Thermoresponsive, redox-polymerized cellulosic hydrogels undergo in situ gelation and restore intervertebral disc biomechanics post discectomy

Medicine & Life Sciences

• Carboxymethylcellulose Sodium 95%
• Nucleus Pulposus 94%
• Methylcellulose 94%
• Diskectomy 90%
• Intervertebral Disc 83%
• Hydrogels 77%
• Oxidation-Reduction 69%
• Biomechanical Phenomena 69%
• Biocompatible Materials 61%
• Intervertebral Disc Degeneration 30%
• Injections 13%
• Neck Pain 13%
• Back Pain 12%
• Articular Range of Motion 11%
• Capsules 10%
• Polymers 10%
• Gels 9%
• Wounds and Injuries 5%
• In Vitro Techniques 5%

Engineering & Materials Science

• Gelation 100%
• Oxidation-Reduction 94%
• Hydrogels 93%
• Biomaterials 88%
• Biomechanics 87%
• Tissue 24%
• Biocompatibility 17%
• Rats 17%
• Swelling 16%
• Gels 15%
• Polymers 10%
• Stiffness 10%
• Testing 7%

Chemical Compounds

• Biomaterial 61%
• Hydrogel 57%
• Critical Micelle Concentration 35%
• Biocompatible Material 32%
• Fibrous Crystal 18%
• Gel 11%