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5. Perpendicular alignment of lymphatic endothelial cells in response to spatial gradients in wall shear stress. Michalaki E; Surya VN; Fuller GG; Dunn AR Commun Biol; 2020 Feb; 3(1):57. PubMed ID: 32029852 [TBL] [Abstract][Full Text] [Related]
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11. HUVEC ICAM-1 and VCAM-1 synthesis in response to potentially athero-prone and athero-protective mechanical and nicotine chemical stimuli. Breen LT; McHugh PE; Murphy BP Ann Biomed Eng; 2010 May; 38(5):1880-92. PubMed ID: 20162355 [TBL] [Abstract][Full Text] [Related]
12. Variation in wall shear stress in channel networks of zebrafish models. Choi W; Kim HM; Park S; Yeom E; Doh J; Lee SJ J R Soc Interface; 2017 Feb; 14(127):. PubMed ID: 28148768 [TBL] [Abstract][Full Text] [Related]
13. An In Vitro Hemodynamic Flow System to Study the Effects of Quantified Shear Stresses on Endothelial Cells. Avari H; Savory E; Rogers KA Cardiovasc Eng Technol; 2016 Mar; 7(1):44-57. PubMed ID: 26621672 [TBL] [Abstract][Full Text] [Related]
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20. A microfluidic device with spatiotemporal wall shear stress and ATP signals to investigate the intracellular calcium dynamics in vascular endothelial cells. Chen ZZ; Yuan WM; Xiang C; Zeng DP; Liu B; Qin KR Biomech Model Mechanobiol; 2019 Feb; 18(1):189-202. PubMed ID: 30187350 [TBL] [Abstract][Full Text] [Related] [Next] [New Search]