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Daniel Timms

Showing results (11-20 of 32) with videos related to

Pageof 4
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Artificial Organs|August 2, 2013
In vitro evaluation of aortic insufficiency with a rotary left ventricular assist deviceShaun D Gregory, Michael C Stevens, Eric Wu, et al.
Annals of Biomedical Engineering|July 9, 2011
Biventricular assist devices: a technical reviewShaun D Gregory, Daniel Timms, Nicholas Gaddum, et al.
Artificial Organs|May 3, 2013
The spiral groove bearing as a mechanism for enhancing the secondary flow in a centrifugal rotary blood pumpFelipe Amaral, Sascha Gross-Hardt, Daniel Timms, et al.
Annals of Biomedical Engineering|August 21, 2016
Application of Adaptive Starling-Like Controller to Total Artificial Heart Using Dual Rotary Blood PumpsBoon C Ng, Peter A Smith, Frank Nestler, et al.
Plos One|April 21, 2018
Pulsatile operation of a continuous-flow right ventricular assist device (RVAD) to improve vascular pulsatilityBoon C Ng, Matthias Kleinheyer, Peter A Smith, et al.
BMC Anesthesiology|March 16, 2010
Intraaortic Balloon Pump Counterpulsation and Cerebral Autoregulation: an observational studyJudith Bellapart, Shureng Geng, Kimble Dunster, et al.
Artificial Organs|August 17, 2011
In vitro evaluation of a compliant inflow cannula reservoir to reduce suction events with extracorporeal rotary ventricular assist device supportShaun David Gregory, Daniel Timms, Nicholas Richard Gaddum, et al.
Artificial Organs|May 4, 2013
Exercise studies in patients with rotary blood pumps: cause, effects, and implications for starling-like control of changes in pump flowRobert F Salamonsen, Vincent Pellegrino, John F Fraser, et al.
Artificial Organs|July 22, 2014
A compliant, banded outflow cannula for decreased afterload sensitivity of rotary right ventricular assist devicesShaun D Gregory, Emma Schummy, Mark Pearcy, et al.
Artificial Organs|October 2, 2010
Atrial versus ventricular cannulation for a rotary ventricular assist deviceDaniel Timms, Shaun Gregory, Po-Lin Hsu, et al.
Pageof 4

Showing results (11-20 of 32) with videos related to

Sort By:
Pageof 4
Artificial Organs|August 2, 2013
In vitro evaluation of aortic insufficiency with a rotary left ventricular assist deviceShaun D Gregory, Michael C Stevens, Eric Wu, et al.
Annals of Biomedical Engineering|July 9, 2011
Biventricular assist devices: a technical reviewShaun D Gregory, Daniel Timms, Nicholas Gaddum, et al.
Artificial Organs|May 3, 2013
The spiral groove bearing as a mechanism for enhancing the secondary flow in a centrifugal rotary blood pumpFelipe Amaral, Sascha Gross-Hardt, Daniel Timms, et al.
Annals of Biomedical Engineering|August 21, 2016
Application of Adaptive Starling-Like Controller to Total Artificial Heart Using Dual Rotary Blood PumpsBoon C Ng, Peter A Smith, Frank Nestler, et al.
Plos One|April 21, 2018
Pulsatile operation of a continuous-flow right ventricular assist device (RVAD) to improve vascular pulsatilityBoon C Ng, Matthias Kleinheyer, Peter A Smith, et al.
BMC Anesthesiology|March 16, 2010
Intraaortic Balloon Pump Counterpulsation and Cerebral Autoregulation: an observational studyJudith Bellapart, Shureng Geng, Kimble Dunster, et al.
Artificial Organs|August 17, 2011
In vitro evaluation of a compliant inflow cannula reservoir to reduce suction events with extracorporeal rotary ventricular assist device supportShaun David Gregory, Daniel Timms, Nicholas Richard Gaddum, et al.
Artificial Organs|May 4, 2013
Exercise studies in patients with rotary blood pumps: cause, effects, and implications for starling-like control of changes in pump flowRobert F Salamonsen, Vincent Pellegrino, John F Fraser, et al.
Artificial Organs|July 22, 2014
A compliant, banded outflow cannula for decreased afterload sensitivity of rotary right ventricular assist devicesShaun D Gregory, Emma Schummy, Mark Pearcy, et al.
Artificial Organs|October 2, 2010
Atrial versus ventricular cannulation for a rotary ventricular assist deviceDaniel Timms, Shaun Gregory, Po-Lin Hsu, et al.
Pageof 4