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Daniel John Kelly

Showing results (1-10 of 8) with videos related to

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Tissue Engineering. Part A|October 8, 2016
A Computational Model of Osteochondral Defect Repair Following Implantation of Stem Cell-Laden Multiphase ScaffoldsAdam O'Reilly, Daniel John Kelly
Plos One|August 23, 2012
Substrate stiffness and oxygen as regulators of stem cell differentiation during skeletal tissue regeneration: a mechanobiological modelDarren Paul Burke, Daniel John Kelly
Journal of Biomechanics|May 11, 2010
Simulation of a balloon expandable stent in a realistic coronary artery-Determination of the optimum modelling strategyHouman Zahedmanesh, Daniel John Kelly, Caitríona Lally
Methods in Molecular Biology (Clifton, N.J.)|October 9, 2015
Mechanical Testing of Cartilage ConstructsDinorath Olvera, Andrew Daly, Daniel John Kelly
Biomechanics and Modeling in Mechanobiology|May 17, 2014
Substrate stiffness and oxygen availability as regulators of mesenchymal stem cell differentiation within a mechanically loaded bone chamberDarren Paul Burke, Hanifeh Khayyeri, Daniel John Kelly
Medical Engineering & Physics|January 9, 2009
The influence of plaque composition on underlying arterial wall stress during stent expansion: the case for lesion-specific stentsIan Pericevic, Caitríona Lally, Deborah Toner, et al.
Tissue Engineering. Part A|May 3, 2014
Infrapatellar fat pad-derived stem cells maintain their chondrogenic capacity in disease and can be used to engineer cartilaginous grafts of clinically relevant dimensionsYurong Liu, Conor Timothy Buckley, Henrique V Almeida, et al.
Journal of Biomechanics|December 17, 2009
Functional properties of cartilaginous tissues engineered from infrapatellar fat pad-derived mesenchymal stem cellsConor Timothy Buckley, Tatiana Vinardell, Stephen Desmond Thorpe, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Tissue Engineering. Part A|October 8, 2016
A Computational Model of Osteochondral Defect Repair Following Implantation of Stem Cell-Laden Multiphase ScaffoldsAdam O'Reilly, Daniel John Kelly
Plos One|August 23, 2012
Substrate stiffness and oxygen as regulators of stem cell differentiation during skeletal tissue regeneration: a mechanobiological modelDarren Paul Burke, Daniel John Kelly
Journal of Biomechanics|May 11, 2010
Simulation of a balloon expandable stent in a realistic coronary artery-Determination of the optimum modelling strategyHouman Zahedmanesh, Daniel John Kelly, Caitríona Lally
Methods in Molecular Biology (Clifton, N.J.)|October 9, 2015
Mechanical Testing of Cartilage ConstructsDinorath Olvera, Andrew Daly, Daniel John Kelly
Biomechanics and Modeling in Mechanobiology|May 17, 2014
Substrate stiffness and oxygen availability as regulators of mesenchymal stem cell differentiation within a mechanically loaded bone chamberDarren Paul Burke, Hanifeh Khayyeri, Daniel John Kelly
Medical Engineering & Physics|January 9, 2009
The influence of plaque composition on underlying arterial wall stress during stent expansion: the case for lesion-specific stentsIan Pericevic, Caitríona Lally, Deborah Toner, et al.
Tissue Engineering. Part A|May 3, 2014
Infrapatellar fat pad-derived stem cells maintain their chondrogenic capacity in disease and can be used to engineer cartilaginous grafts of clinically relevant dimensionsYurong Liu, Conor Timothy Buckley, Henrique V Almeida, et al.
Journal of Biomechanics|December 17, 2009
Functional properties of cartilaginous tissues engineered from infrapatellar fat pad-derived mesenchymal stem cellsConor Timothy Buckley, Tatiana Vinardell, Stephen Desmond Thorpe, et al.
Pageof 1