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Humidity-Responsive Amorphous Calcium–Magnesium Pyrophosphate/Cassava Starch Scaffold for Enhanced Neurovascular Bone Regeneration

Mengmeng Yang, Xiang Cai, Cheng Wang, Pengyin Li, Shaoqing Chen, Chun Liu, Yao Wang, Kun Qian, Qiangsheng Dong, Feng Xue, Chenglin Chu, Jing Bai, Qizhan Liu, Xinye Ni

2024ACS Applied Materials & Interfaces17 citationsDOI

Abstract

Developing a neurovascular bone repair scaffold with an appropriate mechanical strength remains a challenge. Calcium phosphate (CaP) is similar to human bone, but its scaffolds are inherently brittle and inactive, which require recombination with active ions and polymers for bioactivity and suitable strength. This work discussed the synthesis of amorphous magnesium-calcium pyrophosphate (AMCP) and the subsequent development of a humidity-responsive AMCP/cassava starch (CS) scaffold. The scaffold demonstrated enhanced mechanical properties by strengthening the intermolecular hydrogen bonds and ionic bonds between AMCP and CS during the gelatinization and freeze-thawing processes. The release of active ions was rapid initially and stabilized into a long-term stable release after 3 days, which is well-matched with new bone growth. The release of pyrophosphate ions endowed the scaffold with antibacterial properties. At the cellular level, the released active ions simultaneously promoted the proliferation and mineralization of osteoblasts, the proliferation and migration of endothelial cells, and the proliferation of Schwann cells. At the animal level, the scaffold was demonstrated to promote vascular growth and peripheral nerve regeneration in a rat skull defect experiment, ultimately resulting in the significant and rapid repair of bone defects. The construction of the AMCP/CS scaffold offers practical suggestions and references for neurovascular bone repair.

Topics & Concepts

Materials scienceAmorphous calcium phosphateScaffoldBone growthRegeneration (biology)CalciumBone healingBiophysicsDorsal root ganglionBiomedical engineeringCell biologyAnatomyBiologyEndocrinologyMetallurgyMedicineDorsumBone Tissue Engineering MaterialsFacial Trauma and Fracture ManagementHemostasis and retained surgical items