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Role of trabecular morphology in the etiology of age-related vertebral fractures (1993)

Snyder, B. D. ; Piazza, S. ; Edwards, W. T. ; [et al.]

Springer

Calcified tissue international 53 (1993), S. S14

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ISSN: 1432-0827

Keywords: Stereology ; Morphology ; Osteoporosis ; Vertebral body

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Osteoporotic compression fractures of the spine differ from most other age-related fractures in that they usually are associated with minimal trauma and with loads no greater than those encountered during normal activities of daily living. With aging and osteoporosis, there is progressive resorption of bone, resulting in reductions in bone density, thinning of trabeculae, and loss of trabecular contiguity. These changes in trabecular bone structure are associated with losses in bone strength which are disproportionate to the reductions in bone mass alone. To explain this disproportionate loss of bone strength, the prevailing opinion is that density reductions in the vertebral centrum are accompanied by a reduction in the number of trabeculae, by preferential resorption of horizontal trabeculae, and by hypertrophy of the remaining vertical trabeculae. To evaluate this view of vertebral morphology, we performed three-dimensional stereological analysis of trabecular bone extracted from midsagittal sections of first lumbar vertebral bodies from 12 donors spanning an age of 27–81 years. We found that both the number (R2 = 0.63,P 〈 0.01) and thickness (R2 = 0.91,P 〈 0.01) of trabeculae decreased linearly with density (as expressed by bone volume fraction) whereas the spacing between the trabeculae (R2 = 0.61,P 〈 0.01) increased reciprocally. There were more vertical trabeculae with transverse trabeculae at all densities, and the number of vertical trabeculae changed with density at twice the rate of the number of transverse trabeculae (P 〈 0.001). These data do not support the prevailing view that there is preferential resorption of horizontal trabeculae or hypertrophy of the remaining vertical trabeculae. Bone density was also a strong (R2 = 0.90,P 〈 0.01) power law function of the ratio of trabecular thickness to mean intertrabecular spacing. From buckling theory, the critical buckling load of a trabecula is related to this ratio of trabecular thickness to effective length. The changes in trabecular morphology observed with decreasing bone density thus pose a “triple threat” to the strength and stability of vertebral trabecular bone, as not only are there fewer trabeculae, but the remaining trabeculae are both thinner and longer.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01673396

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Effects of loading rate on strength of the proximal femur (1994)

Courtney, A. C. ; Wachtel, E. F. ; Myers, E. R. ; [et al.]

Springer

Calcified tissue international 55 (1994), S. 53-58

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ISSN: 1432-0827

Keywords: Hip fractures ; Femoral strength ; Rate sensitivity ; Aging ; Dual X-Ray absorptiometry

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Abstract Results from previous quasi-static mechanical tests indicate that femurs from elderly subjects fail in vitro at forces 50% below those available in a fall from standing height. However, bone is a rate-dependent material, and it is not known whether this imbalance is present at rates of loading which occur in a fall. Based on recent data on time to peak force and body positions at impact during simulated falls, we designed a high rate test of the femur in a loading configuration meant to represent a fall on the hip. We used elderly (mean age 73.5±7.4 (SD) years) and younger adult (32.7±12.8 years) cadaveric femurs to investigate whether (1) the strength, stiffness, and energy absorption capacity of the femur increases under high rate loading conditions; (2) elderly femurs have reduced strength, stiffness, and energy absorption capacity compared with younger adult femurs at this loading rate; and (3) densitometric and geometric measures taken at the hip correlate with the measured fracture loads. Femurs were scanned using dual-energy X-ray absorptiometry (DXA) and then tested to failure in a fall loading configuration at a displacement rate of 100 mm/second. The fracture load in elderly and younger adult femurs increased by about 20% with a 50-fold increase in displacement rate. However, energy absorption did not increase with displacement rate because of a twofold increase in stiffness at the higher loading rate. Age-related differences in strength and energy absorption capacity were consistent with those found previously for a displacement rate of 2 mm/second. There were moderate to strong correlations between fracture load and DXA variables, with the best correlation provided by cross-sectional area (r2=0.77) and bone mineral density (BMD) (r2=0.72) at the femoral neck. Our results indicate that, even at rates of loading applied during a fall, the estimated impact force in a fall on the hip is 35% greater than the average fracture load of the elderly femur. Moreover, the relationship we found between femoral neck BMD and fracture load indicates that an increase in femoral neck BMD of more than 20% would be required to raise the strength of the femur to the level of the impact load. As clinical trials of pharmacologic interventions have demonstrated increases in BMD of only a few percent at best, our results emphasize the continuing need for intervention strategies that focus on fall prevention and on reducing the severity of those falls that do occur.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00310169

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Healing of large segmental defects in rat femurs is aided by RhBMP-2 in PLGA matrix (1994)

Lee, S. C. ; Shea, M. ; Battle, M. A. ; [et al.]

Hoboken, NJ : Wiley-Blackwell

Journal of Biomedical Materials Research 28 (1994), S. 1149-1156

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ISSN: 0021-9304

Keywords: Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine , Technology

Notes: Recombinant human bone morphogenetic protein- (rhBMP-) can be used to enhance the repair of congenital or acquired bone pathologies when formulated in the appropriate carrier. Poly [D, L-(lactide-co-glycolide)] (PLGA) has been shown to be an effective carrier of rhBMP-. We investigated several particle sizes PLGA and several doses of rhBMP- in a rat orthotopic model. We also investigated the effects of a fibrinolytic inhibitory agent, epsilon aminocaproic acid (EACA), on the healing response. Our data indicate that higher doses of rhBMP- resulted in increased failure torque (408 ± 70 N-mm or 60% of the intact value) and higher incidence of union (100%). The induced bone in femurs treated with the smaller particle size PLGA achieved the greatest torsional stiffness and strength. The presence of rhBMP- was necessary for new bone to form, but the presence of EACA did not change these results; the use of the PLGA carrier appeared to increase bone strength and stiffness. In fact, with higher doses of rhBMP- in PLGA, the stiffness of the new bone was equal to that of intact controls (64 ± 20 N-mm/deg [intact femurs] versus 45 ± 10 N-mm/degree [medium dose in small PLGA], 61 ± 17 N-mm/degree [high dose in small PLGA], and 36 ± 11 N-mm/degree [medium dose in large PLGA]; P 〉 .05). In conclusion, PLGA implanted with rhBMP- effectively aided in healing large segmental defects in rat femurs. © 1994 John Wiley & Sons, Inc.

Additional Material: 4 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jbm.820281005

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