Abstract
For decades, the osteogenic effect from different physical activities on bone in rodents remained uncertain. This literature review presents for the first time the effects on five exercise models (treadmill running, wheel running, swimming, resistance training and vibration modes) in three different experimental rat groups (males, females, osteopenic) on bone quality. The bone parameters presented are bone mineral density, micro-architectural and mechanical properties, and osteoblast/osteocyte and osteoclast parameters. This review shows that physical activities have a positive effect (65% of the results) on bone status, but we clearly observed a difference amongst the different protocols. Even if treadmill running is the most used protocol, the resistance training constitutes the first exercise model in term of osteogenic effects (87% of the whole results obtained on this model). The less osteogenic model is the vibration mode procedure (31%). It clearly appears that the gender plays a role on the bone response to swimming and wheel running exercises. Besides, we did not observe negative results in the osteopenic population with impact training, wheel running and vibration activities. Moreover, about osteoblast/osteocyte parameters, we conclude that high impact and resistance exercise (such jumps and tower climbing) seems to increase bone formation more than running or aerobic exercise. Among the different protocols, literature has shown that the treadmill running procedure mainly induces osteogenic effects on the viability of the osteocyte lineage in both males and females or ovariectomized rats; running in voluntary wheels contributes to a negative effect on bone metabolism in older male models; whole-body vertical vibration is not an osteogenic exercise in female and ovariectomized rats; whereas swimming provides controversial results in female models. For osteoclast parameters only, running in a voluntary wheel for old males, the treadmill running program at high intensity in ovariectomized rats, and the swimming program in a specific ovariectomy condition have detrimental consequences.
Highlights
As the world’s population continues to age, the number of postmenopausal women, and potentially the incidence of osteoporosis, is increasing [1,2]
Rat osteopenia reported after prolonged immobilization, ovariectomy and aging is similar to human osteopenia regarding bone dynamics and anatomical features [27]
The trabecular bone aspect evaluated is the bone volume/tissue volume (BV/TV), which reflects the percentage of trabeculae volume in the bone marrow, the trabecular thickness (Tb.Th) which is the average thickness of the trabeculae, and the trabecular number (Tb.N), which represents the number of trabeculae per volume unit
Summary
As the world’s population continues to age, the number of postmenopausal women, and potentially the incidence of osteoporosis, is increasing [1,2]. Rat osteopenia reported after prolonged immobilization (hindlimb suspension), ovariectomy and aging is similar to human osteopenia regarding bone dynamics and anatomical features [27]. This outcome in experimental animals was achieved in the form of either forced or free exercise, using treadmill running, swimming or jumping. It is important to study the effects of various types of physical exercise on bone in order to plan modern personalized preventive and therapeutic strategies for osteoporosis. Bone remodeling varies according to gender, age and peculiar underlying pathophysiological conditions All these factors can variously interfere with the osteoanabolic effects of physical activity.
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