Keyphrases
Polymerized
100%
Discectomy
100%
Redox
100%
Intervertebral Disc Biomechanics
100%
Thermoresponsive
100%
Methylcellulose
100%
Carboxymethyl Cellulose
100%
Cellulose Hydrogel
100%
In Situ Gelation
100%
Biomaterials
66%
Nucleus Pulposus
66%
Intervertebral Disc Height
50%
In Situ
50%
Biomechanical Behavior
50%
Nucleus Pulposus Replacement
33%
Back Pain
16%
Intervertebral Disc Degeneration
16%
Intervertebral Disc
16%
Biocompatibility
16%
Stiffness
16%
Range of Motion
16%
Loading Conditions
16%
Neck Pain
16%
Commercially Available
16%
Tissue Properties
16%
High Biocompatibility
16%
In Vivo Performance
16%
Herniation
16%
In Vivo Testing
16%
Strong Potential
16%
Disc Height Loss
16%
Subcutaneous Implantation
16%
Intact Level
16%
Neutral Zone
16%
Fibrous Capsule
16%
Biocompatible Hydrogel
16%
Injectable Hydrogel
16%
Gelation
16%
Polymer Network
16%
In Situ Gelling
16%
Biomechanical Function
16%
Dual Polymer
16%
Height Function
16%
Tunable Hydrogels
16%
Severe Loading
16%
Thermogel
16%
Structural Augmentation
16%
Engineering
Biomechanics
100%
Hydrogel
100%
Gelation
100%
Cellulosics
100%
Critical Micelle Concentration
100%
Biomechanical Behavior
50%
Good Biocompatibility
16%
Neutral Zone
16%
Loading Condition
16%
Network Polymer
16%
Biomechanical Function
16%
Fibrous Capsule
16%
Pharmacology, Toxicology and Pharmaceutical Science
Methylcellulose
100%
Carboxymethylcellulose
100%
Critical Micelle Concentration
100%
Biomaterial
83%
Injury
16%
Backache
16%
Intervertebral Disk Degeneration
16%
Hernia
16%
Neck Pain
16%
Biocompatibility
16%
Material Science
Hydrogel
100%
Critical Micelle Concentration
100%
Biomaterial
83%
Biocompatibility
16%
Polymer Network
16%
Chemical Engineering
Hydrogel
100%
Gelation
100%