A scalable label-free approach to separate human pluripotent cells from differentiated derivatives

Willoughby, Nicholas; Bock, Henry; Hoeve, Marieke A.; Pells, Steve; Williams, Chris; McPhee, Gordon; Freile, Paz; Choudhury, Debaditya; Sousa, Paul A. De

doi:10.1063/1.4939946

Cited by 8 publications

(8 citation statements)

References 41 publications

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“…9 Currently, only a limited number of fluorophore-conjugated antibody reagents are suitable for clinical processing 10 and the adverse effects of introducing these probes into patients are unknown, but it is generally recognised that they could potentially trigger immune and toxic responses. 11 Separation of cells based on label-free biomarkers has been recognised as a viable alternative to conventional techniques such as FACS and MACS. 12,13 Label-free biomarkers are cost-effective since there is no need to add costly antibodies to reveal cell identity markers and the number of processing steps (staining, washing) is reduced.…”

Section: Introductionmentioning

confidence: 99%

Deformability-induced lift force in spiral microchannels for cell separation

et al. 2020

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Section: Introductionmentioning

confidence: 99%

Deformability-induced lift force in spiral microchannels for cell separation

et al. 2020

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“…Young’s modulus was also used as a binary classifier in a previous study that established stiffness-based sorting of ESCs [ 60 ]. Tangential flow filtration was employed to separate ESCs from ESC-derived osteoblasts or fibroblasts based on Young's modulus.…”

Section: Discussionmentioning

confidence: 99%

Biophysical subsets of embryonic stem cells display distinct phenotypic and morphological signatures

et al. 2018

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The highly proliferative and pluripotent characteristics of embryonic stem cells engender great promise for tissue engineering and regenerative medicine, but the rapid identification and isolation of target cell phenotypes remains challenging. Therefore, the objectives of this study were to characterize cell mechanics as a function of differentiation and to employ differences in cell stiffness to select population subsets with distinct mechanical, morphological, and biological properties. Biomechanical analysis with atomic force microscopy revealed that embryonic stem cells stiffened within one day of differentiation induced by leukemia inhibitory factor removal, with a lagging but pronounced change from spherical to spindle-shaped cell morphology. A microfluidic device was then employed to sort a differentially labeled mixture of pluripotent and differentiating cells based on stiffness, resulting in pluripotent cell enrichment in the soft device outlet. Furthermore, sorting an unlabeled population of partially differentiated cells produced a subset of “soft” cells that was enriched for the pluripotent phenotype, as assessed by post-sort characterization of cell mechanics, morphology, and gene expression. The results of this study indicate that intrinsic cell mechanical properties might serve as a basis for efficient, high-throughput, and label-free isolation of pluripotent stem cells, which will facilitate a greater biological understanding of pluripotency and advance the potential of pluripotent stem cell differentiated progeny as cell sources for tissue engineering and regenerative medicine.

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“…Zhang et al describe in their proof-of-principle paper successful separation of two cancer cells with different deformability using a TFF chip device, but with limited efficiency (the fraction of the more elastic cells increased from 50 to 73%). Willoughby et al reported similar results when separating pluripotent and differentiated osteoblastic cells, and pluripotent cells and fibroblasts [46,47]. A study comparing various silicon-based microfilters to separate white blood cells from red blood cells indicates that TFF is superior over NFF and weir and pillar type filters [48].…”

Section: Tangential Flow Filtersmentioning

confidence: 89%