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
Multiplexed serpentine microchannels for high-throughput
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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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stiffness using a flow rate as high as 100 ml h−1, demonstrating a possibility for circulating tumor cell (CTC) detection.
Acoustic Cell Separation Based on Density and - NSF-PAR
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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.;
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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.
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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.
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Circulating Tumor Cell Phenotyping via High‐Throughput
by M Wu 2020 Cited by 52 Circulating Tumor Cell Phenotyping via High-Throughput. Acoustic Separation. Mengxi Wu, Po-Hsun Huang, Rui Zhang, Zhangming Mao, Chuyi Chen, Gabor Kemeny,.
Characterization of circulating tumor cells as a reflection of the
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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
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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
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by Y Park 2021 The peripheral blood mononuclear cell (PBMC) layer was separated from the Circulating tumor cell phenotyping via high-throughput acoustic separation.
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by M Yang 2021 28732 28739, 2019.  M. Wu, P. H. Huang, R. Zhang et al., Circulating tumor cell phenotyping via high-throughput acoustic separation, 11 pages
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by ZH FAN Cited by 12 Enumeration of CTCs from Cancer Patients using eDAR. 69. 3.3.2. Downstream Analysis of CTCs Isolated by eDAR. 71. 3.3.3. Automated High-Throughput Counting
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Research Progress for the Clinical Application of Circulating
by M Yang 28732 28739, 2019.  M. Wu, P. H. Huang, R. Zhang et al., Circulating tumor cell phenotyping via high-throughput acoustic separation,
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
by M Wu Cited by 57 Circulating Tumor Cell Phenotyping via High-Throughput Acoustic Separation. Mengxi Wu, Po-Hsun Huang, Rui Zhang, Zhangming Mao, Chuyi Chen, Gabor Kemeny, 37 pages
Creating a capture zone in microfluidic flow greatly enhances
by M Sun 2019 Cited by 9 Efficient capture of rare circulating tumor cells (CTCs) from blood samples is that at high flow speed (≥ 0.58 mm/s), this separation of the flow and
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by SK Paidi 2020 Cited by 3 free route for optical phenotyping of cancer cells at single-cell resolution. termed circulating tumor cells (CTC) undergo epithelial to
Label-free processing of stem cell preparations by
12 Jun 2020 for the acoustic separation of functionally different subsets of cultured Circulating tumor cell DNA, providing diagnostic as well as.