Abstract
Bone remodeling is a lifelong process, due to the balanced activity of the osteoblasts (OBs), the bone-forming cells, and osteoclasts (OCs), the bone-resorbing cells. This equilibrium is mainly regulated by the WNT-ß-cathenin pathway and the RANK-RANKL/OPG system, respectively. Bone ageing is a process which normally occurs during life due to the imbalance between bone formation and bone resorption, potentially leading to osteoporosis. Bone loss associated with bone ageing is determined by oxidative stress, the result of the increasing production of reactive oxygen species (ROS). The promotion of physical exercise during growth increases the chances of accruing bone and delaying the onset of osteoporosis. Several studies demonstrate that physical exercise is associated with higher bone mineral density and lower fracture incidence, and the resulting bone mineral gain is maintained with ageing, despite a reduction of physical activity in adulthood. The benefits of exercise are widely recognized, thus physical activity is considered the best non-pharmacologic treatment for pathologies such as osteoporosis, obesity, diabetes and cardiovascular disease. We reviewed the physiological mechanisms which control bone remodeling, the effects of physical activity on bone health, and studies on the impact of exercise in reducing bone ageing.
Highlights
Bone remodeling is a dynamic process which occurs throughout life, to replace old and damaged bone with the new one [1,2]
Bone ageing is a process normally occurring over time, which leads to imbalance between osteoclast resorption and osteoblast bone formation
Bone remodeling is an essential physiological process that renews the skeleton in response to mechanical stimuli
Summary
Bone remodeling is a dynamic process which occurs throughout life, to replace old and damaged bone with the new one [1,2]. It takes place in the “basic multicellular units” (BMUs) consisting of cluster of osteoclasts (OCs), the bone-resorbing cells, and osteoblasts (OBs), the bone forming cells, which work sequentially [3]. Bone formation mainly occurs in the first two decades of life, until the achievement of peak bone mass. We focus on physiological mechanisms which control bone remodeling, the effects of physical activity on bone health, and we update studies on the impact of exercise in reducing bone. We performed a systematic literature search in PubMed and EMBASE, reviewed and selected articles, based on the following key words: ‘physical activity’, ‘bone health’, ‘childhood’, ‘ageing’
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