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Quantifying the mechanical micro-environment during three-dimensional cell expansion on microbeads by means of individual cell-based modelling

Author

Listed:
  • Bart Smeets
  • Tim Odenthal
  • Engelbert Tijskens
  • Herman Ramon
  • Hans Van Oosterwyck

Abstract

Controlled in vitro three-dimensional cell expansion requires culture conditions that optimise the biophysical micro-environment of the cells during proliferation. In this study, we propose an individual cell-based modelling platform for simulating the mechanics of cell expansion on microcarriers. The lattice-free, particle-based method considers cells as individual interacting particles that deform and move over time. The model quantifies how the mechanical micro-environment of individual cells changes during the time of confluency. A sensitivity analysis is performed, which shows that changes in the cell-specific properties of cell–cell adhesion and cell stiffness cause the strongest change in the mechanical micro-environment of the cells. Furthermore, the influence of the mechanical properties of cells and microbead is characterised. The mechanical micro-environment is strongly influenced by the adhesive properties and the size of the microbead. Simulations show that even in the absence of strong biological heterogeneity, a large heterogeneity in mechanical stresses can be expected purely due to geometric properties of the culture system.Supplemental data for this article can be accessed online.

Suggested Citation

  • Bart Smeets & Tim Odenthal & Engelbert Tijskens & Herman Ramon & Hans Van Oosterwyck, 2013. "Quantifying the mechanical micro-environment during three-dimensional cell expansion on microbeads by means of individual cell-based modelling," Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Journals, vol. 16(10), pages 1071-1084, October.
    • Handle: RePEc:taf:gcmbxx:v:16:y:2013:i:10:p:1071-1084
    DOI: 10.1080/10255842.2013.829461
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