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Publications [#162158] of Lori A. Setton

Papers Published

  1. J. H. Hyun and J. Chen and L. A. Setton and A. Chilkoti, Patterning cells in highly deformable micro structures: Effect of plastic deformation of substrate on cellular phenotype and gene expression, Biomaterials, vol. 27 no. 8 (March, 2006), pp. 1444 -- 1451, ISSN 0142-9612
    (last updated on 2009/09/02)

    Abstract:
    We describe the fabrication of deformable microstructures by low-pressure-soft-microembossing (mu SEmb) that provides in vitro experimental "test-beds" to investigate the interplay of mechanical and chemical stimuli on cell behavior in a highly controlled environment. Soft microembossing exploits the softness and plasticity of parafilm to fabricate microstructures by pressing a silicon master or an elastomeric poly(dimethylsiloxane) stamp into the parafilm. We demonstrate that a protein-resistant comb polymer can be printed into the raised features of the embossed micro structures, which imparts protein, and hence cell resistance to those regions of the microstructures. These two features of our fabrication methodology-microembossing followed by spatially selective transfer of a nonfouling polymer-forms the core of our strategy to pattern cells within the parafilm microstructures, such that the cells are confined within bottoms of the microstructures. Cell culture experiments demonstrated the preferential cell attachment of NIH 3T3 fibroblasts to the fibronectin (FN) micropatterns by immunofluorescence microscopy. The actin cytoskeleton realigned along the axis of applied mechanical stress, and stretched cells showed altered gene expression of cytoskeletal and matrix proteins in response to mechanical deformation. The use of parafilm as a substrate and mu SEmb as a fabrication method provides a simple and widely accessible methodology to investigate cellular behavior tinder well-defined conditions of plastic deformation and surface ligand density. (c) 2005 Elsevier Ltd. All rights reserved.


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