Cell culture has become an indispensable tool to help uncover fundamental biophysical and biomolecular mechanisms by which cells assemble into tissues and organs, how these tissues function, and how that function becomes disrupted in disease. Cell culture is now widely used in biomedical research, tissue engineering, regenerative medicine, and industrial practices. Although flat, two-dimensional (2D) cell culture has predominated, recent research has shifted toward culture using three-dimensional (3D) structures, and more realistic biochemical and biomechanical microenvironments. Nevertheless, in 3D cell culture, many challenges remain, including the tissue-tissue interface, the mechanical microenvironment, and the spatiotemporal distributions of oxygen, nutrients, and metabolic wastes. Here, we review 2D and 3D cell culture methods, discuss advantages and limitations of these techniques in modeling physiologically and pathologically relevant processes, and suggest directions for future research.

译文

细胞培养已成为必不可少的工具,可帮助发现细胞组装成组织和器官的基本生物物理和生物分子机制,这些组织如何发挥作用,以及该功能如何在疾病中被破坏。细胞培养现在广泛用于生物医学研究,组织工程,再生医学和工业实践。尽管平坦的二维 (2D) 细胞培养占主导地位,但最近的研究已转向使用三维 (3D) 结构以及更现实的生化和生物力学微环境进行培养。然而,在3D细胞培养中,仍然存在许多挑战,包括组织-组织界面,机械微环境以及氧气,营养物质和代谢废物的时空分布。在这里,我们回顾了2D和3D细胞培养方法,讨论了这些技术在模拟生理和病理相关过程中的优势和局限性,并提出了未来研究的方向。

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