Search research articles
Contact Us
Filters
Showing results (1-10 of 32) with videos related to
Page
of 4
Sort By:
Artificial Organs
|
December 21, 2021
Dynamic pressure-flow curve analysis of the native heart and left ventricular assist device for full and partial bypass conditions
Karen May-Newman
ASAIO Journal (American Society for Artificial Internal Organs : 1992)
|
June 14, 2019
The Importance of Left Ventricular Assist Device Inflow Cannula Angle and the Relationship to Cardiac and Anatomical Geometry
Karen May-Newman
ASAIO Journal (American Society for Artificial Internal Organs : 1992)
|
July 7, 2022
A Mathematical Model of Artificial Pulse Synchronization for the HeartMate3 Left Ventricular Assist Device
Karen May-Newman
Annals of Biomedical Engineering
|
June 20, 2006
Effect of strut chordae transection on mitral valve leaflet biomechanics
Ling Chen, Karen May-Newman
Journal of Cardiothoracic and Vascular Anesthesia
|
May 8, 2019
Bileaflet Prosthesis Design and Orientation Affect Fluid Shear, Residence Time, and Thrombus Formation
Vi Vu, Karen May-Newman
Journal of Cardiothoracic and Vascular Anesthesia
|
May 19, 2019
Mitral Valve Orientation Affects Vortex Formation and Turbulence in the Left Ventricle
Vi Vu, Karen May-Newman
Expert Review of Medical Devices
|
December 8, 2011
Teaching medical device design using design control
Karen May-Newman, G Bryan Cornwall
ASAIO Journal (American Society for Artificial Internal Organs : 1992)
|
March 25, 2006
Effect of left ventricular assist device outflow conduit anastomosis location on flow patterns in the native aorta
Karen May-Newman, Brian Hillen, Walter Dembitsky
Cardiovascular Engineering and Technology
|
March 9, 2021
Manual Carotid Compression is a Viable Alternative for Reduction of Cerebral Microemboli
Paul Isingoma, Juyeun Moon, Karen May-Newman
ASAIO Journal (American Society for Artificial Internal Organs : 1992)
|
August 27, 2024
Aortic Root Vortex Formation During Left Ventricular Assist Device Support
Chaztyn Pangelina, Vi Vu, Karen May-Newman
Page
of 4
Search research articles
Search
Showing results (1-10 of 32) with videos related to
Sort By:
Page
of 4
Artificial Organs
|
December 21, 2021
Dynamic pressure-flow curve analysis of the native heart and left ventricular assist device for full and partial bypass conditions
Karen May-Newman
ASAIO Journal (American Society for Artificial Internal Organs : 1992)
|
June 14, 2019
The Importance of Left Ventricular Assist Device Inflow Cannula Angle and the Relationship to Cardiac and Anatomical Geometry
Karen May-Newman
ASAIO Journal (American Society for Artificial Internal Organs : 1992)
|
July 7, 2022
A Mathematical Model of Artificial Pulse Synchronization for the HeartMate3 Left Ventricular Assist Device
Karen May-Newman
Annals of Biomedical Engineering
|
June 20, 2006
Effect of strut chordae transection on mitral valve leaflet biomechanics
Ling Chen, Karen May-Newman
Journal of Cardiothoracic and Vascular Anesthesia
|
May 8, 2019
Bileaflet Prosthesis Design and Orientation Affect Fluid Shear, Residence Time, and Thrombus Formation
Vi Vu, Karen May-Newman
Journal of Cardiothoracic and Vascular Anesthesia
|
May 19, 2019
Mitral Valve Orientation Affects Vortex Formation and Turbulence in the Left Ventricle
Vi Vu, Karen May-Newman
Expert Review of Medical Devices
|
December 8, 2011
Teaching medical device design using design control
Karen May-Newman, G Bryan Cornwall
ASAIO Journal (American Society for Artificial Internal Organs : 1992)
|
March 25, 2006
Effect of left ventricular assist device outflow conduit anastomosis location on flow patterns in the native aorta
Karen May-Newman, Brian Hillen, Walter Dembitsky
Cardiovascular Engineering and Technology
|
March 9, 2021
Manual Carotid Compression is a Viable Alternative for Reduction of Cerebral Microemboli
Paul Isingoma, Juyeun Moon, Karen May-Newman
ASAIO Journal (American Society for Artificial Internal Organs : 1992)
|
August 27, 2024
Aortic Root Vortex Formation During Left Ventricular Assist Device Support
Chaztyn Pangelina, Vi Vu, Karen May-Newman
Page
of 4