Članki z zahtevami za javni dostop - David Nelson KuVeč o tem
Ni na voljo nikjer: 4
A predictive model of high shear thrombus growth
M Mehrabadi, LDC Casa, CK Aidun, DN Ku
Annals of Biomedical Engineering 44, 2339-2350, 2016
Zahteve: American Heart Association
Development and testing of a silicone in vitro model of descending aortic dissection
J Birjiniuk, JM Ruddy, E Iffrig, TS Henry, BG Leshnower, JN Oshinski, ...
Journal of Surgical Research 198 (2), 502-507, 2015
Zahteve: US National Institutes of Health
Choice of a hemodynamic model for occlusive thrombosis in arteries
DN Ku, LDC Casa, SM Hastings
Journal of Biomechanics 50, 110-113, 2017
Zahteve: American Heart Association
Negatively charged nanoparticles of multiple materials inhibit shear-induced platelet accumulation
MT Griffin, K Ashworth, N Hill, J von Behren, J Di Paola, DN Ku
Nanomedicine: Nanotechnology, Biology and Medicine 35, 102405, 2021
Zahteve: US National Science Foundation
Na voljo nekje: 24
3D MRI-based anisotropic FSI models with cyclic bending for human coronary atherosclerotic plaque mechanical analysis
D Tang, C Yang, S Kobayashi, J Zheng, PK Woodard, Z Teng, K Billiar, ...
Zahteve: US National Institutes of Health
Effects of shear rate, confinement, and particle parameters on margination in blood flow
M Mehrabadi, DN Ku, CK Aidun
Physical Review E 93 (2), 023109, 2016
Zahteve: US National Science Foundation
Dimensional analysis and scaling relevant to flow models of thrombus formation: communication from the SSC of the ISTH
OJT McCarty, D Ku, M Sugimoto, MR King, J Cosemans, KB Neeves
Journal of thrombosis and haemostasis 14 (3), 619-622, 2016
Zahteve: US National Institutes of Health
Inhibition of high shear arterial thrombosis by charged nanoparticles
MT Griffin, Y Zhu, Z Liu, CK Aidun, DN Ku
Biomicrofluidics 12 (4), 2018
Zahteve: US National Science Foundation
Clot permeability, agonist transport, and platelet binding kinetics in arterial thrombosis
J Du, D Kim, G Alhawael, DN Ku, AL Fogelson
Biophysical journal 119 (10), 2102-2115, 2020
Zahteve: US National Science Foundation
Mechanobiology of shear-induced platelet aggregation leading to occlusive arterial thrombosis: A multiscale in silico analysis
ZL Liu, DN Ku, CK Aidun
Journal of Biomechanics 120, 110349, 2021
Zahteve: US National Science Foundation, US Department of Energy
Structure of shear-induced platelet aggregated clot formed in an in vitro arterial thrombosis model
DA Kim, DN Ku
Blood Advances 6 (9), 2872-2883, 2022
Zahteve: US National Science Foundation, US National Institutes of Health
Haemodynamic flow conditions at the initiation of high-shear platelet aggregation: a combined in vitro and cellular in silico study
BJM Van Rooij, G Závodszky, AG Hoekstra, DN Ku
Interface Focus 11 (1), 20190126, 2021
Zahteve: Netherlands Organisation for Scientific Research, European Commission
Biorheology of occlusive thrombi formation under high shear: in vitro growth and shrinkage
BJM van Rooij, G Závodszky, AG Hoekstra, DN Ku
Scientific Reports 10 (1), 18604, 2020
Zahteve: European Commission
Shear-induced platelet aggregation: 3D-grayscale microfluidics for repeatable and localized occlusive thrombosis
MT Griffin, D Kim, DN Ku
Biomicrofluidics 13 (5), 2019
Zahteve: US National Science Foundation
Antithrombotic activity of protein S infused without activated protein C in a baboon thrombosis model
MJ Heeb, U Marzec, A Gruber, SR Hanson
Thrombosis and haemostasis 107 (04), 690-698, 2012
Zahteve: US National Institutes of Health
Don’t forget about human factors: Lessons learned from COVID-19 point-of-care testing
S Farmer, V Razin, AF Peagler, S Strickler, WB Fain, GL Damhorst, ...
Cell Reports Methods 2 (5), 2022
Zahteve: US National Institutes of Health
Flow and deformation in a multi-component arterial stenosis model
J Ji, S Toubaru, S Kobayashi, H Morikawa, D Tang, DN Ku
Journal of Biomechanical Science and Engineering 6 (2), 79-88, 2011
Zahteve: US National Institutes of Health
Viscoporoelasticity of coagulation blood clots
D He, DA Kim, DN Ku, Y Hu
Extreme Mechanics Letters 56, 101859, 2022
Zahteve: US National Science Foundation
The RADx tech test verification core and the ACME POCT in the evaluation of COVID-19 testing devices: A model for progress and change
EJ Nehl, SS Heilman, D Ku, DS Gottfried, S Farmer, R Mannino, ...
IEEE open journal of engineering in medicine and biology 2, 142-151, 2021
Zahteve: US National Institutes of Health
The critical role of engineering in the rapid development of COVID-19 diagnostics: Lessons from the RADx Tech Test Verification Core
RG Mannino, EJ Nehl, S Farmer, AF Peagler, MC Parsell, V Claveria, ...
Science Advances 9 (14), eade4962, 2023
Zahteve: US National Science Foundation, US National Institutes of Health
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