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  • Title: Cellular immobilization within microfluidic microenvironments: dielectrophoresis with polyelectrolyte multilayers.
    Author: Forry SP, Reyes DR, Gaitan M, Locascio LE.
    Journal: J Am Chem Soc; 2006 Oct 25; 128(42):13678-9. PubMed ID: 17044682.
    Abstract:
    The development of biomimetic microenvironments will improve cell culture techniques by enabling in vitro cell cultures that mimic in vivo behavior; however, experimental control over attachment, cellular position, or intercellular distances within such microenvironments remains challenging. We report here the rapid and controllable immobilization of suspended mammalian cells within microfabricated environments using a combination of electronic (dielectrophoresis, DEP) and chemical (polyelectrolyte multilayers, PEMS) forces. While cellular position within the microsystem is rapidly patterned via intermittent DEP trapping, persistent adhesion after removal of electronic forces is enabled by surface treatment with PEMS that are amenable to cellular attachment. In contrast to DEP trapping alone, persistent adhesion enables the soluble microenvironment to be systematically varied, facilitating the use of soluble probes of cell state and enabling cellular characterization in response to various soluble stimuli.
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