Monitoring cell-cycle-related viscoelasticity by a quartz crystal microbalance

Abstract

We have monitored viscoelasticity variation of a cell population during the cell cycle by a Quartz Crystal Microbalance (QCM). Balb 3T3 fibroblasts were synchronized in the G0/G1 phase and seeded in a QCM chamber placed in a cell incubator. After cell sedimentation, the frequency signal was characterized by an amplitude modulation attributed to the viscoelasticity variation of the cells proliferating in phase. A control experiment with nonsynchronized cells showed a similar signal trend, but without significant modulation. Interestingly, the system resulted also to perform as a device sensitive to the effect of drugs affecting the cell cycle, such as colchicine.

References

Page 1

	Year	Citations
Use of quartz vibration for weighing thin films on a microbalance G. Sauerbrey, F. Sauerbrey The European Physical Journal A Materials ScienceQuartz VibrationEngineeringMicromechanicsMechanics	1959	6.8K
Laboratory techniques in biochemistry and molecular biology T. S. Work, E Work Food and Cosmetics Toxicology EngineeringBiochemistryLaboratory TechniquesBioanalysisBiotechnology	1973	2.2K
The oscillation frequency of a quartz resonator in contact with liquid K. Keiji Kanazawa, Joseph G. Gordon Analytica Chimica Acta VibrationsEngineeringPhysicsQuartz ResonatorApplied Physics	1985	1.3K
Apparent viscosity and cortical tension of blood granulocytes determined by micropipet aspiration E. Evans, Anthony Yeung Biophysical Journal MechanobiologyEngineeringGranulocyteBlood GranulocytesFluid Mechanics	1989	777
Piezoelectric Mass-Sensing Devices as Biosensors—An Alternative to Optical Biosensors? Andreas Janshoff, Hans‐Joachim Galla, Claudia Steinem Angewandte Chemie International Edition EngineeringBiochemical SensorsBiomedical EngineeringPiezoelectric Mass-sensing DevicesBiosensors	2000	701
Structural changes in hemoglobin during adsorption to solid surfaces: Effects of pH, ionic strength, and ligand binding Fredrik Höök, Michael Rodahl, B. Kasemo, Proceedings of the National Academy of Sciences	1998	474
Design and construction of a linear shear stress flow chamber Shunichi Usami, Hsuan-Hsu Chen, Yihua Zhao, Annals of Biomedical Engineering Unsteady FlowEngineeringFluid MechanicsCivil EngineeringMechanical Engineering	1993	312
The Piezoelectric Quartz Crystal Mass and Dissipation Sensor: A Means of Studying Cell Adhesion C. Fredriksson, S. Kihlman, Michael Rodahl, Langmuir EngineeringCell AdhesionAnalytical MicrosystemsBiomedical EngineeringEnergy Dissipation	1998	238
Quartz crystal microbalance for the detection of microgram quantities of human serum albumin: relationship between the frequency change and the mass of protein adsorbed Makoto Muratsugu, Fumihiko Ohta, Yoshihiro. Miya, Analytical Chemistry EngineeringFrequency ChangeBiomedical EngineeringMicrogram QuantitiesPiezoelectric Immunosensor	1993	231
Cell adhesion monitoring using a quartz crystal microbalance: comparative analysis of different mammalian cell lines Joachim Wegener, Andreas Janshoff, Hans‐Joachim Galla European Biophysics Journal Quartz Crystal MicrobalanceCell AdhesionCell-matrix InteractionCell CultureCell Migration	1998	193

Page 1