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Extending in-plane impedance measurements from 2D to 3D cultures: Design considerations

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posted on 2024-06-28, 02:28 authored by SE De Leon, L Cleuren, ZY Oo, PR Stoddart, Sally McArthurSally McArthur
Three-dimensional (3D) cell cultures have recently emerged as tools for biologically modelling the human body. As 3D models make their way into laboratories there is a need to develop characterisation techniques that are sensitive enough to monitor the cells in real time and without the need for chemical labels. Impedance spectroscopy has been shown to address both of these challenges, but there has been little research into the full impedance spectrum and how the different components of the system affect the impedance signal. Here we investigate the impedance of human fibroblast cells in 2D and 3D collagen gel cultures across a broad range of frequencies (10 Hz to 5 MHz) using a commercial well with in-plane electrodes. At low frequencies in both 2D and 3D models it was observed that protein adsorption influences the magnitude of the impedance for the cell-free samples. This effect was eliminated once cells were introduced to the systems. Cell proliferation could be monitored in 2D at intermediate frequencies (30 kHz). However, the in-plane electrodes were unable to detect any changes in the impedance at any frequency when the cells were cultured in the 3D collagen gel. The results suggest that in designing impedance measurement devices, both the nature and distribution of the cells within the 3D culture as well as the architecture of the electrodes are key variables.

History

Journal

Bioengineering

Volume

8

Article number

11

Pagination

1-15

Location

Basel, Switzerland

Open access

  • Yes

ISSN

2306-5354

eISSN

2306-5354

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Issue

1

Publisher

MDPI