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Items: 12

1.

Integration of Hierarchical Micro-/Nanostructures in a Microfluidic Chip for Efficient and Selective Isolation of Rare Tumor Cells.

Wang S, Cho Y, Cheng X, Yang S, Liu Y, Liu Y.

Micromachines (Basel). 2019 Oct 14;10(10). pii: E698. doi: 10.3390/mi10100698.

2.

Longitudinal Morphological and Physiological Monitoring of Three-dimensional Tumor Spheroids Using Optical Coherence Tomography.

Huang Y, Zou J, Badar M, Liu J, Shi W, Wang S, Guo Q, Wang X, Kessel S, Chan LL, Li P, Liu Y, Qiu J, Zhou C.

J Vis Exp. 2019 Feb 9;(144). doi: 10.3791/59020.

PMID:
30799861
3.

Optical Coherence Tomography Detects Necrotic Regions and Volumetrically Quantifies Multicellular Tumor Spheroids.

Huang Y, Wang S, Guo Q, Kessel S, Rubinoff I, Chan LL, Li P, Liu Y, Qiu J, Zhou C.

Cancer Res. 2017 Nov 1;77(21):6011-6020. doi: 10.1158/0008-5472.CAN-17-0821. Epub 2017 Sep 13.

4.

Magnetic particles assisted capture and release of rare circulating tumor cells using wavy-herringbone structured microfluidic devices.

Shi W, Wang S, Maarouf A, Uhl CG, He R, Yunus D, Liu Y.

Lab Chip. 2017 Sep 26;17(19):3291-3299. doi: 10.1039/c7lc00333a.

PMID:
28840927
5.

Characterization of vascular permeability using a biomimetic microfluidic blood vessel model.

Thomas A, Wang S, Sohrabi S, Orr C, He R, Shi W, Liu Y.

Biomicrofluidics. 2017 Mar 3;11(2):024102. doi: 10.1063/1.4977584. eCollection 2017 Mar.

6.

Nanoparticle transport and delivery in a heterogeneous pulmonary vasculature.

Sohrabi S, Wang S, Tan J, Xu J, Yang J, Liu Y.

J Biomech. 2017 Jan 4;50:240-247. doi: 10.1016/j.jbiomech.2016.11.023. Epub 2016 Nov 10.

7.

Highly efficient and selective isolation of rare tumor cells using a microfluidic chip with wavy-herringbone micro-patterned surfaces.

Wang S, Thomas A, Lee E, Yang S, Cheng X, Liu Y.

Analyst. 2016 Apr 7;141(7):2228-37. doi: 10.1039/c6an00236f.

8.

Generation of Customizable Micro-wavy Pattern through Grayscale Direct Image Lithography.

He R, Wang S, Andrews G, Shi W, Liu Y.

Sci Rep. 2016 Feb 23;6:21621. doi: 10.1038/srep21621.

9.

Effects of nanopillar array diameter and spacing on cancer cell capture and cell behaviors.

Wang S, Wan Y, Liu Y.

Nanoscale. 2014 Nov 7;6(21):12482-9. doi: 10.1039/c4nr02854f.

10.

Computational modeling of magnetic nanoparticle targeting to stent surface under high gradient field.

Wang S, Zhou Y, Tan J, Xu J, Yang J, Liu Y.

Comput Mech. 2014 Mar 1;53(3):403-412.

11.

Coupled Particulate and Continuum Model for Nanoparticle Targeted Delivery.

Tan J, Wang S, Yang J, Liu Y.

Comput Struct. 2013 Jun 1;122:128-134.

12.

Electrokinetic effects on detection time of nanowire biosensor.

Liu Y, Guo Q, Wang S, Hu W.

Appl Phys Lett. 2012 Apr 9;100(15):153502-1535024.

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