Edward Kwee scite author profile

Edward Kwee

3Publications

18Citation Statements Received

82Citation Statements Given

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Affiliations

National Institute of Standards and Technology, Case Western Reserve University, Cleveland Clinic

Publications

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Practical application of microsphere samples for benchmarking a quantitative phase imaging system

et al. 2020

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Quantitative phase imaging (QPI) provides an approach for monitoring the dry mass of individual cells by measuring the optical pathlength of visible light as it passes through cells. A distinct advantage of QPI is that the measurements result in optical path length quantities that are, in principle, instrument independent. Reference materials that induce a well‐defined optical pathlength shift and are compatible with QPI imaging systems will be valuable in assuring the accuracy of such measurements on different instruments. In this study, we evaluate seven combinations of microspheres embedded in index refraction matching media as candidate reference materials for benchmarking the performance of a QPI system and as calibration standards for the optical pathlength measurement. Poly(methyl metharylate) microspheres and mineral oil were used to evaluate the range of illumination apertures, signal‐to‐noise ratios, and focus positions that allow an accurate quantitative optical pathlength measurement. The microsphere‐based reference material can be used to verify settings on an instrument that are suitable for obtaining an accurate pathlength measurement from biological cells. The microsphere/media reference material is applied to QPI‐based dry mass measurements of a population of HEK293 cells to benchmark and provide evidence that the QPI image data are accurate.

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Integrated Colony Imaging, Analysis, and Selection Device for Regenerative Medicine

Kwee

Herderick²,

Adams

et al. 2017

SLAS Technology

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Stem and progenitor cells derived from human tissues are being developed as cell sources for cell-based assays and therapies. However, tissue-derived stem and progenitor cells are heterogeneous. Differences in observed clones of stem cells likely reflect important aspects of the underlying state of the source cells, as well as future potency for cell therapies. This paper describes a colony analysis and picking device that provides quantitative analysis of heterogeneous cell populations and precise tools for cell picking for research or biomanufacturing applications. We describe an integrated robotic system that enables image acquisition and automated image analysis to be coupled with rapid automated selection of individual colonies in adherent cell cultures. Other automated systems have demonstrated feasibility with picking from semisolid media or off feeder layers. We demonstrate the capability to pick adherent bone-derived stem cells from tissue culture plastic. Cells are efficiently picked from a target site and transferred to a recipient well plate. Cells demonstrate viability and adherence and maintain biologic potential for surface markers CD73 and CD90 based on phase contrast and fluorescence imaging 6 days after transfer. Methods developed here can be applied to the study of other stem cell types and automated culture of cells.

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Variability in subjective review of umbilical cord blood colony forming unit assay

Powell

Kwee

Nutter

et al. 2016

Cytometry Part B Clinical

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Edward Kwee

Practical application of microsphere samples for benchmarking a quantitative phase imaging system

Integrated Colony Imaging, Analysis, and Selection Device for Regenerative Medicine

Variability in subjective review of umbilical cord blood colony forming unit assay

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