A mechanically robust egg white hydrogel scaffold with excellent biocompatibility by three-step green processing

Egg white (EW) is one of the most common and high-quality nutritional proteins. A novel three-step green processing technology is constructed to process homogeneous EW into a mechanically robust EW hydrogel scaffold (EWHS) with excellent biocompatibility. The homogeneous EW is first treated with str...

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Bibliographic Details
Published in:Science China. Technological sciences 2022-07, Vol.65 (7), p.1599-1612
Main Authors: Wei, Zhen-Zhen, Dong, Xuan, Zhang, Yu-Qing
Format: Article
Language:English
Subjects:
Albumen
Alkaline protease
Biocompatibility
Biomedical materials
Dehydration
Eggs
Elongation
Engineering
Hydrogels
Medical materials
Papain
Pepsin
Pore size distribution
Protease
Robustness
Scaffolds
Soft tissues
Surgical implants
Tendons
Tensile strength
Tissue engineering
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Summary:Egg white (EW) is one of the most common and high-quality nutritional proteins. A novel three-step green processing technology is constructed to process homogeneous EW into a mechanically robust EW hydrogel scaffold (EWHS) with excellent biocompatibility. The homogeneous EW is first treated with stream to form a hydrogel, then slowly dehydrated to form a fragile and almost transparent EW glass, and finally annealed into an EWHS. The EWHS is water-insoluble, wet soft and translucent and has a porous network structure, and its pore size distribution is between 0.1–1.0 µm. The tensile strength in wet state is as high as 5.0 MPa, the elongation at break is about 93%, and the swelling rate is about 85%. The order of the enzymatically residual rate of these EWHSs is pepsin > neutral protease > papain> trypsin > alkaline protease. Mouse L929 cells can adhere, proliferate, and grow well on the EWHSs. After EWHS was implanted in rats for three weeks, the levels of IL-6, TNF-α, and NF-κB inflammatory factors did not change significantly in comparison with the pseudo-operated and normal groups. This novel EW hydrogel biomaterial has potential applications in medical 3D tissue engineering materials, such as tendons, soft tissues, and in vivo implants.
ISSN:1674-7321
1869-1900
DOI:10.1007/s11431-022-2039-2