Transcatheter Aortic Valve Replacement With the Latest-Iteration Self-Expanding or Balloon-Expandable Valves: The Multicenter OPERA-TAVI Registry

BackgroundThe latest iterations of devices for transcatheter aortic valve replacement (TAVR) have brought refinements to further improve patient outcomes.ObjectivesThis study sought to compare early outcomes of patients undergoing TAVR with the self-expanding (SE) Evolut PRO/PRO+ (Medtronic, Inc) or balloon-expandable (BE) Sapien 3 ULTRA (Edwards Lifesciences) devices.MethodsThe OPERA-TAVI (Comparative Analysis of Evolut PRO vs Sapien 3 Ultra Valves for Transfemoral Transcatheter Aortic Valve Implantation) registry collected data from 14 high-volume centers worldwide on patients undergoing TAVR with SE or BE devices. After excluding patients who were not eligible for both devices, patients were compared using 1:1 propensity score matching. The primary efficacy and safety outcomes were Valve Academic Research Consortium-3 device success and early safety, respectively.ResultsAmong 2,241 patients eligible for the present analysis, 683 pairs of patients were matched. The primary efficacy outcome did not differ between patients receiving SE or BE transcatheter aortic valves (SE: 87.4% vs BE: 85.9%; P = 0.47), but the BE device recipients showed a higher rate of the primary safety outcome (SE: 69.1% vs BE: 82.6%; P < 0.01). This finding was driven by the higher rates of permanent pacemaker implantation (SE: 17.9% vs BE: 10.1%; P < 0.01) and disabling stroke (SE: 2.3% vs BE: 0.7%; P = 0.03) in SE device recipients. On post-TAVR echocardiography, the rate of moderate to severe paravalvular regurgitation was similar between groups (SE: 3.2% vs BE: 2.3%; P = 0.41), whereas lower mean transvalvular gradients were observed in the SE cohort (median SE: 7.0 vs BE: 12.0 mm Hg; P < 0.01).ConclusionsThe OPERA-TAVI registry showed that SE and BE devices had comparable Valve Academic Research Consortium-3 device success rates, but the BE device had a higher rate of early safety. The higher permanent pacemaker implantation and disabling stroke rates in SE device recipients drove this composite endpoint.     

Three Generations of Self-Expanding Transcatheter Aortic Valves: A Report From the STS/ACC TVT Registry

ObjectivesThe aim of this study was to assess the evolution of early outcomes for 3 iterative self-expanding transcatheter aortic valves.BackgroundOver the past decade there have been rapid advancements in transcatheter aortic valve replacement (TAVR) technologies, including 3 generations of supra-annular self-expanding transcatheter systems.MethodsData from the Society of Thoracic Surgeons/American College of Cardiology TVT (Transcatheter Valve Therapy) Registry for patients undergoing TAVR with CoreValve, Evolut R, or Evolut PRO valves to treat tricuspid aortic stenosis between January 2014 and September 2017 were obtained. Patient risk and echocardiographic data are site reported. Valves analyzed included 23-, 26-, and 29-mm sizes to fit 18- to 26-mm annular diameters. Propensity score matching was performed using the Evolut PRO group as the common reference.ResultsOf 18,874 patients undergoing TAVR at 381 centers, 5,514 patients were implanted with CoreValve, 11,295 with Evolut R, and 2,065 with Evolut PRO valves. At 30 days, there were significantly fewer patients with more than mild aortic regurgitation for the unmatched (7.8% CoreValve, 5.2% Evolut R, and 2.8% Evolut PRO; p < 0.001) and matched populations (8.3% CoreValve, 5.4% Evolut R, and 3.4% Evolut PRO; p = 0.032). The mean aortic valve gradients at 30 days in the matched populations were <8 mm Hg for all 3 valves (7.3 mm Hg CoreValve, 7.5 mm Hg Evolut R, 7.2 mm Hg Evolut PRO).ConclusionsAdvancements in transcatheter valve technologies and expanding indications for TAVR have resulted in improved outcomes for patients undergoing TAVR in the United States with self-expanding, supra-annular valves. In particular, the addition of an outer pericardial tissue wrap designed to enhance sealing at the level of the aortic annulus has resulted in very low rates of significant aortic regurgitation while maintaining excellent hemodynamic status.     

