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Dynamic microphysiological system chip platform for high-throughput, customizable, and multi-dimensional drug screening

Authors :
Yuxuan Zhu
Deming Jiang
Yong Qiu
Xin Liu
Yuhan Bian
Shichao Tian
Xiandi Wang
K. Jimmy Hsia
Hao Wan
Liujing Zhuang
Ping Wang
Source :
Bioactive Materials, Vol 39, Iss , Pp 59-73 (2024)
Publication Year :
2024
Publisher :
KeAi Communications Co., Ltd., 2024.

Abstract

Spheroids and organoids have attracted significant attention as innovative models for disease modeling and drug screening. By employing diverse types of spheroids or organoids, it is feasible to establish microphysiological systems that enhance the precision of disease modeling and offer more dependable and comprehensive drug screening. High-throughput microphysiological systems that support optional, parallel testing of multiple drugs have promising applications in personalized medical treatment and drug research. However, establishing such a system is highly challenging and requires a multidisciplinary approach. This study introduces a dynamic Microphysiological System Chip Platform (MSCP) with multiple functional microstructures that encompass the mentioned advantages. We developed a high-throughput lung cancer spheroids model and an intestine-liver-heart-lung cancer microphysiological system for conducting parallel testing on four anti-lung cancer drugs, demonstrating the feasibility of the MSCP. This microphysiological system combines microscale and macroscale biomimetics to enable a comprehensive assessment of drug efficacy and side effects. Moreover, the microphysiological system enables evaluation of the real pharmacological effect of drug molecules reaching the target lesion after absorption by normal organs through fluid-based physiological communication. The MSCP could serves as a valuable platform for microphysiological system research, making significant contributions to disease modeling, drug development, and personalized medical treatment.

Details

Language :
English
ISSN :
2452199X
Volume :
39
Issue :
59-73
Database :
Directory of Open Access Journals
Journal :
Bioactive Materials
Publication Type :
Academic Journal
Accession number :
edsdoj.f9bb21f0f42a49f7bb329c4442ff6ad9
Document Type :
article
Full Text :
https://doi.org/10.1016/j.bioactmat.2024.05.019