Hung-Che Chou scite author profile

This paper describes a method that utilizes the quartz crystal microbalance (QCM) technique to measure the tight junction of the Caco-2 cell. The Caco-2 cells are placed on the QCM surface for cell growth and tight junction measurements. We found that the QCM resonance frequency changes less when a better tight cell junction is formed. The quantity of QCM frequency change is less than 100 Hz as the tight junction cell integrality is completed up to 15 days. The QCM and traditional detection system transepithelial electrical resistance were similar as the cell growth affects the two systems over time.

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Matters Needing Attention for Applying the Quartz Crystal Microbalance Technique to Detect the Cell Morphology

Chou

Yan

Lee

2009

Biomed. Eng. Appl. Basis Commun.

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Using quartz crystal microbalance (QCM) to design a cell detection platform is an important application of QCM. In the process of system design and application, there still have some points, which are easily overlooked or are not understood by researchers. Most of the problems can be separated into three types. One is the cell culture environment conditions that affect the system signals, another is the system unification or lack of communication over regulations, and the other is the over-analysis of the experimental data.

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QCM as Cell-Based Biosensor

Yan¹,

Lee²,

Chou³

2012

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Hung-Che Chou

Detecting cells on the surface of a silver electrode quartz crystal microbalance using plasma treatment and graft polymerization

Applying the Quartz Crystal Microbalance Technique to Detect the Epithelial Cell Tight Junction Integrality of Caco-2 Cells

Matters Needing Attention for Applying the Quartz Crystal Microbalance Technique to Detect the Cell Morphology

QCM as Cell-Based Biosensor

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