they are being treated with glucocorticoids, so prevention of bone loss with antiresorptive agents should be considered. If bisphosphonate therapy is being considered for a premenopausal woman, she must be counseled regarding use of appropriate contraception. The therapies to prevent or treat glucocorticoid-induced bone loss should be continued as long as the patient is receiving glucocorticoids. Data from large studies of anabolic agents (e.g., PTH) and further studies of combination therapy in patients receiving glucocorticoids are eagerly awaited so additional options will be available for the prevention of this serious complication of glucocorticoid treatment.