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W David Merryman

Showing results (11-20 of 88) with videos related to

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Cellular Signalling|December 7, 2020
Cadherin-11 and cardiac fibrosis: A common target for a common pathologyLance A Riley, W David Merryman
Journal of Biomechanics|October 10, 2009
Innovations in cell mechanobiologyW David Merryman, Adam J Engler
Circulation|October 30, 2016
Lnc-ing NOTCH1 to Idiopathic Calcific Aortic Valve DiseaseW David Merryman, Cynthia R Clark
Journal of Biomechanics|February 26, 2021
Side-specific valvular endothelial-interstitial cell mechano-communication via cadherin-11Camryn L Johnson, W David Merryman
Circulation|April 12, 2021
Unloading the Stenotic Path to Identifying Medical Therapy for Calcific Aortic Valve Disease: Barriers and OpportunitiesBrian R Lindman, W David Merryman
Future Cardiology|December 20, 2016
A developmental approach to induced pluripotent stem cells-based tissue engineered heart valvesMark J Vander Roest, W David Merryman
JACC. Basic to Translational Science|May 11, 2022
DCBL2 Deficiency Contributes to Aortic Stenosis via Increased BMP2 SignalingDavid W J Armstrong, W David Merryman
Cellular and Molecular Bioengineering|September 21, 2020
Cyclic Strain Promotes <i>H19</i> Expression and Vascular Tube Formation in iPSC-Derived Endothelial CellsMark J Vander Roest, W David Merryman
Nature Reviews. Cardiology|January 22, 2014
Potential drug targets for calcific aortic valve diseaseJoshua D Hutcheson, Elena Aikawa, W David Merryman
Biomechanics and Modeling in Mechanobiology|February 7, 2012
Calcific nodule morphogenesis by heart valve interstitial cells is strain dependentCharles I Fisher, Joseph Chen, W David Merryman
Pageof 9

Showing results (11-20 of 88) with videos related to

Sort By:
Pageof 9
Cellular Signalling|December 7, 2020
Cadherin-11 and cardiac fibrosis: A common target for a common pathologyLance A Riley, W David Merryman
Journal of Biomechanics|October 10, 2009
Innovations in cell mechanobiologyW David Merryman, Adam J Engler
Circulation|October 30, 2016
Lnc-ing NOTCH1 to Idiopathic Calcific Aortic Valve DiseaseW David Merryman, Cynthia R Clark
Journal of Biomechanics|February 26, 2021
Side-specific valvular endothelial-interstitial cell mechano-communication via cadherin-11Camryn L Johnson, W David Merryman
Circulation|April 12, 2021
Unloading the Stenotic Path to Identifying Medical Therapy for Calcific Aortic Valve Disease: Barriers and OpportunitiesBrian R Lindman, W David Merryman
Future Cardiology|December 20, 2016
A developmental approach to induced pluripotent stem cells-based tissue engineered heart valvesMark J Vander Roest, W David Merryman
JACC. Basic to Translational Science|May 11, 2022
DCBL2 Deficiency Contributes to Aortic Stenosis via Increased BMP2 SignalingDavid W J Armstrong, W David Merryman
Cellular and Molecular Bioengineering|September 21, 2020
Cyclic Strain Promotes <i>H19</i> Expression and Vascular Tube Formation in iPSC-Derived Endothelial CellsMark J Vander Roest, W David Merryman
Nature Reviews. Cardiology|January 22, 2014
Potential drug targets for calcific aortic valve diseaseJoshua D Hutcheson, Elena Aikawa, W David Merryman
Biomechanics and Modeling in Mechanobiology|February 7, 2012
Calcific nodule morphogenesis by heart valve interstitial cells is strain dependentCharles I Fisher, Joseph Chen, W David Merryman
Pageof 9