Effect of reduced cardiac output on blood stasis on transcatheter aortic valve leaflets: implications for valve thrombosis.

AIMS There is an increasing awareness of leaflet thrombosis following transcatheter aortic valve implantation (TAVI) and valve-in-valve (ViV) procedures. Nevertheless, the predisposing factors affecting transcatheter aortic valve (TAV) thrombosis have remained unclear. This study aimed to quantify the effects of reduced cardiac output (CO) on blood stasis on the TAV leaflets as a permissive factor for valve thrombosis. METHODS AND RESULTS An idealised computational model representing a TAV was developed in a patient-specific geometry. Three-dimensional flow fields were obtained via a fluid-solid interaction modelling approach at different COs: 5.0, 3.5, 2.0 L/min. Blood residence time (BRT) was subsequently calculated on the leaflets. An association between reduced CO and increased blood stasis on the TAV leaflets was observed. At the end of diastole, larger areas of high BRT (>1.2 s) were observed at the leaflet's fixed edge at low COs. Such areas were calculated to be 2, 8, and 11% of the total surface area of leaflets at CO=5.0, 3.5, and 2.0 L/min, respectively, indicating a ~sixfold increase of BRT on the leaflets from the highest to the lowest CO. CONCLUSIONS This study indicates an association between reduced CO and increased blood stasis on the TAV leaflets which can be regarded as a precursor of valve thrombosis.

[1]  A. Azadani,et al.  Blood Stasis on Transcatheter Valve Leaflets and Implications for Valve-in-Valve Leaflet Thrombosis. , 2017, The Annals of thoracic surgery.

[2]  Wen Cheng,et al.  Subclinical leaflet thrombosis in surgical and transcatheter bioprosthetic aortic valves: an observational study , 2017, The Lancet.

[3]  A. Azadani,et al.  Valve thrombosis following transcatheter aortic valve replacement: significance of blood stasis on the leaflets , 2017, European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery.

[4]  S. Sukavaneshvar Device thrombosis and pre-clinical blood flow models for assessing antithrombogenic efficacy of drug-device combinations. , 2017, Advanced drug delivery reviews.

[5]  Takahiko Suzuki,et al.  Silent Massive Valsalva Thrombosis Identified on Contrast-Enhanced Multislice Computed Tomography Following Transcatheter Aortic Valve Replacement. , 2016, JACC. Cardiovascular interventions.

[6]  C. Terkelsen,et al.  Transcatheter Aortic Valve Thrombosis: Incidence, Predisposing Factors, and Clinical Implications. , 2016, Journal of the American College of Cardiology.

[7]  R. Makkar,et al.  Leaflet motion abnormality after TAVI: genuine threat or much ado about nothing? , 2016, EuroIntervention : journal of EuroPCR in collaboration with the Working Group on Interventional Cardiology of the European Society of Cardiology.

[8]  A. Azadani,et al.  Characterization of three-dimensional anisotropic heart valve tissue mechanical properties using inverse finite element analysis. , 2016, Journal of the mechanical behavior of biomedical materials.

[9]  David Pastor-Escuredo,et al.  A clinical method for mapping and quantifying blood stasis in the left ventricle. , 2016, Journal of biomechanics.

[10]  C. Fernández-Golfín,et al.  Three Cases of Early Lotus Valve Thrombosis. , 2016, JACC. Cardiovascular interventions.

[11]  Prem A. Midha,et al.  How Can We Help a Patient With a Small Failing Bioprosthesis?: An In Vitro Case Study. , 2015, JACC. Cardiovascular interventions.

[12]  Patricia A Pellikka,et al.  Bioprosthetic Valve Thrombosis Versus Structural Failure: Clinical and Echocardiographic Predictors. , 2015, Journal of the American College of Cardiology.

[13]  Deepak L. Bhatt,et al.  Possible Subclinical Leaflet Thrombosis in Bioprosthetic Aortic Valves. , 2015, The New England journal of medicine.

[14]  Abby J. Isaacs,et al.  National trends in utilization and in-hospital outcomes of mechanical versus bioprosthetic aortic valve replacements. , 2015, The Journal of thoracic and cardiovascular surgery.

[15]  R. Virmani,et al.  Thrombus formation following transcatheter aortic valve replacement. , 2015, JACC. Cardiovascular interventions.

[16]  J. Leipsic,et al.  Early Aortic Transcatheter Heart Valve Thrombosis: Diagnostic Value of Contrast-Enhanced Multidetector Computed Tomography , 2015, Circulation. Cardiovascular interventions.

[17]  R. Puri,et al.  Revisión sistemática de la trombosis protésica tras implante percutáneo de válvula aórtica , 2015 .

[18]  R. Puri,et al.  Valve thrombosis following transcatheter aortic valve implantation: a systematic review. , 2015, Revista espanola de cardiologia.

[19]  Arash Kheradvar,et al.  The Effects of Positioning of Transcatheter Aortic Valves on Fluid Dynamics of the Aortic Root , 2014, ASAIO journal.

[20]  M. Pasic,et al.  Transcatheter aortic valve implantation in failed bioprosthetic surgical valves. , 2014, JAMA.

[21]  E. Tuzcu,et al.  Percutaneous Paravalvular Leak Closure. , 2014, Interventional Cardiology.

[22]  Gaetano Burriesci,et al.  Hemodynamics in the Valsalva sinuses after transcatheter aortic valve implantation (TAVI). , 2013, The Journal of heart valve disease.

[23]  P. Pibarot,et al.  Impact of low flow on the outcome of high-risk patients undergoing transcatheter aortic valve replacement. , 2013, Journal of the American College of Cardiology.

[24]  Tain-Yen Hsia,et al.  A non-discrete method for computation of residence time in fluid mechanics simulations. , 2013, Physics of fluids.

[25]  E. Tuzcu,et al.  Percutaneous Paravalvular Leak Closure , 2013, Current Treatment Options in Cardiovascular Medicine.

[26]  T. Sundt,et al.  Early thrombosis risk in patients with biologic valves in the aortic position. , 2012, The Journal of thoracic and cardiovascular surgery.

[27]  A. Azadani,et al.  Transcatheter Heart Valves for Failing Bioprostheses: State-of-the-Art Review of Valve-in-Valve Implantation , 2011, Circulation. Cardiovascular interventions.

[28]  Ali N Azadani,et al.  Transcatheter valve-in-valve implantation for failing bioprosthetic valves. , 2010, Future cardiology.

[29]  P. Pibarot,et al.  Paradoxical Low-Flow, Low-Gradient Severe Aortic Stenosis Despite Preserved Ejection Fraction Is Associated With Higher Afterload and Reduced Survival , 2007, Circulation.

[30]  K. Serri,et al.  Thrombosis of prosthetic heart valves: diagnosis and therapeutic considerations , 2006, Heart.

[31]  D. Simionescu Artificial Heart Valves , 2006 .

[32]  Philippe Ravaud,et al.  A prospective survey of patients with valvular heart disease in Europe: The Euro Heart Survey on Valvular Heart Disease. , 2003, European heart journal.

[33]  U. Heinzmann,et al.  Residence Time in Niches of Stagnant Flow Determines Fibrin Clot Formation in an Arterial Branching Model - Detailed Flow Analysis and Experimental Results , 1995, Thrombosis and Haemostasis.