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Contribution of collagen and mineral to the elastic anisotropy of bone (1994)

Hasegawa, K. ; Turner, C. H. ; Burr, D. B.

Springer

Calcified tissue international 55 (1994), S. 381-386

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ISSN: 1432-0827

Keywords: Acoustic microscopy ; Bone ; Collagen fiber ; Elastic anisotropy ; Mineral crystal

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Abstract It has long been thought that collagen fibers within the bone matrix are deposited in an aligned pattern that channels mineral growth. If this model of bone structure is correct, both organic and inorganic phases of bone should have similar elastic anisotropy. Using an acoustic microscope, we measured longitudinal and transverse acoustic velocities of cortical specimens taken from 10 dog femurs before and after removal of either the mineral (using 10% EDTA) or collagen phases (using 7% sodium hypochlorite) and calculated longitudinal (CL) and transverse (CT) elastic coefficients. The anisotropy ratio (CL/CT) decreased significantly after demineralization (1.61 before versus 1.06 after, P〈0.0001, paired t-test). However, there was no significant change after decollagenization (1.51 before versus 1.48 after, P=0.617, paired t-test). We conclude that the orientation of mineral crystals is the primary determinant of bone anisotropy, and the collagen matrix within osteonal bone has little directional orientation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00299319

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Effect of Fatiguing Exercise on Longitudinal Bone Strain as Related to Stress Fracture in Humans (1998)

Fyhrie, D. P. ; Milgrom, C. ; Hoshaw, S. J. ; [et al.]

Springer

Annals of biomedical engineering 26 (1998), S. 660-665

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ISSN: 1573-9686

Keywords: Stress fracture ; Bone strain ; Fatigue ; Aging ; Exercise

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract Muscular fatigue in the training athlete or military recruit has been hypothesized to cause increased bone strain that may contribute to the development of a stress fracture. Under normal circumstances, muscles exert a protective effect by contracting to reduce bending strains on cortical bone surfaces. In vivo strain studies in dogs show that muscle fatigue following strenuous exercise elevates bone strain and changes strain distribution. However, a similar experiment has yet to be performed in humans. The purpose of this work was to test the hypothesis in humans that strenuous fatiguing exercise causes an elevation in bone strain. It was also hypothesized that this elevation is greater in younger people than in older people due to the decline in muscle strength and endurance that normally occurs with age. To test these hypotheses, strain in the tibiae of seven human volunteers was measured during walking before and after a period of fatiguing exercise. Neither hypothesis was sustained. Post-hoc analysis of the strain data suggests that strain rate increases after fatigue with a greater increase in younger as opposed to older persons. Although not conclusive, this suggests that it is strain rate, rather than strain magnitude, that may be causal for stress fracture. © 1998 Biomedical Engineering Society. PAC98: 8745Dr, 8745Bp, 0180+b

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1114/1.103

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