Chen-Xi Bi scite author profile

Chen-Xi Bi

3Publications

22Citation Statements Received

88Citation Statements Given

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190

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Wuhan University

Publications

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Soft Electrodes for Electrochemical and Electrophysiological Monitoring of Beating Cardiomyocytes

et al. 2022

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Many cells in vivo have their inherent motions, which involve numerous biochemical and biophysical signals synergistically regulating cell behavior and function. However, existing methods offer little information about the concurrently chemical and physical responses of dynamically pulsing cells. Here, we report a soft electrode with an electrospun poly(3,4‐ethylenedioxythiophene) (PEDOT)‐based nanomesh to fully comply with spontaneous motions of cells. Moreover, this electrode demonstrated excellent electrical conductivity, electrochemical performance and cellular biocompatibility. Cardiomyocytes cultured thereon exhibited autonomous and rhythmic contractility, and synchronously induced mechanical deformation of the underlying electrode, which allowed real‐time monitoring of nitric oxide release and electrophysiological activity of cardiomyocytes. This work provides a promising way toward recording chemical and electrical signals of biological systems with their natural motions.

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Soft Electrodes for Electrochemical and Electrophysiological Monitoring of Beating Cardiomyocytes

et al. 2022

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Figure 4. Real-time monitoring of electrochemical and electrophysiological signals from cardiomyocytes. a) Illustration of the possible signaling pathway of NO-induced cell beat under NE stimulation. b), c) Current responses detected from cardiomyocytes on the PEDOT-based nanomesh electrode under different conditions. d) The typical electrophysiological signals recorded on i) self-supporting PEDOT-based nanomesh, ii) PEDOTbased nanomesh attached on PDMS film. The typical electrophysiological signals recorded using the self-supporting PEDOT-based nanomesh after iii) NE stimulation and iv) with L-NMMA incubation, respectively. e) Corresponding statistical bar diagram of beating frequency and amplitude (n = 10) (means � SD; one-way ANOVA, *** p � 0.001, ** p � 0.01 and * p � 0.05).

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Nanofiber-based Stretchable Electrodes for Oriented Culture and Mechanotransduction Monitoring of Smooth Muscle Cells

Jin

Yan

et al. 2023

ACS Sens.

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Vascular smooth muscle cells (SMCs) are circumferentially oriented perpendicular to the blood vessel and maintain the contractile phenotype in physiological conditions. They can sense the mechanical forces of blood vessels expanding and contracting and convert them into biochemical signals to regulate vascular homeostasis. However, the real-time monitoring of mechanically evoked biochemical response while maintaining SMC oriented growth remains an important challenge. Herein, we developed a stretchable electrochemical sensor by electrospinning aligned and elastic polyurethane (PU) nanofibers on the surface of PDMS film and further modification of conductive polymer PEDOT:PSS-LiTFSI-CoPc (PPLC) on the nanofibers (denoted as PPLC/PU/PDMS). The aligned nanofibers on the electrode surface could guide the oriented growth of SMCs and maintain the contractile phenotype, and the modification of PPLC endowed the electrode with good electrochemical sensing performance and stability under mechanical deformation. By culturing cells on the electrode surface, the oriented growth of SMCs and real-time monitoring of stretch-induced H2O2 release were achieved. On this basis, the changes of H2O2 level released by SMCs under the pathology (hypertension) and intervention of natural product resveratrol were quantitatively monitored, which will be helpful to further understand the occurrence and development of vascular-related diseases and the mechanisms of pharmaceutical intervention.

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Chen-Xi Bi

Soft Electrodes for Electrochemical and Electrophysiological Monitoring of Beating Cardiomyocytes

Soft Electrodes for Electrochemical and Electrophysiological Monitoring of Beating Cardiomyocytes

Nanofiber-based Stretchable Electrodes for Oriented Culture and Mechanotransduction Monitoring of Smooth Muscle Cells

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