Octacalcium Phosphate/Calcium Citrate/Methacrylated Gelatin Composites: Optimization of Photo-Crosslinking Conditions and Osteogenic Potential Evaluation
Yuejun Wang, Taishi Yokoi, Masaya Shimabukuro, Masakazu Kawashita

TL;DR
This study develops a composite material for bone grafting that improves structural stability while retaining the ability to form bone-like minerals.
Contribution
The study introduces a 35% OCP/35% CC/30% GelMA composite with optimized photo-crosslinking for enhanced bone regeneration.
Findings
The OCP/CC/GelMA composite showed enhanced initial structural stability in simulated body fluid.
The composite retained its hydroxyapatite-forming ability despite reduced nucleation compared to pig Gel composites.
The material is proposed as a stable scaffold for future bone regeneration research.
Abstract
Bone grafting is essential for the regeneration of bone defects where natural healing is inadequate. Octacalcium phosphate (OCP)/calcium citrate (CC)/pig gelatin (pig Gel) composites promote hydroxyapatite (HAp) formation in simulated body fluid (SBF); however, the rapid degradation of pig Gel leads to their degradation in SBF within 7 d. To address this, we developed a 35% OCP/35% CC/30% methacrylated gelatin (GelMA) composite by leveraging the tuneable photo-crosslinking ability of GelMA to enhance the initial structural stability in SBF. However, the optimal synthetic photo-crosslinking conditions and the apatite-forming abilities of the OCP/CC/GelMA composite require investigation. In this study, we employed photo-crosslinking to synthesize homogeneous OCP/CC/GelMA composites with initial structural stability in SBF and evaluated their HAp-forming ability in SBF as an indicator of…
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Taxonomy
TopicsBone Tissue Engineering Materials · Periodontal Regeneration and Treatments · Dental Implant Techniques and Outcomes
