High oxygen preservation hydrogels to augment cell survival under hypoxic condition

Engineering & Materials Science

• Hydrogels 100%
• Cells 75%
• Oxygen 62%
• Stem cells 27%
• Tissue 21%
• Phosphates 14%
• Tissue regeneration 10%
• Cell death 9%
• Gelation 8%
• Sol-gels 8%
• Polyethylene glycols 8%
• Biocompatibility 7%
• Copolymers 7%
• Partial pressure 7%
• Polymerization 7%
• Gels 6%
• Bone 6%
• Temperature 5%
• Degradation 4%

Medicine & Life Sciences

• Hydrogels 83%
• Cell Survival 58%
• Oxygen 55%
• N-isopropylacrylamide 22%
• Cell- and Tissue-Based Therapy 12%
• perfluorooctane 11%
• Phosphates 11%
• Gels 10%
• Stem Cells 9%
• hydroxyethyl methacrylate 9%
• acrylic acid 9%
• Temperature 9%
• Methacrylates 8%
• Ethylene Glycol 7%
• Partial Pressure 7%
• Polymethyl Methacrylate 7%
• Cell Transplantation 6%
• Polymerization 6%
• Mesenchymal Stem Cells 5%
• Regeneration 5%
• Cell Death 4%
• Inflammation 3%
• Injections 3%
• Growth 3%
• Mortality 3%
• Therapeutics 2%

Chemical Compounds

• Cell Viability 76%
• Hydrogel 61%
• Dioxygen 37%
• 2-Hydroxyethyl Methacrylate 7%
• Cell Death 6%
• Partial Pressure 6%
• Degradation Product 6%
• Ethylene Glycol 5%
• Copolymer 4%
• Gel 4%
• Ambient Reaction Temperature 3%