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微流体辅助工程的水凝与微尺度的复杂性.

Yuehong Li1, Danyang Huang1, Yuting Zhang1

  • 1National Engineering Research Center for Biomaterials, Sichuan University, Chengdu, 610064, China; College of Biomedical Engineering, Sichuan University, Chengdu, 610064, China.

Acta biomaterialia
|May 11, 2025
PubMed
概括
此摘要是机器生成的。

微流体和3D生物打印使先进的有机体和器官芯片模型的精确水凝支架工程成为可能. 这些技术创造了复杂的组织结构,改善了细胞的控制和功能.

关键词:
在3D生物打印中使用3D生物打印水凝是一种水凝.微流体学 微流体学微球是微球的组成部分.器官在芯片上的器官

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科学领域:

  • 生物材料科学 生物材料科学
  • 组织工程是组织工程.
  • 微流体学 微流体学

背景情况:

  • 水凝模仿3D细胞培养的细胞外基质 (ECM).
  • 微流体学和3D生物打印为水凝脚手架的制造和组装提供了精确的控制.
  • 这些技术对于开发先进的有机体和芯片器官系统至关重要.

研究的目的:

  • 审查用于水凝微球和微纤维制备的微流体策略.
  • 讨论微流体与3D生物打印技术的整合.
  • 要突出在有机体和器官芯片开发中的应用.

主要方法:

  • 微流体辅助制造水凝微球 (0D) 和微纤维 (1D).
  • 将水凝模块分层组装成3D结构.
  • 与空间工程和培养3D生物打印的整合.

主要成果:

  • 在水凝尺寸,形态和成分控制方面,前所未有的精度.
  • 产生具有微尺度复杂性的3D构造,包括梯度和血管网络.
  • 克服静态3D文化与动态微环境的局限性.

结论:

  • 微流体和生物打印的协同集成使复杂的组织模型成为可能.
  • 进步促进了细胞异质性,血管和多细胞相互作用的改善.
  • 为下一代有机体和器官芯片系统铺平了道路,这些系统更好地模仿人类病理生理学.