In vivo immunogenicity of bovine bone removed by a novel decellularization protocol based on supercritical carbon dioxide.

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In vivo immunogenicity of bovine bone removed by a novel decellularization protocol based on supercritical carbon dioxide.

Artif Cells Nanomed Biotechnol. 2018 May 04;:1-11

Authors: You L, Weikang X, Lifeng Y, Changyan L, Yongliang L, Xiaohui W, Bin X

Abstract
Trauma or infections associated critical bone defects lead to a huge economic burden in the healthcare system worldwide. Recent advances in tissue engineering have led to potential new strategies for the repair, replacement, and regeneration of bone defects, especially in biomaterials and decellularization protocols from xenogenic tissues. However, the complexity in bone structure and mechanical environment limits the synthesis of artificial bone with biomaterials. Thus, the purpose of our study is to develop a natural bone scaffold with great immunocompatibility. We combined decellularization techniques base on SC-CO2 to decellularize bovine bone. In order to study the immune response of mice to materials, the histology, spleen index, immune cells contents and in vitro proliferative performance, cytokine and immunoglobulin light chain expression of mice were characterized. Compared with the fresh bone group, the immune responses of decellularized group were significantly reduced. In conclusion, decellularization via this method can achieve a decellularized scaffold with great immunocompatibility. Our findings suggest the potential of using decellularized BB as a scaffold for bone bioengineering.

PMID: 29726299 [PubMed - as supplied by publisher]

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