2021
DOI: 10.3390/cells10092201
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Engineering a Vascularized Hypoxic Tumor Model for Therapeutic Assessment

Abstract: Solid tumors in advanced cancer often feature a structurally and functionally abnormal vasculature through tumor angiogenesis, which contributes to cancer progression, metastasis, and therapeutic resistances. Hypoxia is considered a major driver of angiogenesis in tumor microenvironments. However, there remains a lack of in vitro models that recapitulate both the vasculature and hypoxia in the same model with physiological resemblance to the tumor microenvironment, while allowing for high-content spatiotempora… Show more

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Cited by 16 publications
(15 citation statements)
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“…The phenomenon is mainly caused by a combined effect of oxygen consumption (reaction) and diffusion in the tumor. While this is often simulated mathematically by analyzing a tumor section between two insulated boundaries without oxygen flux, we can experimentally recapitulate it in vitro by culturing a layer of cancer cells between two oxygen diffusion barriers (referred to as the “tumor section”), both in 2-D monolayers and 3-D ECM-embedded formats (Figure B). Here, we designed a new generation of hypoxia models by integrating a polycarbonate (PC) film directly into a microfluidic device as the oxygen barrier (Figure C).…”
Section: Resultsmentioning
confidence: 99%
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“…The phenomenon is mainly caused by a combined effect of oxygen consumption (reaction) and diffusion in the tumor. While this is often simulated mathematically by analyzing a tumor section between two insulated boundaries without oxygen flux, we can experimentally recapitulate it in vitro by culturing a layer of cancer cells between two oxygen diffusion barriers (referred to as the “tumor section”), both in 2-D monolayers and 3-D ECM-embedded formats (Figure B). Here, we designed a new generation of hypoxia models by integrating a polycarbonate (PC) film directly into a microfluidic device as the oxygen barrier (Figure C).…”
Section: Resultsmentioning
confidence: 99%
“…We next examined whether the micromilling and liquid pinning approaches can achieve the desired sizes of tumor sections in the new microfluidic hypoxic tumor model design. We chose the computer numerical control (CNC) micromilling to fabricate the microfluidic mold for its lower cost and shorter turnaround compared to the cleanroom-based photolithographic approaches. , We milled the microfluidic mold in bulk PC and vapor-polished it for casting PDMS microfluidic devices through replica molding , (Figure A).…”
Section: Resultsmentioning
confidence: 99%
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