期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 24, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/ijms24043373
关键词
athletes; bone mineral density; bone mineral content; osteoporosis; SOD2; GPx
The aim of this study was to identify relevant factors that affect bone mineral content (BMC) and bone mineral density (BMD) in young, healthy men reaching peak bone mass. The results showed that age, BMI, engaging in combat and team sports at a competitive level, and certain genetic polymorphisms were significant predictors of BMD/BMC at different skeletal sites. Specifically, the SOD2 AG genotype was associated with lower BMC values, while the VDR FokI GG genotype was associated with lower BMD. However, the CALCR AG genotype was linked to higher arm BMD. These findings suggest that sports training may mitigate the negative impact of genetic factors on bone tissue and reduce the risk of osteoporosis.
The aim of the study was to assess significant predictors of bone mineral content (BMC) and bone mineral density (BMD) in a group of young, healthy men at the time of reaching peak bone mass. Regression analyses showed that age, BMI and practicing combat sports and team sports at a competitive level (trained vs. untrained group; TR vs. CON, respectively) were positive predictors of BMD/BMC values at various skeletal sites. In addition, genetic polymorphisms were among the predictors. In the whole population studied, at almost all measured skeletal sites, the SOD2 AG genotype proved to be a negative predictor of BMC, while the VDR FokI GG genotype was a negative predictor of BMD. In contrast, the CALCR AG genotype was a positive predictor of arm BMD. ANOVA analyses showed that, regarding SOD2 polymorphism, the TR group was responsible for the significant intergenotypic differences in BMC that were observed in the whole study population (i.e., lower BMC values of leg, trunk and whole body were observed in AG TR compared to AA TR). On the other hand, higher BMC at L1-L4 was observed in the SOD2 GG genotype of the TR group compared to in the same genotype of the CON group. For the FokI polymorphism, BMD at L1-L4 was higher in AG TR than in AG CON. In turn, the CALCR AA genotype in the TR group had higher arm BMD compared to the same genotype in the CON group. In conclusion, SOD2, VDR FokI and CALCR polymorphisms seem to affect the association of BMC/BMD values with training status. In general, at least within the VDR FokI and CALCR polymorphisms, less favorable genotypes in terms of BMD (i.e., FokI AG and CALCR AA) appear to be associated with a greater BMD response to sports training. This suggests that, in healthy men during the period of bone mass formation, sports training (combat and team sports) may attenuate the negative impact of genetic factors on bone tissue condition, possibly reducing the risk of osteoporosis in later age.
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