Lateral migration of living cells in inertial microfluidic systems explored by fully threedimensional numerical simulation Hongzhi Lan a, Soojung Claire Hur b, Dino Di Carlo c, and Damir B. Khismatullin a,* a Departmen - Non-Newtonian fluid - Document - PDFSEARCH.IO

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	Lateral migration of living cells in inertial microfluidic systems explored by fully threedimensional numerical simulation Hongzhi Lan a, Soojung Claire Hur b, Dino Di Carlo c, and Damir B. Khismatullin a,* a Departmen Add to Reading List Document Date: 2013-06-20 20:00:32 Open Document File Size: 421,92 KB Share Result on Facebook City Cambridge / / Country United States / / / Facility Tulane University / University of California / Rowland Institute / Harvard University / / / IndustryTerm microfluidic cell separation chips / inertial microfluidics systems / inertial microfluidic systems / rheological systems / microfluidic systems / / MedicalCondition cancer metastasis / disease / breast cancer / benign breast cancer / sepsis / / Organization Rowland Institute / University of California / Los Angeles / Harvard University / Department of Biomedical Engineering / Tulane University / New Orleans / / Person Dino Di Carlo / Damir B. Khismatullin / Claire Hur / / / Position Running head / / ProvinceOrState Louisiana / California / / Technology microfluidic cell separation chips / LAN / three-dimensional algorithm / simulation / microfluidics / / SocialTag Continuum mechanics Fluid dynamics Non-Newtonian fluids Oilfield terminology Petroleum engineering Viscosity Liquid Viscoelasticity Rheometry Soft matter

Lateral migration of living cells in inertial microfluidic systems explored by fully threedimensional numerical simulation Hongzhi Lan a, Soojung Claire Hur b, Dino Di Carlo c, and Damir B. Khismatullin a,* a DepartmenAdd to Reading List