Strain sensor on a chip for quantifying the magnitudes of tensile stress on cells

Author:

Zhang Yuyin,Wang Yue,Yin Hongze,Wang Jiahao,Liu NaORCID,Zhong Songyi,Li Long,Zhang Quan,Yue TaoORCID

Abstract

AbstractDuring cardiac development, mechanotransduction from the in vivo microenvironment modulates cardiomyocyte growth in terms of the number, area, and arrangement heterogeneity. However, the response of cells to different degrees of mechanical stimuli is unclear. Organ-on-a-chip, as a platform for investigating mechanical stress stimuli in cellular mimicry of the in vivo microenvironment, is limited by the lack of ability to accurately quantify externally induced stimuli. However, previous technology lacks the integration of external stimuli and feedback sensors in microfluidic platforms to obtain and apply precise amounts of external stimuli. Here, we designed a cell stretching platform with an in-situ sensor. The in-situ liquid metal sensors can accurately measure the mechanical stimulation caused by the deformation of the vacuum cavity exerted on cells. The platform was applied to human cardiomyocytes (AC16) under cyclic strain (5%, 10%, 15%, 20 and 25%), and we found that cyclic strain promoted cell growth induced the arrangement of cells on the membrane to gradually unify, and stabilized the cells at 15% amplitude, which was even more effective after 3 days of culture. The platform’s precise control and measurement of mechanical forces can be used to establish more accurate in vitro microenvironmental models for disease modeling and therapeutic research.

Funder

National Natural Science Foundation of China

Shanghai Science and Technology Development Foundation

Shanghai Municipal Education Commission | E-Institutes of Shanghai Municipal Education Commission

Publisher

Springer Science and Business Media LLC

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