BACKGROUND: To determine if the expected differences in bone mineral content/density of the calcaneus among male athletic groups that undertake weight-bearing and nonweight-bearing activity are also apparent for bone quality as assessed by quantitative ultrasound (QUS) attenuation. EXPERIMENTAL DESIGN: cross-sectional. SETTING: a University research laboratory. PARTICIPANTS: we studied 30 young men: 10 Finnish national level jumpers whose training incorporates repeated impacts to the heel, 10 aquatics athletes whose skeletons are exposed to nonweight-bearing activity, and 10 sedentary men matched for age and body weight. MEASURES: bone mineral content (BMC, g x cm(-1)), areal bone mineral density (BMDa; g x cm(-2)) and presumed volumetric BMD (BMDv, g x cm(-3)) was measured by single energy photon absorption (SPA). Broadband ultrasound attenuation (BUA using Fourier spectral estimation and UBI-4 using Burg spectral estimation, both in db/MHz) was assessed by a new QUS device (QUS-1TM, Metra Biosystems). RESULTS: There was no difference in years of sport specific training or total training time per week between athlete groups. BMC, BMDa and BMDv were significantly different among groups (p=0.0001) with jumpers being higher than aquatics athletes and controls. BMC of jumpers was 52% and 39% higher than controls and aquatics athletes, respectively, while the corresponding values for BMDv were 34% and 28%. However, BUA values were not significantly different (p=0.10) among groups nor was UBI-4 (p=0.03; jumpers values were 7% and 6% higher than aquatics athletes and controls, respectively). CONCLUSIONS: These cross-sectional results indicate that bone mineral content and density of the calcaneus are substantially higher in jumpers than individuals engaged in nonweight-bearing or regular weight-bearing activity. However, parameters assessed by QUS attenuation are not markedly different, which suggests that bone quality properties may not be as responsive as that of bone mineral content/density to habitual skeletal loading.
BACKGROUND: To determine if the expected differences in bone mineral content/density of the calcaneus among male athletic groups that undertake weight-bearing and nonweight-bearing activity are also apparent for bone quality as assessed by quantitative ultrasound (QUS) attenuation. EXPERIMENTAL DESIGN: cross-sectional. SETTING: a University research laboratory. PARTICIPANTS: we studied 30 young men: 10 Finnish national level jumpers whose training incorporates repeated impacts to the heel, 10 aquatics athletes whose skeletons are exposed to nonweight-bearing activity, and 10 sedentary men matched for age and body weight. MEASURES: bone mineral content (BMC, g x cm(-1)), areal bone mineral density (BMDa; g x cm(-2)) and presumed volumetric BMD (BMDv, g x cm(-3)) was measured by single energy photon absorption (SPA). Broadband ultrasound attenuation (BUA using Fourier spectral estimation and UBI-4 using Burg spectral estimation, both in db/MHz) was assessed by a new QUS device (QUS-1TM, Metra Biosystems). RESULTS: There was no difference in years of sport specific training or total training time per week between athlete groups. BMC, BMDa and BMDv were significantly different among groups (p=0.0001) with jumpers being higher than aquatics athletes and controls. BMC of jumpers was 52% and 39% higher than controls and aquatics athletes, respectively, while the corresponding values for BMDv were 34% and 28%. However, BUA values were not significantly different (p=0.10) among groups nor was UBI-4 (p=0.03; jumpers values were 7% and 6% higher than aquatics athletes and controls, respectively). CONCLUSIONS: These cross-sectional results indicate that bone mineral content and density of the calcaneus are substantially higher in jumpers than individuals engaged in nonweight-bearing or regular weight-bearing activity. However, parameters assessed by QUS attenuation are not markedly different, which suggests that bone quality properties may not be as responsive as that of bone mineral content/density to habitual skeletal loading.
Authors: Alejandro Gómez-Bruton; Alejandro Gónzalez-Agüero; Alba Gómez-Cabello; José A Casajús; Germán Vicente-Rodríguez Journal: PLoS One Date: 2013-08-07 Impact factor: 3.240
Authors: Vichuda Lousuebsakul-Matthews; Donna Thorpe; Raymond Knutsen; W Larry Beeson; Gary E Fraser; Synnove F Knutsen Journal: J Sci Res Rep Date: 2015-04-30
Authors: Emmanuel P Laabes; Dorothy J Vanderjagt; Michael O Obadofin; Ayuba J Sendeht; Robert H Glew Journal: Nutr Metab (Lond) Date: 2008-05-20 Impact factor: 4.169