Andrew J. Kristof scite author profile

Andrew J. Kristof

2Publications

22Citation Statements Received

72Citation Statements Given

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North Carolina State University

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Microfluidic synthesis of elastomeric microparticles: A case study in catalysis of palladium‐mediated cross‐coupling

et al. 2018

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Instructions for contributors Inside back coverCover illustration. Microfluidics enables the production of highly tunable monodisperse microparticles with a wide range of applications. Monodispersed poly(hydromethyl siloxane) microparticles loaded with palladium can be used as reusable catalysts for continuous ligand-free cross-coupling reactions under mild reaction conditions. Image created by J. Bennett of Chemical and Biomolecular Engineering at North Carolina State University.

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Biophysical analysis of fluid shear stress induced cellular deformation in a microfluidic device

Landwehr

Kristof

Rahman

et al. 2018

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Even though the majority of breast cancers respond well to primary therapy, a large percentage of patients relapse with metastatic disease, for which there is no treatment. In metastasis, a tumor sheds a small number of cancerous cells, termed circulating tumor cells (CTCs), into the local vasculature, from where they spread throughout the body to form new tumors. As CTCs move through the circulatory system, they experience physiological forces not present in the initial tumor environment, namely, fluid shear stress (FSS). Evidence suggests that CTCs respond to FSS by adopting a more aggressive phenotype; however, to date single-cell morphological changes have not been quantified to support this observation. Furthermore, the methodology of previous studies involves inducing FSS by flowing cells through the tubing, which lacks a precise and tunable control of FSS. Here, a microfluidic approach is used for isolating and characterizing the biophysical response of single breast cancer cells to conditions experienced in the circulatory system during metastasis. To evaluate the single-cell response of multiple breast cancer types, two model circulating tumor cell lines, MDA-MB-231 and MCF7, were challenged with FSS at precise magnitudes and durations. As expected, both MDA-MB-231 and MCF7 cells exhibited greater deformability due to increasing duration and magnitudes of FSS. However, wide variations in single-cell responses were observed. MCF7 cells were found to rapidly deform but reach a threshold value after 5 min of FSS, while MDA-MB-231 cells were observed to deform at a slower rate but with a larger threshold of deformation. This behavioral diversity suggests the presence of distinct cell subpopulations with different phenotypes.

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Andrew J. Kristof

Microfluidic synthesis of elastomeric microparticles: A case study in catalysis of palladium‐mediated cross‐coupling

Biophysical analysis of fluid shear stress induced cellular deformation in a microfluidic device

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