Keyphrases
Total Disc Arthroplasty
100%
Automated System
100%
Polymer Wear
100%
Convolution Neural Network
100%
Wear Debris Analysis
100%
Wear Debris
75%
Total Joint Replacement
50%
Biological Reactions
50%
Wear Particles
50%
Biological Activity
25%
Ultra-high Molecular Weight Polyethylene (UHMWPE)
25%
Few Resources
25%
Segmentation Algorithm
25%
Computer Use
25%
Feature Map
25%
Complexity Features
25%
Failure Mode
25%
Poor Insight
25%
Computer Algorithm
25%
Classification Accuracy
25%
Particle Characteristics
25%
Adaptive Thresholding
25%
Time Consumption
25%
Wear Volume
25%
Volumetric Concentration
25%
Computer-aided
25%
Numerics
25%
Encounter Problem
25%
Improved Design
25%
Volume Distribution
25%
Total Disc Replacement
25%
Spine Simulator
25%
Wear Regime
25%
Osteolysis
25%
Manual Segmentation
25%
User Error
25%
User Bias
25%
Improved Material
25%
Manual Identification
25%
Joint Failure
25%
Volumetric Distribution
25%
Polyethylene Polymer
25%
Particle Segmentation
25%
Osteolytic
25%
Convolution Operation
25%
Engineering
Wear Debris
100%
Convolutional Neural Network
100%
Automated System
100%
Wear Debris Analysis
100%
Joints (Structural Components)
60%
Biological Reaction
40%
High Molecular Weight Polyethylene
20%
Failure Mode
20%
Classification Accuracy
20%
Bioactivity
20%