Cardiovascular Engineering and Technology
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Published By Springer-Verlag

1869-4098, 1869-408x

Author(s):  
Christopher Blum ◽  
Sascha Groß-Hardt ◽  
Ulrich Steinseifer ◽  
Michael Neidlin

Abstract Purpose Thrombosis ranks among the major complications in blood-carrying medical devices and a better understanding to influence the design related contribution to thrombosis is desirable. Over the past years many computational models of thrombosis have been developed. However, numerically cheap models able to predict localized thrombus risk in complex geometries are still lacking. The aim of the study was to develop and test a computationally efficient model for thrombus risk prediction in rotary blood pumps. Methods We used a two-stage approach to calculate thrombus risk. The first stage involves the computation of velocity and pressure fields by computational fluid dynamic simulations. At the second stage, platelet activation by mechanical and chemical stimuli was determined through species transport with an Eulerian approach. The model was compared with existing clinical data on thrombus deposition within the HeartMate II. Furthermore, an operating point and model parameter sensitivity analysis was performed. Results Our model shows good correlation (R2 > 0.93) with clinical data and identifies the bearing and outlet stator region of the HeartMate II as the location most prone to thrombus formation. The calculation of thrombus risk requires an additional 10–20 core hours of computation time. Conclusion The concentration of activated platelets can be used as a surrogate and computationally low-cost marker to determine potential risk regions of thrombus deposition in a blood pump. Relative comparisons of thrombus risk are possible even considering the intrinsic uncertainty in model parameters and operating conditions.


Author(s):  
Landon H. Tompkins ◽  
Barry N. Gellman ◽  
Steven R. Prina ◽  
Gino F. Morello ◽  
Thomas Roussel ◽  
...  

Author(s):  
Francesca Brutti ◽  
Alice Fantazzini ◽  
Alice Finotello ◽  
Lucas Omar Müller ◽  
Ferdinando Auricchio ◽  
...  

Author(s):  
Adrien Lefieux ◽  
Sara Bridio ◽  
David Molony ◽  
Marina Piccinelli ◽  
Claudio Chiastra ◽  
...  

Author(s):  
Victoria Yuan ◽  
Aekaansh Verma ◽  
Nicole K. Schiavone ◽  
David N. Rosenthal ◽  
Alison L. Marsden

Author(s):  
Hoda Hatoum ◽  
Shelly Singh-Gryzbon ◽  
Fateme Esmailie ◽  
Philipp Ruile ◽  
Franz-Josef Neumann ◽  
...  

Author(s):  
Yuan Zhang ◽  
Sen Liu ◽  
Zhihui He ◽  
Yuwei Zhang ◽  
Changming Wang

Author(s):  
Hoda Hatoum ◽  
Shelly Singh-Gryzbon ◽  
Fateme Esmailie ◽  
Philipp Ruile ◽  
Franz-Josef Neumann ◽  
...  

Author(s):  
Omar K. Khalique ◽  
Vladimir Jelnin ◽  
Andreas Hueske ◽  
Mathew Lawlor ◽  
Martin B. Leon ◽  
...  

Abstract Purpose This study quantitatively evaluated the phasic right heart morphology of candidate patients for a transcatheter tricuspid valve intervention (N=32) and of subjects with trace to no tricuspid regurgitation (N = 14). Methods Cardiac computed tomography angiography (CCTA) and transthoracic/transesophageal echocardiography (TTE/TEE) images were analyzed using dedicated research and clinical software. Using CCTA, the phasic right atrial and ventricular volumes, annulus dimensions, annulus-to-right coronary artery (RCA) distances, circumferential topography of the annular tissue shelf, vena cava dimensions (inferior and superior), vena cava positions, axis angles, and annular excursions were quantified. Using TTE/TEE, leaflet geometry, regurgitation, hemodynamics, and heart function were quantified. Measurements within and between groups were quantitatively compared with regression analyses to explore relationships between right heart features. Results The phasic position and orientation of the vena cava and the circumferential topography of the annular tissue shelf were quantitatively presented for the first time. The candidate patient group exhibited greater chamber dimensions, enlarged vena cava, distended vena cava positions, positional shallowing of the annular tissue shelf, geometric annular distortion, leaflet distention, moderate or greater regurgitation, and impaired ventricular function. Atrial volume correlated strongly with directional vena cava positions as well as with annular dimensions. Annulus-to-RCA distances and annular excursions were comparable between groups. Conclusions This study provides new and further insight to the right heart morphology and functional characteristics of candidate patients for a transcatheter tricuspid valve intervention. These data provide a platform from which these patients can continue to be better understood for further improving transcatheter system design and use.


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