Table 4.

Key findings in the use of biomimetic materials in the regenerative medicine field.

Key Findings and Applications	Description
Biomimetic scaffolds [89,90]	Introduction of biomechanical scaffolds based on nanodiamond-filled hydrophilic polymer matrix
Unique material properties [88]	Novel biomaterials with special mechanical and biological properties for advanced biomedical applications
Enhanced mechanical strength [91]	Hybrid nanocomposites with significantly improved mechanical strength compared to traditional hydrogels
Orthopedic applications [92]	Biomimetic implants find potential applications in orthopedic areas like the knee, ankle, hip, shoulder, and orthopedic column
Surgical oncology [93,94]	Supports bone regeneration following tumor elimination interventions in surgical oncology
Odonto-stomatological implants [98]	Development of bioactive odonto-stomatological implants using hybrid ceramic–polymeric biomimetic material
Bone remodeling stimulation [94]	Emphasis on creating bioactive scaffolding interfaces that stimulate healthy bone remodeling and growth
Biomechanical compatibility [89,90]	Use of mechanically compatible hybrid hydrogels to enhance prosthesis adaptation and replicate biomechanical functions of cartilage and ligaments