Kloss_2008_Biosens.Bioelectron_23_1473

Reference

Title : Microcavity array (MCA)-based biosensor chip for functional drug screening of 3D tissue models - Kloss_2008_Biosens.Bioelectron_23_1473
Author(s) : Kloss D , Kurz R , Jahnke HG , Fischer M , Rothermel A , Anderegg U , Simon JC , Robitzki AA
Ref : Biosensors & Bioelectronics , 23 :1473 , 2008
Abstract :

Multicellular tumour spheroids that mimic a native cellular environment are widely used as model systems for drug testing. To study drug effects on three-dimensional cultures in real-time we designed and fabricated a novel type of sensor chip for fast, non-destructive impedance spectroscopy and extracellular recording. Precultured spheroids are trapped between four gold electrodes. Fifteen individual 100microm deep square microcavities with sizes from 200 to 400microm allow an optimised positioning during the measurement. Although apoptosis was induced in human melanoma spheroids by Camptothecin (CTT), treated cultures did not show disintegration but displayed increased impedance magnitudes compared to controls after 8h resulting from an altered morphology of the outer cells. Contractions in cardiomyocyte spheroids were monitored when the innovative chip was used for recording of extracellular potentials. The silicon-based electrode array is used as an acute test system for the monitoring of any kind of 3D cell cultures. Since no adherence of cells or labelling is necessary the multifunctional sensor chip provides a basis for improved drug development by high content screenings with reduced costs and assay times. Additional improvements for parallel testing of different substances on one chip are presented.

PubMedSearch : Kloss_2008_Biosens.Bioelectron_23_1473
PubMedID: 18289841

Related information

Citations formats

Kloss D, Kurz R, Jahnke HG, Fischer M, Rothermel A, Anderegg U, Simon JC, Robitzki AA (2008)
Microcavity array (MCA)-based biosensor chip for functional drug screening of 3D tissue models
Biosensors & Bioelectronics 23 :1473

Kloss D, Kurz R, Jahnke HG, Fischer M, Rothermel A, Anderegg U, Simon JC, Robitzki AA (2008)
Biosensors & Bioelectronics 23 :1473