Update on denosumab in postmenopausal osteoporosis--recent clinical data.

Denosumab, a fully human monoclonal antibody against the key osteoclastogenic factor RANK ligand, is currently approved for the treatment of postmenopausal osteoporosis. Denosumab differs from bisphosphonates in many aspects, for example, its ability to act in the extracellular compartment and its likelihood to be distributed throughout the skeleton. In contrast, bisphosphonates have to be internalized by osteoclasts and are mainly located across bone surfaces. This could explain why patients with osteoporosis, who are already treated with bisphosphonates, might experience further benefit when switching to denosumab. Head-to-head studies revealed that transition to denosumab resulted in a greater increase of bone mineral density (BMD) and a greater reduction of bone turnover than did continued alendronate. Additional analyses of the phase 3 FREEDOM trial demonstrated that fracture reduction was particularly high in cortical bone, such as the wrist. In addition, denosumab treatment for a 5- and 8-year period showed sustained reduction in fracture risk, increase in BMD and continued to be well tolerated. The 7-year extension study of FREEDOM and a phase 3 trial evaluating denosumab for the treatment of male osteoporosis are still ongoing and will provide supportive data in the near future.

[Austrian guidance for the pharmacologic treatment of osteoporosis in postmenopausal women: Addendum 2010]. / Österreichischer Leitfaden zur medikamentösen Therapie der postmenopausalen Osteoporose: Addendum 2010.

The Austrian Society for Bone and Mineral Research routinely publishes evidence-based guidelines for the treatment of postmenopausal osteoporosis. The fully human monoclonal antibody denosumab (Prolia(®)) has been recently approved by the European Medical Agency (EMEA) and the Food and Drug Administration (FDA) for the treatment of postmenopausal osteoporosis. Denosumab has been shown to reduce vertebral, non-vertebral,and hip-fracture risk effectively. Together with alendronate, risedronate, zoledronate, ibandronate, strontium ranelate, and raloxifene, denosumab constitutes an effective option in the treatment of postmenopausal osteoporosis.

The role of exercise in the treatment of osteoporosis.

The objective of exercise in the treatment of osteoporosis is to improve axial stability through improvement of muscle strength. Therefore, a back extension exercise program specific to one's musculoskeletal competence and pain can be performed in a sitting position and later advanced to the prone position. When fragility is resolved, back extension is performed against resistance applied to the upper back. To decrease pain and immobility in acute vertebral fracture, use of spinal orthoses become inevitable. Therapeutic exercise should address osteoporosis-related deformities of axial posture, which can increase risk of fall and fracture. Strengthening of the major appendicular muscles decreases fragility. The effect of strengthening exercise is augmented by proper intake of cholecalciferol and calcium. Thus, the role of a therapeutic exercise program is to increase muscle strength safely, decrease immobility-related complications, and prevent fall and fracture. As with pharmacotherapy, therapeutic exercises are individualized.

[Austrian guidance for the pharmacological treatment of osteoporosis in postmenopausal women--update 2009]. / Osterreichischer Leitfaden zur medikamentösen Therapie der postmenopausalen Osteoporose--Update 2009.

Osteoporosis is a systemic skeletal disease characterized by diminished bone mass and deterioration of bone microarchitecture, leading to increased fragility and subsequent increased fracture risk. Therapeutic measures therefore aim at reducing individual fracture risk. In Austria, the following drugs, all of which have been proven to reduce fracture risk, are currently registered for the treatment of postmenopausal osteoporosis: alendronate, risedronate, etidronate, ibandronate, raloxifene, teriparatide (1-34 PTH), 1-84 PTH, strontium ranelate and salmon calcitonin. Fluorides are still available, but their role in daily practice has become negligible. Currently, there is no evidence that a combination of two or more of these drugs could improve anti-fracture potency. However, treatment with PTH should be followed by the treatment with an anticatabolic drug such as bisphosphonates. Calcium and vitamin D constitute an important adjunct to any osteoporosis treatment.

Musculoskeletal rehabilitation in osteoporosis: a review.

Measures of musculoskeletal rehabilitation play an integral part in the management of patients with increased fracture risk because of osteoporosis or extraskeletal risk factors. This article delineates current scientific evidence concerning nonpharmacologic approaches that are used in conjunction with pharmacotherapy for prevention and management of osteoporosis. Fractures caused by osteoporotic fragility may be prevented with multidisciplinary intervention programs, including education, environmental modifications, aids, and implementation of individually tailored exercise programs, which are proved to reduce falls and fall-related injuries. In addition, strengthening of the paraspinal muscles may not only maintain BMD but also reduce the risk of vertebral fractures. Given the strong interaction between osteoporosis and falls, selection of patients for prevention of fracture should be based on bone-related factors and on risk factors for falls. Rehabilitation after vertebral fracture includes proprioceptive dynamic posture training, which decreases kyphotic posturing through recruitment of back extensors and thus reduces pain, improves mobility, and leads to a better quality of life. A newly developed orthosis increases back extensor strength and decreases body sway as a risk factor for falls and fall-related fractures. Hip fractures may be prevented by hip protectors, and exercise programs can improve strength and mobility in patients with hip fracture. So far, there is no conclusive evidence that coordinated multidisciplinary inpatient rehabilitation is more effective than conventional hospital care with no rehabilitation professionals involved for older patients with hip fracture. Further studies are needed to evaluate the effect of combined bone- and fall-directed strategies in patients with osteoporosis and an increased propensity to falls.