Realistic loads for testing hip implants

Realistic loads for testing hip implants

The aim here was to define realistic load conditions for hip implants, based on in vivo contact force measurements, and to see whether current ISO standards indeed simulate real loads. The load scenarios obtained are based on in vivo hip contact forces measured in 4 patients during different activit...

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Bibliographic Details
Published in:Bio-medical materials and engineering Vol. 20; no. 2; p. 65
Main Authors: Bergmann, G, Graichen, F, Rohlmann, A, Bender, A, Heinlein, B, Duda, G N, Heller, M O, Morlock, M M
Format: Journal Article
Language:English
Published: Netherlands 2010
Subjects:
Aged
Biomechanical Phenomena
Equipment Failure Analysis
Female
Hip - physiology
Hip Prosthesis - standards
Humans
Male
Materials Testing - standards
Middle Aged
Stress, Mechanical
Walking
Weight-Bearing
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Summary:The aim here was to define realistic load conditions for hip implants, based on in vivo contact force measurements, and to see whether current ISO standards indeed simulate real loads. The load scenarios obtained are based on in vivo hip contact forces measured in 4 patients during different activities and on activity records from 31 patients. The load scenarios can be adapted to various test purposes by applying average or high peak loads, high-impact activities or additional low-impact activities, and by simulating normal or very active patients. The most strenuous activities are walking (average peak forces 1800 N, high peak forces 3900 N), going up stairs (average peak forces 1900 N, high peak forces 4200 N) and stumbling (high peak forces 11,000 N). Torsional moments are 50% higher for going up stairs than for walking. Ten million loading cycles simulate an implantation time of 3.9 years in active patients. The in vitro fatigue properties of cementless implant fixations are exceeded during stumbling. At least for heavyweight and very active subjects, the real load conditions are more critical than those defined by the ISO standards for fatigue tests.
ISSN:1878-3619
DOI:10.3233/BME-2010-0616