A scaffold-driven coordination paradigm with built-in hypoxia mimicry and hypertrophy inhibition for functional cartilage regeneration

Key Points

• Functional cartilage regeneration achieved with scaffold-driven models, emphasizing hypoxia's role.
• Hypoxia mimicry in scaffolding significantly inhibits hypertrophy, promoting effective cartilage repair.
• Assessment using scaffold-driven coordination paradigms reveals potential for improved regeneration outcomes.
• Implications highlight the need for further research into scaffold designs for optimal functional cartilage restoration.