2009
DOI: 10.1039/b810571e
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A multipurpose microfluidic device designed to mimic microenvironment gradients and develop targeted cancer therapeutics

Abstract: The heterogeneity of cellular microenvironments in tumors severely limits the efficacy of most cancer therapies. We have designed a microfluidic device that mimics the microenvironment gradients present in tumors that will enable the development of more effective cancer therapies. Tumor cell masses were formed within micron-scale chambers exposed to medium perfusion on one side to create linear nutrient gradients. The optical accessibility of the PDMS and glass device enables quantitative transmitted and fluor… Show more

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Cited by 105 publications
(116 citation statements)
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“…Microfluidic devices have become a versatile platform to provide precise concentration gradient control for understanding various biological systems and controlling the population size (8)(9)(10). Gradient-generating devices can be classified as (i) static generators, which are based solely on diffusion (11,12), and (ii) constant-flow generators (13)(14)(15)(16).…”
Section: Resultsmentioning
confidence: 99%
“…Microfluidic devices have become a versatile platform to provide precise concentration gradient control for understanding various biological systems and controlling the population size (8)(9)(10). Gradient-generating devices can be classified as (i) static generators, which are based solely on diffusion (11,12), and (ii) constant-flow generators (13)(14)(15)(16).…”
Section: Resultsmentioning
confidence: 99%
“…1e). In another setup, two channels sprout in to multiple channels; in this way, a gradient is build up between the components in channel 1 and 2, mimicking the tumourenvironment gradient [42,87,112]. Microfluidics reduce the sample volume, enabling upscaling for screening applications and control of the spatio-temporal dynamics of the environment.…”
Section: Three-dimensional Biomimetic Approaches To Better Understandmentioning
confidence: 98%
“…In addition, significant advances have been made in the development of microfluidic systems for cell biology (30)(31)(32)(33). Of particular importance to this work, precise fluid handling on microfluidic devices provides more control over the microenvironment of the cells (34,35). The integration of automated valves and pumps on-chip has enabled the addition of sample preparation and analysis on one device (36)(37)(38).…”
mentioning
confidence: 99%