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Keyphrases
Intra-articular
100%
Biological Response
100%
Polycarbonate Urethane
100%
Wear Debris Particles
100%
Wear Particles
55%
Ultra-high Molecular Weight
44%
Polyethene
44%
Orthopedics
22%
Synovial Joint
22%
Prosthetic Joint Replacement
22%
Inflammatory Response
11%
Friction
11%
Study Support
11%
Rabbit Model
11%
Knee Joint
11%
Injection Site
11%
In Vitro Characterization
11%
Biologically Active
11%
Bearing Surface
11%
New Zealand White Rabbit
11%
Submicron-sized
11%
Orthopedic Applications
11%
Wear Debris
11%
Scanning Electron Microscope Image
11%
Particle Characterization
11%
Articulating Surface
11%
Low Wear Rate
11%
INIS
in vivo
100%
wear
100%
polycarbonates
100%
particles
100%
urethane
100%
molecular weight
36%
injection
18%
surfaces
18%
rabbits
18%
reactivity
9%
images
9%
applications
9%
size
9%
inflammation
9%
range
9%
in vitro
9%
friction
9%
bone joints
9%
scanning electron microscopy
9%
new zealand
9%
Engineering
Polycarbonate
100%
Biological Response
100%
Wear Debris
100%
Joints (Structural Components)
44%
Molecular Weight
44%
Molecular Mass
44%
Joint Prosthetics
22%
Size Range
11%
Orthopedic Application
11%
Case Scenario
11%
Injection Site
11%
Low Wear Rate
11%
Bearing Surface
11%
Articulating Surface
11%
Medicine and Dentistry
Urethan
100%
Polycarbonate
100%
Joint Replacement
22%
Synovial Joint
22%
Orthopedic Prosthetics
22%
Serositis
11%
In Vitro
11%
Scanning Electron Microscopy
11%
Orthopedics
11%
Knee Joint
11%
Injection Site
11%
Material Science
Polycarbonate
100%
Wear Debris
100%
Joint Prosthetics
22%
Scanning Electron Microscopy
11%
Particle Characterization
11%
Surface (Surface Science)
11%
Immunology and Microbiology
Molecular Weight
100%
Inflammation Response
25%
Knee
25%
Rabbit Model
25%
New Zealand White (Rabbit)
25%
Scanning Electron Microscopy
25%
Preclinical Study
25%
Earth and Planetary Sciences
Urethane
100%
Molecular Weight
44%
Scanning Electron Microscopy
11%