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Strain Gauges Used In The Mechanical Testing Of Bones. Part II: "In Vitro" And "in Vivo" Technique.
J. Cordey, E. Gautier
Published 1999 · Medicine
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How to choose and prepare the strain gauges for bonding on bones "in vitro" and "in vivo"? This communication aims to elucidate technical details and some applications: direct assessment of the axial load, the bending moment, and the torque applied to long bones by the physiological loads. As a typical example of application, we will show the assessment of stress protection due to plates on the bones in the sheep tibia.
This paper references
Hip joint loading during walking and running, measured in two patients.
G. Bergmann (1993)
Intravital wireless telemetry of axial forces in Harrington distraction rods in patients with idiopathic scoliosis.
A. Nachemson (1971)
Bone deformation recorded in vivo from strain gauges attached to the human tibial shaft.
L. Lanyon (1975)
Measurements of bone strain in the walking animal.
L. Lanyon (1969)
Parametric Analysis of the Stress Protection in Bone After Plating
J. Cordey (1987)
Intravital Measurements of Forces Acting on the Hip-Joint
N. Rydell (1966)
Encyclopedie Vishay d'analyse des contraintes
J. Avril (1974)
Current concepts of internal fixation of fractures.
Uhthoff Hk (1980)
Strain-gage techniques in biomechanics
V. Roberts (1966)
A method of measuring the change in compression applied to living cortical bone.
S. Perren (1969)
Biomechanics: Basic and Applied Research
G. Bergmann (1987)
Measurement and analysis of invivo bone strains on the canine radius and ulna
D. Carter (1980)
Bestimmung der Knochendehnung in vitro und in vivo nach Plattenosteosynthese
J. Brennwald (1972)
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S. Rothstock (2012)
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K. Stoffel (2000)
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R. Austman (2007)
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A. Gül (2004)
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A. Completo (2006)
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A. Completo (2008)
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J. Snedeker (2005)
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J. Kerrigan (2008)
The fabrication of integrated strain sensors for 'smart' implants using a direct write additive manufacturing approach
Li-Ju Wei (2015)
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T. Reich (2006)
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R. Hente (2003)
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J. Snedeker (2006)
Analysis of trabecular bone mechanical properties from magnetic resonance images
Z. Zabolizadeh (2012)
Correlation of strain and loads measured in the long bones with observed kinematics of the lower limb during vehicle-pedestrian impacts.
C. Untaroiu (2007)
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Melissa M Simonik (2018)
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Peter Niederer (2001)
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R. Duarte (2015)
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U. Zapata (2014)