Circulating Tumor Cell Phenotyping Via High‐Throughput Acoustic Separation

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Microfluidic based isolation of circulating tumor cells - DiVA

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by M Wu 2018 The content of this chapter was published on Small entitled as Circulating Tumor Cell. Phenotyping via High-throughput Acoustic Separation with minor 

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few decades, the separation of CTC based on the electrochemical method has Circulating Tumor Cell Phenotyping via High-Throughput Acoustic Separation.

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1 High-Speed Microfluidic Manipulation of Cells - Wiley-VCH

stiffness using a flow rate as high as 100 ml h−1, demonstrating a possibility for circulating tumor cell (CTC) detection.

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by Y Xie 2020 Cited by 7 sized microfluidic channel to separate circulating tumor cells from J., 2018, Circulating Tumor Cell Phenotyping Via High-Throughput Acoustic.

Circulating tumor markers: harmonizing the yin and yang of

by IS Batth 2017 Cited by 52 pulation of primary cancer cells acquiring new abilities by High capture efficiency (>80%) and sterile isolation of.

Isolation, characterization, and expansion of heterogeneous

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Cell Separations and Sorting - KU ScholarWorks - The

by MA Witek 2019 Cited by 4 Reproduced from Circulating Tumor Cell Phenotyping via High-Throughput Acoustic. Separation, Wu, M.; Huang, P.-H.; Zhang, R.; Mao, Z.; Chen, C.; Kemeny, G.; 

Acoustic separation of circulating tumor cells - PNAS

by P Li 2015 Cited by 531 circulating cancer cells cell separation rare-cell sorting At high flow rates, the acoustic radiation force cannot dominate.6 pages

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2013 - Freiburg

HIGH THROUGHPUT. CIRCULATING TUMOR CELL. ISOLATION USING TRAPEZOIDAL. INERTIAL MICROFLUIDICS. G. Guan1,2, M.E. Warkiani1,. K.B. Luan2, C.T. Lim1,2,.

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by X Hu 2021 Cited by 2 cells in circulation are termed circulating tumor cells (CTCs). tumor cell phenotyping via high‑throughput acoustic separation.

R e vie w - Rarecells

by P Paterlini-Bréchot 2011 Cited by 45 photoacoustic flow cytometry was used to record CTCs targeted with markers for cancer Organ-specific markers in circulating tumor cell screening.

High throughput physiological micro-models for - IOPscience

by H Zhang 2020 Cited by 3 Keywords: High throughput, drug discovery, micro-tissue model, organs-on-a-chip, microfluidics, cell culture, co-culture. Abstract.

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Typical rare cells in blood samples are circulating tumor cells (CTCs), circulating As the sample passed through the separation region, the cancer cells.

Biochemical analysis on microfluidic chips

by J Wu 2016 Cited by 75 strategies for continuous-flow cell sorting on chip. Renaud et al. high-throughput separation of circulating tumor cells (CTCs) from.

Circulating Tumor Cell Phenotyping via High‐Throughput

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Characterization of circulating tumor cells as a reflection of the

by HK Brown 2019 Cited by 24 (2018) Circulating tumor cell phenotyping via high-throughput acoustic separation. Small 14, e1801131. 34 Peeters, D.J.E. et al.

Circulating Tumor Cells in Prostate Cancer - Millennium

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High Throughput Microfluidic Labyrinth for the Label Free

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File - -ORCA - Cardiff University

by C Sun Cited by 4 Suresh, and T. J. Huang, Circulating Tumor Cell Phenotyping via. High-Throughput Acoustic Separation, Small, vol. 14, no. 32,.

Rapid and effective enrichment of mononuclear cells from

by A Urbansky Cited by 37 separation that provides both high throughput and good separation performance for tumor cells37, separation of WBCs from platelets38, cell cycle phase 

Anticipating Tumor Metastasis by Circulating Tumor Cells

by X Bai Abstract Circulating tumor cells (CTCs) are the primary Circulating. Tumor. Cell. Phenotyping via. High-Throughput Acoustic Separation, Small, vol.

Springer MRW: [AU:0, IDX:0]

The versatility of acoustic tweezers enables numerous applications for single-cell studies. These include the isolation of circulating tumor cells from 

Design and optimization of a microfluidic chip for single cell

of a microfluidic device to isolate and analyze circulating tumor cells, This challenge of developing high throughput single cell analysis systems has 

MicroTAS 2015

CLINICAL EVALUATION OF SIZE-BASED CIRCULATING TUMOR CELL ENUMERATION M.028a HIGH-THROUGHPUT MICROFLUIDIC DEVICE FOR CIRCULATING TUMOR CELL ISOLATION 

Acoustic and Magnetic Techniques for the Isolation and

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Acoustofluidic Salivary Exosome Isolation - The Journal of

by Z Wang 2020 Cited by 29 With this high-yield exosome isolation platform, we show that Gyanchandani R, Armstrong AJ: Circulating tumor cell phenotyping via 

Dielectrophoretic Separation of Prostate Cancer Cells - SAGE

by F Yang 2013 Cited by 21 the flow conditions, DEP spectra of the cancer cells and the isolation of LNCaP Abbreviations: Dielectrophoresis: DEP; Circulating Tumor Cells: CTCs; 

Skeletal stem cell isolation - ePrints Soton - University of

by M Xavier 2016 Cited by 22 Skeletal stem cell isolation: A review on the state-of-the-art tumour cells (CTCs) with high throughput, purity and recovery rates 

Isolation, Detection and Functional Characterization of

by L Kermanshah Abstract. Primary tumors shed thousands of cells into blood circulation every day. These circulating tumor cells (CTCs) play a key role in metastasis.

Supporting Information - MIT

Circulating Tumor Cell Phenotyping via High-Throughput. Acoustic Separation. Mengxi Wu, Po-Hsun Huang, Rui Zhang, Zhangming Mao,. Chuyi Chen, Gabor Kemeny,  8 pages

UCLA Electronic Theses and Dissertations - eScholarship

Size-based cell separation using inertial forces High Efficiency Vortex Trapping of Circulating Tumor Cells 14.

Circulating tumour cells as an indicator of early and - Nature

by Y Park 2021 The peripheral blood mononuclear cell (PBMC) layer was separated from the Circulating tumor cell phenotyping via high-throughput acoustic separation.

Isolation of circulating tumor cells in non-small-cell-lung

by J Zhou 2019 Cited by 74 Herein, we demonstrate a novel multi-flow microfluidic device that is able to sensitively provide high purity (>87%) of separation outcome without labeling. Our.

Acoustofluidic methods in cell analysis - ScienceDirect.com

by Y Xie 2019 Cited by 17 cell mechanotyping, circulating tumor cell phenotyping, sample preparation in clinics, and Phenotyping via High-Throughput Acoustic Separation, Small.

Review Article Research Progress for the Clinical Application

by M Yang 2021 28732 28739, 2019. [59] M. Wu, P. H. Huang, R. Zhang et al., Circulating tumor cell phenotyping via high-throughput acoustic separation, 11 pages

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Enrichment and single-cell analysis of circulating tumor cells

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Rare cell separation using resettable cell traps - Open

less deformable cells flowing through a cell trap with constricted High throughput label-free cell separation using resettable cell traps, W. Beattie,.

Circulating tumor cell phenotyping via high‑throughput

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Creating a capture zone in microfluidic flow greatly enhances

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Coarse Raman and optical diffraction tomographic - bioRxiv

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