Cultivation of agarose-based microfluidic hydrogel promotes the development of large, full-thickness, tissue-engineered articular cartilage constructs

Medicine & Life Sciences

• Microfluidics 91%
• Hydrogels 82%
• Articular Cartilage 81%
• Sepharose 81%
• Psychology Transfer 44%
• Nutrients 32%
• Extracellular Matrix 32%
• Hydrodynamics 22%
• Cues 16%
• Cell Survival 14%
• Cell Proliferation 12%

Engineering & Materials Science

• Cartilage 100%
• Hydrogels 98%
• Microfluidics 80%
• Tissue 64%
• Nutrients 47%
• Mass transfer 33%
• Cell proliferation 28%
• Cells 18%
• Hydrodynamics 16%
• Fabrication 14%

Chemistry

• Hydrogel 61%
• Nutrient 40%
• Mass Transfer 31%
• Cell Viability 19%
• Hydrodynamics 18%
• Length 11%