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Gideon Praveenkumar
Gideon Praveenkumar
The Duke–NUS Medical School
Verified email at nus.edu.sg - Homepage
Title
Cited by
Cited by
Year
Comparison between auditory and visual simple reaction times
J Shelton, GP Kumar
Neuroscience and medicine 1 (01), 30-32, 2010
3802010
A critical review on metallic glasses as structural materials for cardiovascular stent applications
M Jafary-Zadeh, G Praveen Kumar, PS Branicio, M Seifi, JJ Lewandowski, ...
Journal of functional biomaterials 9 (1), 19, 2018
802018
Evaluating the effects of material properties of artificial meniscal implant in the human knee joint using finite element analysis
D Shriram, G Praveen Kumar, F Cui, YHD Lee, K Subburaj
Scientific reports 7 (1), 6011, 2017
702017
Sodium bicarbonate-a potent ergogenic aid?
J Shelton, GVP Kumar
Food and Nutrition Sciences 1 (1), 1, 2010
432010
Design and finite element-based fatigue prediction of a new self-expandable percutaneous mitral valve stent
GP Kumar, F Cui, A Danpinid, B Su, JKF Hon, HL Leo
Computer-Aided Design 45 (10), 1153-1158, 2013
352013
Comparison of cyclic loading and hold relax technique in increasing resting length of hamstring muscles
GP Kumar
Hong Kong Physiotherapy Journal 29 (1), 31-33, 2011
302011
Hemodynamic analysis of a novel stent graft design with slit perforations in thoracic aortic aneurysm
CW Ong, F Xiong, F Kabinejadian, GP Kumar, FS Cui, G Chen, P Ho, ...
Journal of biomechanics 85, 210-217, 2019
252019
Numerical modeling of intraventricular flow during diastole after implantation of BMHV
B Su, F Kabinejadian, HQ Phang, GP Kumar, F Cui, S Kim, RS Tan, ...
PloS one 10 (5), e0126315, 2015
252015
Self-expanding aortic valve stent—material optimization
GP Kumar, L Mathew
Computers in biology and medicine 42 (11), 1060-1063, 2012
222012
New stent design for percutaneous aortic valve replacement
GVP Kumar, L Mathew
Cardiovascular Revascularization Medicine 10 (2), 121-124, 2009
212009
New stent design for percutaneous aortic valve replacement
GVP Kumar, L Mathew
Cardiovascular Revascularization Medicine 10 (2), 121-124, 2009
212009
Feasibility of using bulk metallic glass for self‐expandable stent applications
G Praveen Kumar, M Jafary‐Zadeh, R Tavakoli, F Cui
Journal of Biomedical Materials Research Part B: Applied Biomaterials 105 (7 …, 2017
192017
Design considerations and quantitative assessment for the development of percutaneous mitral valve stent
GP Kumar, F Cui, HQ Phang, B Su, HL Leo, JKF Hon
Medical engineering & physics 36 (7), 882-888, 2014
192014
Deployment of a bulk metallic glass-based self-expandable stent in a patient-specific descending aorta
G Praveen Kumar, M Jafary-Zadeh, F Cui
ACS biomaterials science & engineering 2 (11), 1951-1958, 2016
162016
Finite element analysis of the mechanical performance of aortic valve stent designs
V Gideon, P Kumar, L Mathew
Trends in Biomaterials and Artificial Organs 23 (1), 16-21, 2009
142009
Stent design parameters and crimpability
GP Kumar, F Cui
International Journal of Cardiology 223, 552-553, 2016
122016
Three‐Dimensional Computer‐Aided Design–Based Geometric Modeling of a New Trileaflet Aortic Valve
G Praveen Kumar, L Mathew
Artificial Organs 34 (12), 1121-1124, 2010
122010
Simulated bench testing to evaluate the mechanical performance of new carotid stents
GP Kumar, F Kabinejadian, J Liu, P Ho, HL Leo, F Cui
Artificial organs 41 (3), 267-272, 2017
102017
Effects of design parameters on the radial force of percutaneous aortic valve stents
GVP Kumar, L Mathew
Cardiovascular Revascularization Medicine 11 (2), 101-104, 2010
102010
Non-anatomical placement adversely affects the functional performance of the meniscal implant: a finite element study
D Shriram, G Yamako, GP Kumar, E Chosa, F Cui, K Subburaj
Biomechanics and modeling in mechanobiology 20, 1167-1185, 2021
92021
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