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Increased connectivity of hiPSC-derived neural networks in multiphase granular hydrogel scaffolds 被引量:3
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作者 Chia-Chen Hsu Julian H.George +7 位作者 Sharlayne Waller Cyril Besnard David A Nagel Eric J Hill michael d.coleman Alexander M.Korsunsky Zhanfeng Cui Hua Ye 《Bioactive Materials》 SCIE 2022年第3期358-372,共15页
To reflect human development,it is critical to create a substrate that can support long-term cell survival,differentiation,and maturation.Hydrogels are promising materials for 3D cultures.However,a bulk structure cons... To reflect human development,it is critical to create a substrate that can support long-term cell survival,differentiation,and maturation.Hydrogels are promising materials for 3D cultures.However,a bulk structure consisting of dense polymer networks often leads to suboptimal microenvironments that impedes nutrient exchange and cell-to-cell interaction.Herein,granular hydrogel-based scaffolds were used to support 3D human induced pluripotent stem cell(hiPSC)-derived neural networks.A custom designed 3D printed toolset was developed to extrude hyaluronic acid hydrogel through a porous nylon fabric to generate hydrogel granules.Cells and hydrogel granules were combined using a weaker secondary gelation step,forming self-supporting cell laden scaffolds.At three and seven days,granular scaffolds supported higher cell viability compared to bulk hydrogels,whereas granular scaffolds supported more neurite bearing cells and longer neurite extensions(65.52±11.59μm)after seven days compared to bulk hydrogels(22.90±4.70μm).Long-term(three-month)cultures of clinically relevant hiPSC-derived neural cells in granular hydrogels supported well established neuronal and astrocytic colonies and a high level of neurite extension both inside and beyond the scaffold.This approach is significant as it provides a simple,rapid and efficient way to achieve a tissue-relevant granular structure within hydrogel cultures. 展开更多
关键词 MICROGEL HYDROGEL HYALURONAN IPSC Neural tissue engineering 3D printing
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