Marine Bioceramic Generation for Bone Tissue Regeneration: Sea Urchin (Echinometra mathaei) Exoskeleton-Derived Calcium Carbonate as a Precursor for Hydroxyapatite Synthesis, Incorporated into Chitosan Based-Hydrogel and 3D-Printed PCL Scaffold for Osteogenic Differentiation | Synapse
March 3, 2026
Marine Bioceramic Generation for Bone Tissue Regeneration: Sea Urchin (Echinometra mathaei) Exoskeleton-Derived Calcium Carbonate as a Precursor for Hydroxyapatite Synthesis, Incorporated into Chitosan Based-Hydrogel and 3D-Printed PCL Scaffold for Osteogenic Differentiation
Key Points
Enhanced osteogenic differentiation is observed with hydroxyapatite synthesized from calcium carbonate.
The study finds that incorporating bioceramics into a chitosan-based hydrogel boosts bone tissue regeneration.
Utilization of 3D-printed PCL scaffold reveals positive results in bone regeneration techniques.
Bioceramic application highlights the potential for novel regenerative therapies using marine-derived materials.
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Cite This Study
Jamshidizadeh et al. (Thu,) studied this question.