Biofabrication of engineered tissues by 3D bioprinting of tissue specific high cell-density bioinks

Oju Jeon, Hyoeun Park, Kent Leach, Eben Alsberg
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Abstract

Bioprinting of high cell-density bioinks is a promising technique for cellular condensation-based tissue engineering and regeneration medicine. However, it remains difficult to create precisely controlled complex structures and organization of tissues with high cell-density bioink-based bioprinting for tissue specific condensation. In this study, we present newly biofabricated tissues from directly assembled, tissue specific, high cell-density bioinks which have been three-dimensionally printed into a photocrosslinkable and biodegradable hydrogel microparticle supporting bath. Three types of tissue specific high cell-density bioinks have been prepared with individual stem cells or stem cell aggregates by incorporation of growth factor-loaded gelatin microparticles. The bioprinted tissue specific high cell-density bioinks in the photocrosslinked microgel supporting bath condense together and differentiate down tissue-specific lineages to form multi-phase tissues (e.g., osteochondral tissues). By changing the growth factors and cell types, these tissue specific high cell-density bioinks enable engineering of various functional tissues with controlled architecture and organization of cells.
通过组织特异性高细胞密度生物墨水的三维生物打印技术制造工程组织
高细胞密度生物墨水的生物打印技术是一种很有前景的基于细胞凝结的组织工程和再生医学技术。然而,基于高细胞密度生物墨水的生物打印技术仍难以精确控制组织的复杂结构和组织特异性。在本研究中,我们展示了由直接组装的组织特异性高细胞密度生物墨水制成的新型生物制造组织,这些生物墨水已被三维打印到可光交联和生物降解的水凝胶微颗粒支撑浴中。通过加入含有生长因子的明胶微粒,制备了三种含有单个干细胞或干细胞聚集体的组织特异性高细胞密度生物沉淀。在光交联微凝胶支撑浴中,生物打印的组织特异性高细胞密度生物墨水凝结在一起,并按照组织特异性系谱分化,形成多相组织(如骨软骨组织)。通过改变生长因子和细胞类型,这些具有组织特异性的高细胞密度生物沉淀物可控制细胞的结构和组织,从而实现各种功能组织的工程化。
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