Minimizing Permanent Pacemaker Following Repositionable Self-Expanding Transcatheter Aortic Valve Replacement

ObjectivesThis study sought to minimize the risk of permanent pacemaker implantation (PPMI) with contemporary repositionable self-expanding transcatheter aortic valve replacement (TAVR).BackgroundSelf-expanding TAVR traditionally carries a high risk of PPMI. Limited data exist on the use of the repositionable devices to minimize this risk.MethodsAt NYU Langone Health, 248 consecutive patients with severe aortic stenosis underwent TAVR under conscious sedation with repositionable self-expanding TAVR with a standard approach to device implantation. A detailed analysis of multiple factors contributing to PPMI was performed; this was used to generate an anatomically guided MInimizing Depth According to the membranous Septum (MIDAS) approach to device implantation, aiming for pre-release depth in relation to the noncoronary cusp of less than the length of the membranous septum (MS).ResultsRight bundle branch block, MS length, largest device size (Evolut 34 XL; Medtronic, Minneapolis, Minnesota), and implant depth > MS length predicted PPMI. On multivariate analysis, only implant depth > MS length (odds ratio: 8.04; 95% confidence interval: 2.58 to 25.04; p < 0.001) and Evolut 34 XL (odds ratio: 4.96; 95% confidence interval: 1.68 to 14.63; p = 0.004) were independent predictors of PPMI. The MIDAS approach was applied prospectively to a consecutive series of 100 patients, with operators aiming to position the device at a depth of < MS length whenever possible; this reduced the new PPMI rate from 9.7% (24 of 248) in the standard cohort to 3.0% (p = 0.035), and the rate of new left bundle branch block from 25.8% to 9% (p < 0.001).ConclusionsUsing a patient-specific MIDAS approach to device implantation, repositionable self-expanding TAVR achieved very low and predictable rates of PPMI which are significantly lower than previously reported with self-expanding TAVR.     

Commissural Alignment After Balloon-Expandable Transcatheter Aortic Valve Replacement Is Associated With Improved Hemodynamic Outcomes

BackgroundTranscatheter aortic valve replacement (TAVR) is generally performed without control over the alignment of the bioprosthesis to the native aortic valve (AV) commissures. Data on the impact of commissural misalignment (CMA) on the clinical and hemodynamic outcome after TAVR are scarce.ObjectivesThe aim of this study was to investigate the impact of commissural misalignment (CMA) on the clinical and hemodynamic outcome in patients with severe tricuspid aortic stenosis undergoing TAVR using the balloon-expandable (BE) SAPIEN 3 valve (Edwards LifeSciences).MethodsClinical data of consecutive patients who underwent BE TAVR at Cedars-Sinai Medical Center (Los Angeles, California, USA) enrolled in the RESOLVE (Assessment of TRanscathetER and Surgical Aortic BiOprosthetic Valve Thrombosis and Its TrEatment With Anticoagulation) registry were retrospectively analyzed to evaluate CMA, which was defined as a neocommissure position >30° compared with native commissures on computed tomography.ResultsA total of 324 patients (36.6% female, median Society of Thoracic Surgeons score of 3.9%) were included in the analysis. CMA was present in 171 individuals (52.8%). At 30 days, rates of aortic regurgitation greater than mild (5.6%) and a residual AV gradient ≥20 mm Hg (7.4%) were not different between CMA and non-CMA patients. Commissural orientation was independently associated with a relative AV mean gradient increase >50% from discharge to 30 days (per increase of 10° misalignment; OR: 1.3; 95% CI: 1.0-1.4; P = 0.01). The long-term composite outcome of death or stroke was not different between groups (log-rank P = 0.29).ConclusionsIn patients with severe tricuspid aortic stenosis who undergo SAPIEN 3 TAVR, the neocommissures align randomly. Our data demonstrate that commissural alignment may impact device performance and clinical outcomes in patients undergoing BE TAVR. (Assessment of TRanscathetEr and Surgical Aortic BiOprosthetic VaLVve Dysfunction with Multimodality Imaging and Its TrEatment with Anticoagulation [RESOLVE]; NCT02318342)     

