RESUMO
The primary aim of this study was to explore the effects of team sports practice on bone health indices in adults engaged in team sports. The secondary aim was to investigate the osteogenic effects of each type of team sport. This systematic literature search was conducted using common electronic databases from inception in June 2023, using key terms (and synonyms searched for by the MeSH database) that were combined using the operators "AND", "OR", "NOT": (``men'' OR ``man'' OR ``women'' OR ``woman'') AND (``bone mineral density'' OR ``BMD'' OR ``bone mineral content'' OR ``BMC'' OR ``peak bone mass'' OR ``mechanical loading'' OR ``osteoporosis'' OR ``bone geometry'' OR ``bone resistance'') AND (``team sport'' OR ``sport'' OR rugby OR basketball OR volleyball OR handball OR soccer OR football OR ``players''). After screening, 16 studies were included in the final analysis (5 continents, 2740 participants). The training duration lasted 1 to 13 years. Team sport training had a moderate impact on whole body bone mineral density (WB BMD) (1.07 SMD; 95â¯% [0.77, 1.37], pâ¯<â¯0.00) but a more significant impact on whole body bone mineral content (WB BMC) (1.3 SMD; 95â¯% [0.81, 1.79], pâ¯<â¯0.00). Subgroup analyses indicated that rugby training had a moderate but non-significant impact on WB BMD (1.19 SMD; 95â¯% [-0.13, 2.52], pâ¯=â¯0.08) but a greater impact on WB BMC (2.12 SMD; 95â¯% [0.84, 3.39], pâ¯<â¯0.00); basketball training had a moderate but significant impact on WB BMD (1 SMD; 95â¯% [0.35, 1.64], pâ¯<â¯0.00) and a trivial non-significant impact on WB BMC (0.18 SMD; 95â¯% [-1.09, 1.46], pâ¯=â¯0.78); volleyball training had a moderate but non-significant impact on WB BMD (0.63 SMD; 95â¯% [-0.22, 1.49], pâ¯=â¯0.15) and a significant impact on WB BMC (2.39 SMD; 95â¯% [1.45, 3.33], pâ¯<â¯0.00). Handball training produced a moderate significant impact on WB BMD (1.02 SMD; 95â¯% [0.33, 1.71], pâ¯<â¯0.00) and WB BMC (0.97 SMD; 95â¯% [0.47, 1.48], pâ¯<â¯0.00), and soccer training led to moderate but significant effects on WB BMD (1.16 SMD; 95â¯% [0.88, 1.44], pâ¯<â¯0.00) and a large effect on WB BMC (1.34 SMD; 95â¯% [0.92, 1.77], pâ¯<â¯0.00). Rugby training was associated with a higher WB BMC compared to basketball training (pâ¯=â¯0.03). Our systematic review and meta-analysis suggests that team sports, such as rugby, basketball, volleyball, handball and soccer have moderate to large effects on WB BMD and WB BMC. Specifically, our findings indicate that handball and soccer enhance WB BMD and WB BMC, whereas rugby only increases WB BMC. There is currently insufficient evidence indicating the superiority of any type of sport training that improves bone health in adults.
RESUMO
Interventional studies offer strong evidence for exercise's osteogenic impact on bone particularly during growth. With rising osteoporosis rates in older women, enhancing bone strength early in life is crucial. Thus, investigating the osteogenic effects of different types of physical activities in young females is crucial. Despite varied findings, only two systematic reviews tried to explore this topic without examining how different types of exercise may affect bone health in adolescent girls. The first aim of this systematic review was to assess the impact of exercise training on bone health parameters in adolescent girls, and the second aim was to investigate whether the type of exercise training can modulate this effect. A systematic literature search was conducted using common electronic databases from inception - January 2023. Seven studies (355 participants) were eligible for inclusion in this systematic review. Two studies dealt with resistance training, 3 studies applied plyometric training, 1 study used team sports, and 1 study used dancing. Results indicate that plyometric training increases lumbar spine bone mass in adolescent girls. Well-designed randomized controlled trials with a proper training period (> 12 weeks) are needed to advocate a specific type of training which has the highest osteogenic effect.