Edward F. Wachtel scite author profile

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.(ABSTRACT TRUNCATED AT 250 WORDS)

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Differences between the tensile and compressive strengths of bovine tibial trabecular bone depend on modulus

Keaveny¹,

Wachtel²,

Ford³

et al. 1994

Journal of Biomechanics

297

157

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Trabecular bone exhibits fully linear elastic behavior and yields at low strains

Keaveny

Guo

Wachtel

et al. 1994

Journal of Biomechanics

269

153

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Age-related reductions in the strength of the femur tested in a fall-loading configuration.

Courtney

Wachtel

Myers

et al. 1995

The Journal of Bone & Joint Surgery

255

130

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Mechanical behavior of damaged trabecular bone

Keaveny

Wachtel

Guo

et al. 1994

Journal of Biomechanics

104

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Edward F. Wachtel

Effects of loading rate on strength of the proximal femur

Differences between the tensile and compressive strengths of bovine tibial trabecular bone depend on modulus

Trabecular bone exhibits fully linear elastic behavior and yields at low strains

Age-related reductions in the strength of the femur tested in a fall-loading configuration.

Mechanical behavior of damaged trabecular bone

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