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The effect of anterior-posterior shear load on the wear of ProDisc-L TDR
R. Vicars
*
, P. J. Hyde
, T. D. Brown
, J. L. Tipper
, Eileen Ingham
, J. Fisher
,
R. M. Hall
*
Corresponding author for this work
Engineering
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Keyphrases
Anterior-posterior
100%
Total Disc Replacement
100%
Shear Load
100%
ProDisc-L
100%
4-DOF
100%
5-DOF
100%
Wear Rate
50%
Wear Scar Diameter
50%
Dome
33%
In Vivo Data
16%
Axial Load
16%
Lubricant
16%
Protein Concentration
16%
Scar
16%
Wear Testing
16%
Gravimetric Method
16%
Wear Test
16%
Flexion-extension
16%
Bovine Serum
16%
Axial Rotation
16%
Lateral Bending
16%
Bending Rotation
16%
Four Degrees of Freedom
16%
TDRs
16%
Extra Degree of Freedom
16%
Gravimetric Measurements
16%
Testing Standards
16%
Polyethylene Insert
16%
Engineering
Million Cycle
100%
Shear Loads
100%
Implant
50%
Degree of Freedom
50%
Axial Load
25%
Repeated Measurement
25%
Protein Concentration
25%
Additional Degree
25%
Polyethylene Insert
25%
Material Science
Polyethylene
100%
Wear Testing
100%
Shear Loads
100%