Gilwoo Choi
Gilwoo Choi
HeartFlow, Inc.
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Cited by
Cited by
Method and system for patient-specific modeling of blood flow
CA Taylor, TA Fonte, G Choi
US Patent 8,311,748, 2012
Method and system for patient-specific modeling of blood flow
CA Taylor, TA Fonte, G Choi
US Patent 8,315,813, 2012
Circumferential and longitudinal cyclic strain of the human thoracic aorta: age-related changes
TM Morrison, G Choi, CK Zarins, CA Taylor
Journal of vascular surgery 49 (4), 1029-1036, 2009
Methods for quantifying three-dimensional deformation of arteries due to pulsatile and nonpulsatile forces: implications for the design of stents and stent grafts
G Choi, CP Cheng, NM Wilson, CA Taylor
Annals of biomedical engineering 37 (1), 14-33, 2009
Identification of high-risk plaques destined to cause acute coronary syndrome using coronary computed tomographic angiography and computational fluid dynamics
JM Lee, G Choi, BK Koo, D Hwang, J Park, J Zhang, KJ Kim, Y Tong, ...
Cardiovascular Imaging 12 (6), 1032-1043, 2019
Uncertainty quantification in coronary blood flow simulations: impact of geometry, boundary conditions and blood viscosity
S Sankaran, HJ Kim, G Choi, CA Taylor
Journal of biomechanics 49 (12), 2540-2547, 2016
Coronary artery axial plaque stress and its relationship with lesion geometry: application of computational fluid dynamics to coronary CT angiography
G Choi, JM Lee, HJ Kim, JB Park, S Sankaran, H Otake, JH Doh, CW Nam, ...
Cardiovascular Imaging 8 (10), 1156-1166, 2015
The effect of aging on deformations of the superficial femoral artery resulting from hip and knee flexion: potential clinical implications
CP Cheng, G Choi, RJ Herfkens, CA Taylor
Journal of Vascular and Interventional Radiology 21 (2), 195-202, 2010
In vivo quantification of murine aortic cyclic strain, motion, and curvature: implications for abdominal aortic aneurysm growth
CJ Goergen, KN Barr, DT Huynh, JR Eastham‐Anderson, G Choi, ...
Journal of Magnetic Resonance Imaging 32 (4), 847-858, 2010
Computational fluid dynamic measures of wall shear stress are related to coronary lesion characteristics
JB Park, G Choi, EJ Chun, HJ Kim, J Park, JH Jung, MH Lee, H Otake, ...
Heart 102 (20), 1655-1661, 2016
Systems and methods for estimating blood flow characteristics from vessel geometry and physiology
L Grady, G Choi, M Singer
US Patent 10,398,386, 2019
Systems and methods for numerically evaluating vasculature
TA Fonte, J Tang, G Choi
US Patent 9,675,301, 2017
Systems and methods for predicting location, onset, and/or change of coronary lesions
G Choi, L Grady, C Taylor
US Patent 9,805,463, 2017
In vivo deformation of the human abdominal aorta and common iliac arteries with hip and knee flexion: implications for the design of stent-grafts
G Choi, LK Shin, CA Taylor, CP Cheng
Journal of Endovascular Therapy 16 (5), 531-538, 2009
Impact of longitudinal lesion geometry on location of plaque rupture and clinical presentations
JM Lee, G Choi, D Hwang, J Park, HJ Kim, JH Doh, CW Nam, SH Na, ...
JACC: Cardiovascular Imaging 10 (6), 677-688, 2017
Virtual interventions for image-based blood flow computation
G Xiong, G Choi, CA Taylor
Computer-Aided Design 44 (1), 3-14, 2012
Method and system for patient-specific modeling of blood flow
CA Taylor
US Patent 9,801,689, 2017
Structural mechanics predictions relating to clinical coronary stent fracture in a 5 year period in FDA MAUDE database
KD Everett, C Conway, GJ Desany, BL Baker, G Choi, CA Taylor, ...
Annals of biomedical engineering 44 (2), 391-403, 2016
Systems and methods for numerically evaluating vasculature
TA Fonte, G Choi, J Tang
US Patent 9,585,623, 2017
Systems and methods for treatment planning based on plaque progression and regression curves
S Sankaran, CA Taylor, G Choi, M Schaap, CK Zarins, LJ Grady
US Patent 9,280,639, 2016
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