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W David Merryman

Showing results (1-10 of 88) with videos related to

Pageof 9
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Future Cardiology|October 7, 2009
What modulates the aortic valve interstitial cell phenotype?W David Merryman
Journal of the American College of Cardiology|April 5, 2008
Insights into (the interstitium of) degenerative aortic valve diseaseW David Merryman
Science and Engineering Ethics|February 13, 2008
Development of a tissue engineered heart valve for pediatrics: a case study in bioengineering ethicsW David Merryman
Journal of Biomechanics|October 9, 2009
Mechano-potential etiologies of aortic valve diseaseW David Merryman
Current Cardiology Reports|March 26, 2013
Mechanisms of calcification in aortic valve disease: role of mechanokinetics and mechanodynamicsW David Merryman, Frederick J Schoen
Journal of Biomechanics|February 6, 2014
In vitro assessment of a combined radiofrequency ablation and cryo-anchoring catheter for treatment of mitral valve prolapseSteven M Boronyak, W David Merryman
Annals of Biomedical Engineering|April 26, 2012
Development of a simultaneous cryo-anchoring and radiofrequency ablation catheter for percutaneous treatment of mitral valve prolapseSteven M Boronyak, W David Merryman
Journal of Cell Science|April 29, 2015
Mechanobiology of myofibroblast adhesion in fibrotic cardiac diseaseAlison K Schroer, W David Merryman
Future Cardiology|September 28, 2012
The once and future state of percutaneous mitral valve repairSteven M Boronyak, W David Merryman
Cardiovascular Pathology : the Official Journal of the Society for Cardiovascular Pathology|September 25, 2014
In vitro models of aortic valve calcification: solidifying a systemMeghan A Bowler, W David Merryman
Pageof 9

Showing results (1-10 of 88) with videos related to

Sort By:
Pageof 9
Future Cardiology|October 7, 2009
What modulates the aortic valve interstitial cell phenotype?W David Merryman
Journal of the American College of Cardiology|April 5, 2008
Insights into (the interstitium of) degenerative aortic valve diseaseW David Merryman
Science and Engineering Ethics|February 13, 2008
Development of a tissue engineered heart valve for pediatrics: a case study in bioengineering ethicsW David Merryman
Journal of Biomechanics|October 9, 2009
Mechano-potential etiologies of aortic valve diseaseW David Merryman
Current Cardiology Reports|March 26, 2013
Mechanisms of calcification in aortic valve disease: role of mechanokinetics and mechanodynamicsW David Merryman, Frederick J Schoen
Journal of Biomechanics|February 6, 2014
In vitro assessment of a combined radiofrequency ablation and cryo-anchoring catheter for treatment of mitral valve prolapseSteven M Boronyak, W David Merryman
Annals of Biomedical Engineering|April 26, 2012
Development of a simultaneous cryo-anchoring and radiofrequency ablation catheter for percutaneous treatment of mitral valve prolapseSteven M Boronyak, W David Merryman
Journal of Cell Science|April 29, 2015
Mechanobiology of myofibroblast adhesion in fibrotic cardiac diseaseAlison K Schroer, W David Merryman
Future Cardiology|September 28, 2012
The once and future state of percutaneous mitral valve repairSteven M Boronyak, W David Merryman
Cardiovascular Pathology : the Official Journal of the Society for Cardiovascular Pathology|September 25, 2014
In vitro models of aortic valve calcification: solidifying a systemMeghan A Bowler, W David Merryman
Pageof 9