Pump-Free Unidirectional Vertical Centrifugal Microfluidic Platform for Dynamic 3D Tumor Cluster Culture and Functional Drug Screening.

IF 9.6 2区医学 Q1 ENGINEERING, BIOMEDICAL

Advanced Healthcare Materials Pub Date : 2025-10-08 DOI:10.1002/adhm.202504241

Ke Ning, Yuanyuan Xie, Xiaoyan Yang, Yirong Chen, Wen Sun, Jinhua Chen, Jingtao Zhu, Yan Li, Yingshuai Liu, Ling Yu

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引用次数: 0

Abstract

Recapitulating the dynamic microenvironment is essential for advanced 3D cell culture and reliable drug testing, yet conventional static platforms lack physiologically relevant fluid dynamics. Here, a pump-free vertical dual-circulation centrifugal microfluidic platform is presented, enabling unidirectional medium flow and efficient nutrient exchange for hydrogel-based 3D cultures. By combining centrifugal and gravitational forces, this integrated system achieves stable long-term circulation and establishes tunable concentration gradients, supporting sustained tumor clusters growth under dynamic conditions. Compared with static systems, the platform significantly enhances tumor spheroid expansion, promotes complex morphological remodeling, and facilitates fusion events. Functional drug perfusion studies demonstrate improved doxorubicin distribution and reduced local drug accumulation. This new type of vertical centrifugal microfluidic platform provides a versatile solution for dynamic tissue culture and drug screening, advancing the capabilities of in vitro disease modeling and personalized medicine.

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无泵单向垂直离心微流控平台动态三维肿瘤簇培养及功能药物筛选。

重现动态微环境对于先进的3D细胞培养和可靠的药物测试至关重要，然而传统的静态平台缺乏与生理相关的流体动力学。本文提出了一种无泵立式双循环离心微流控平台，可实现水凝胶三维培养的单向介质流动和高效的营养物质交换。通过离心力和重力的结合，这个综合系统实现了稳定的长期循环，并建立了可调的浓度梯度，支持肿瘤簇在动态条件下的持续生长。与静态系统相比，该平台显著增强肿瘤球体扩张，促进复杂形态重塑，促进融合事件发生。功能药物灌注研究表明，阿霉素的分布得到改善，局部药物积累减少。这种新型的立式离心微流控平台为动态组织培养和药物筛选提供了一种通用的解决方案，提高了体外疾病建模和个性化医疗的能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Healthcare Materials 工程技术-生物材料

CiteScore

14.40

自引率

3.00%

发文量

600

审稿时长

1.8 months

期刊介绍： Advanced Healthcare Materials, a distinguished member of the esteemed Advanced portfolio, has been dedicated to disseminating cutting-edge research on materials, devices, and technologies for enhancing human well-being for over ten years. As a comprehensive journal, it encompasses a wide range of disciplines such as biomaterials, biointerfaces, nanomedicine and nanotechnology, tissue engineering, and regenerative medicine.