期刊
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY
卷 136, 期 -, 页码 21-31出版社
JOURNAL MATER SCI TECHNOL
DOI: 10.1016/j.jmst.2022.07.008
关键词
Hydrogels; Bone organoid; Matrigel; Extracellular matrix; Bone tissue engineering
Bone organoids offer realistic models for bone regenerative medicine development, and the matrix microenvironment around tissues and cells plays a crucial role. Matrigel, traditionally used as a matrix, faces challenges, making newly developed hydrogels suitable alternatives. This review summarizes the development and limitations of Matrigel and highlights promising hydrogel alternatives for bone organoid cultures.
Bone organoids, which simulate and construct special organs in vitro with complex biological func-tions based on tissue engineering technology, provide dramatically realistic models for bone regenerative medicine development and lay the foundation for a new therapeutic strategy. The matrix microenviron-ment around tissues and cells plays a key role in the physiological functions and phenotypes of bone organoids. Traditionally, the commercially available Matrigel has been widely applied for organoid cul-tures. However, Matrigel is still facing challenges, including xenogenous origins and variable composi-tion. To address these issues, newly developed hydrogels become an appropriate candidate to alternate Matrigel for bone organoid culture. In this review, we summarized the development and limitations of ECM-based matrix (Matrigel) in the bone organoid cultures. Then we highlighted various hydrogel al-ternatives, including PEG, collagen, alginate, gelatin, chitosan, skin fibroin, and DNA derivative hydrogels, which have shown a promising application in bone tissue engineering and organoid cultures. Additionally, the effects of material properties (stiffness, viscoelasticity, charge, et al.) in hydrogels on cell culture and bone organoid culture were deeply investigated. Finally, we predicted that hydrogel-based biomaterials have a great potential for the construction and application of bone organoids. (c) 2022 Published by Elsevier Ltd on behalf of The editorial office of Journal of Materials Science & Technology.
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