Transcaval transcatheter aortic valve implantation in bicuspid aortic valve: A step-by-step procedural guidance

We report the case of a 78-year-old female with Sapien 3 transcatheter heart valve implantation in the transcaval approach. In this setting, we describe the step-by-step management and technique of the transcaval transcatheter aortic valve implantation. Keywords: bicuspid aortic valve; transcatheter aortic valve implantation (TAVI); transcaval TAV

Case Report: Sapien 3 Transcatheter Heart Valve Embolization: Cause, Management, and Redo

The transcatheter heart valve (THV) embolization is a rare but challenging complication in transcatheter aortic valve implantation (TAVI). We report the case of an 81-year-old man with Sapien 3 embolization caused by interrupted rapid pacing. In this setting, we describe the embolized THV management and the technique of the second Sapien 3 implantation

Aortic valve predilatation with a small balloon, without rapid pacing, prior to transfemoral transcatheter aortic valve replacement

Objectives. The aim of this study is to assess the feasibility and clinical outcome of transcatheter aortic valve replacement (TAVR) using aortic valve predilatation (AVPD) with a small, nonocclusive balloon. Background. Balloon aortic valvuloplasty (BAV) under rapid pacing is generally performed in TAVR to ensure the passage and sufficient deployment of the prosthesis in the stenotic AV. BAV may cause serious complications, such as left ventricular stunning or cerebrovascular embolism. Methods. A cohort of 50 consecutive patients with severe aortic stenosis underwent transfemoral TAVR with the Edwards Sapien 3-heart valve. All patients underwent AVPD with a small, nonocclusive balloon (12 × 60 or 14 × 60 mm) without rapid pacing. Procedural data and clinical outcomes were analyzed. Results. The mean age of the cohort was 81±6 years and the mean logistic EuroSCORE (European System for Cardiac Operative Risk Evaluation) was 13±9. Crossing the AV and prosthesis implantation was successful in all cases. The postprocedural mean AV gradient was 12±5 mmHg. There were no cases of aortic regurgitation ≥ grade 2. No periprocedural stroke occurred. One patient (2%) with chronic atrial fibrillation displayed a transient Wernicke aphasia occurring more than 24 hours after TAVR. Mortality was 0% at 30 days after procedure. Conclusion. In TAVR, AVPD with a small, nonocclusive balloon can be safely performed. By avoiding rapid pacing, this technique may be a valid alternative to traditional BAV. Whether or not the use of APVD without rapid pacing translates into less periprocedural complications needs to be assessed in future studies

Algorithm for systematic valve-crossing in transcatheter aortic valve implantation

The retrograde valve-crossing of a stenotic aortic valve is a crucial step in the transcatheter aortic valve implantation procedure. In addition to being time-consuming and associated with an increased stroke risk, inappropriate valve-crossing may cause devastating complications. This tutorial review summarizes systematic and detailed techniques to cross the aortic valve. First, the main challenges in retrograde valve-crossing are depicted. Next, a step-by-step guidance on valve-crossing is provided, along with an in-depth description of the three-dimensional anatomy under a two-dimensional fluoroscopy view. Finally, modified techniques for different anatomies are described. Keywords: Aortic stenosis; Transcatheter aortic valve implantation; Transcatheter heart valve; Valve-crossing

Aortic Valve Predilatation with a Small Balloon, without Rapid Pacing, prior to Transfemoral Transcatheter Aortic Valve Replacement

Objectives. The aim of this study is to assess the feasibility and clinical outcome of transcatheter aortic valve replacement (TAVR) using aortic valve predilatation (AVPD) with a small, nonocclusive balloon. Background. Balloon aortic valvuloplasty (BAV) under rapid pacing is generally performed in TAVR to ensure the passage and sufficient deployment of the prosthesis in the stenotic AV. BAV may cause serious complications, such as left ventricular stunning or cerebrovascular embolism. Methods. A cohort of 50 consecutive patients with severe aortic stenosis underwent transfemoral TAVR with the Edwards Sapien 3-heart valve. All patients underwent AVPD with a small, nonocclusive balloon (12 × 60 or 14 × 60 mm) without rapid pacing. Procedural data and clinical outcomes were analyzed. Results. The mean age of the cohort was 81±6 years and the mean logistic EuroSCORE (European System for Cardiac Operative Risk Evaluation) was 13±9. Crossing the AV and prosthesis implantation was successful in all cases. The postprocedural mean AV gradient was 12±5 mmHg. There were no cases of aortic regurgitation ≥ grade 2. No periprocedural stroke occurred. One patient (2%) with chronic atrial fibrillation displayed a transient Wernicke aphasia occurring more than 24 hours after TAVR. Mortality was 0% at 30 days after procedure. Conclusion. In TAVR, AVPD with a small, nonocclusive balloon can be safely performed. By avoiding rapid pacing, this technique may be a valid alternative to traditional BAV. Whether or not the use of APVD without rapid pacing translates into less periprocedural complications needs to be assessed in future studies

Aortic annulus sizing in stenotic bicommissural non-raphe-type bicuspid aortic valves: reconstructing a three-dimensional structure using only two hinge points

Bicuspid aortic valve (BAV) anatomy is becoming an increasingly frequently encountered challenge in transcatheter aortic valve implantation (TAVI). Bicommissural non-raphe-type BAV (Sievers and Schmidtke Type 0) is composed morphologically of two aortic cusps with no raphe and is less common than the tricommissural or bicommissural raphe-type configurations. Precise annular sizing is a key step for successful TAVI in BAV. The challenge in bicommissural non-raphe-type BAV is that a three-dimensional structure has to be reconstructed using only two anatomical hinge points. For this reason, available software are limited when it comes to bicommissural non-raphe-type BAV. We propose that manual assessment of the aortic root in bicommissural non-raphe-type BAV using multi-planar reconstruction (MPR) software can be performed successfully by aligning the two available hinge points and measuring the smallest identifiable annular dimensions in the transverse plane (Fig. 1). We identified 12 patients with bicommissural non-raphe-type BAV undergoing TAVI between January 2013 and December 2017 in our high-volume institution. Our novel sizing strategy was employed prospectively in three patients-with good clinical outcomes-and evaluated retrospectively in the remainder (Table 1). No patient suffered a central major vascular complication or required new permanent pacemaker implantation. Device success occurred in all patients except one (post-procedural echocardiographic transvalvular gradient of 23 mmHg). In the retrospectively assessed cases, the novel annulus measure was concordant with the implanted THV size in 7 out of 9 procedures and, importantly, did not overestimate the annulus dimensions in any case. Furthermore, in two balloon-expandable THV cases the new measure may, in retrospect, have prompted consideration of a smaller implant size. To be noted, balloon sizing of the aortic annulus has additional value when selecting the valve size in BAV anatomy. Further prospective validation of this novel MDCT sizing technique is required