The cell-stretcher: A novel device for the mechanical stimulation of cell populations

Mechanical stimulation appears to be a critical modulator for many aspects of biology, both of living tissue and cells. The cell-stretcher, a novel device for the mechanical uniaxial stimulation of populations of cells, is described. The system is based on a variable stroke cam-lever-tappet mechanis...

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Bibliographic Details
Published in:Review of scientific instruments 2016-08, Vol.87 (8), p.084301-084301
Main Authors: Seriani, S., Del Favero, G., Mahaffey, J., Marko, D., Gallina, P., Long, C. S., Mestroni, L., Sbaizero, O.
Format: Article
Language:English
Subjects:
Animals
Biocompatibility
Cell Culture Techniques - instrumentation
Cell Culture Techniques - methods
Cell Line, Tumor
Clamps
Computer simulation
Contact force
Couplings
Cultivation
Deformation mechanisms
Experimentation
Fibroblasts
Human performance
Humans
In vitro methods and tests
Kinematics
Mice
Polydimethylsiloxane
Populations
Scientific apparatus & instruments
Shear Strength
Stimulation
Strain analysis
Viability
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Summary:Mechanical stimulation appears to be a critical modulator for many aspects of biology, both of living tissue and cells. The cell-stretcher, a novel device for the mechanical uniaxial stimulation of populations of cells, is described. The system is based on a variable stroke cam-lever-tappet mechanism which allows the delivery of cyclic stimuli with frequencies of up to 10 Hz and deformation between 1% and 20%. The kinematics is presented and a simulation of the dynamics of the system is shown, in order to compute the contact forces in the mechanism. The cells, following cultivation and preparation, are plated on an ad hoc polydimethylsiloxane membrane which is then loaded on the clamps of the cell-stretcher via force-adjustable magnetic couplings. In order to show the viability of the experimentation and biocompatibility of the cell-stretcher, a set of two in vitro tests were performed. Human epithelial carcinoma cell line A431 and Adult Mouse Ventricular Fibroblasts (AMVFs) from a dual reporter mouse were subject to 0.5 Hz, 24 h cyclic stretching at 15% strain, and to 48 h stimulation at 0.5 Hz and 15% strain, respectively. Visual analysis was performed on A431, showing definite morphological changes in the form of cellular extroflections in the direction of stimulation compared to an unstimulated control. A cytometric analysis was performed on the AMVF population. Results show a post-stimulation live-dead ratio deviance of less than 6% compared to control, which proves that the environment created by the cell-stretcher is suitable for in vitro experimentation.
ISSN:0034-6748
1089-7623
DOI:10.1063/1.4959884