location: Current position: Home >> Scientific Research >> Paper Publications

A novel microfluidic model can mimic organ-specific metastasis of circulating tumor cells

Hits:

Indexed by:期刊论文

Date of Publication:2016-11-29

Journal:ONCOTARGET

Included Journals:SCIE

Volume:7

Issue:48

Page Number:78421-78432

ISSN No.:1949-2553

Key Words:microfluidic; metastasis; circulating tumor cells; multi-organ; bionic model

Abstract:A biomimetic microsystem might compensate costly and time-consuming animal metastatic models. Herein we developed a biomimetic microfluidic model to study cancer metastasis. Primary cells isolated from different organs were cultured on the microlfuidic model to represent individual organs. Breast and salivary gland cancer cells were driven to flow over primary cell culture chambers, mimicking dynamic adhesion of circulating tumor cells (CTCs) to endothelium in vivo. These flowing artificial CTCs showed different metastatic potentials to lung on the microfluidic model. The traditional nude mouse model of lung metastasis was performed to investigate the physiological similarity of the microfluidic model to animal models. It was found that the metastatic potential of different cancer cells assessed by the microfluidic model was in agreement with that assessed by the nude mouse model. Furthermore, it was demonstrated that the metastatic inhibitor AMD3100 inhibited lung metastasis effectively in both the microfluidic model and the nude mouse model. Then the microfluidic model was used to mimick liver and bone metastasis of CTCs and confirm the potential for research of multiple-organ metastasis. Thus, the metastasis of CTCs to different organs was reconstituted on the microfluidic model. It may expand the capabilities of traditional cell culture models, providing a low-cost, time-saving, and rapid alternative to animal models.

Pre One:基于便携拉曼光谱仪和双层纸芯片的头发皮质醇超高灵敏检测

Next One:Sepsis-induced impairment of neutrophil chemotaxis on a microfluidic chip