Transcatheter Aortic Valve Replacement in Failed Transcatheter Bioprosthetic Valves

Transcatheter aortic valve replacement (TAVR) is increasingly being performed in younger and lower surgical risk patients. Given the longer life expectancy of these patients, the bioprosthetic valve will eventually fail, and aortic valve reintervention may be necessary. Although currently rare, redo-TAVR will likely increase in the future as younger patients are expected to outlive their transcatheter bioprosthesis. This review provides a contemporary overview of the indications, procedural planning, implantation technique, and outcomes of TAVR in failed transcatheter bioprosthetic aortic valves.     

Commissural Versus Coronary Optimized Alignment During Transcatheter Aortic Valve Replacement

ObjectivesThe aims of this study were to determine the rate of noncentered coronary ostia and their risk for coronary overlap (CO) and to develop an improved orientation strategy for transcatheter aortic valve replacement (TAVR) devices taking into account anatomical cues to identify patients at risk for CO regardless of commissural alignment and compute an alternative, CO-free TAVR rotation angle for those patients.BackgroundCommissural alignment during TAVR reduces CO risk. However, eccentricity of coronary ostia from the center of the sinus of Valsalva may result in CO even after perfect alignment of TAVR commissures.MethodsBaseline computed tomography from TAVR candidates helped identify distance from commissures to the right coronary artery (RCA) and the left coronary artery (LCA). Then, for each case, a virtual valve was simulated with ideal commissural or coronary alignment, and the degree of CO was determined. On the basis of the potential BASILICA (bioprosthetic or native aortic scallop intentional laceration to prevent iatrogenic coronary artery obstruction) efficacy, 3 groups were defined: no risk for CO (>35° from neocommissure to coronary ostia), moderate risk (20°-35°), and severe risk (≤20°).ResultsComputed tomographic studies from 107 patients were included. After excluding 7 patients (poor quality or bicuspid valve), 100 patients were analyzed. The RCA showed greater eccentricity compared with the LCA (18.5° [IQR: 3.3°-12.8°] vs 6.5° [IQR: 3.3°-12.8°]; P < 0.001). The mean intercoronary angle was 140.0° ± 18.7° (95% CI: 136.3°-143.7°). Thirty-two patients had moderate to severe risk for CO (≤35°) despite ideal commissural alignment. Greater coronary eccentricity (cutoff for RCA, 24.5°; cutoff for LCA, 19°) and intercoronary angle >147.5° or <103° were associated with greater risk for moderate to severe CO despite commissural alignment (area under the curve: 0.97; 95% CI: 0.91-0.99). If optimal coronary alignment was simulated, this prevented severe CO in all cases and reduced moderate CO from 27% to 5% (P < 0.001).ConclusionsOne third of patients would have CO during TAVR-in-TAVR despite commissural alignment; a 6-fold decrease in this risk was achieved with optimized coronary alignment. Coronary eccentricity and intercoronary angle were the main predictors.     

Transcatheter Aortic Valve Replacement With Self-Expanding ACURATE neo2: Postprocedural Hemodynamic and Short-Term Clinical Outcomes

BackgroundThe first-generation ACURATE neo transcatheter heart valve (THV) (Boston Scientific) was associated with a non-negligible occurrence of moderate or greater paravalvular aortic regurgitation (AR) following transcatheter aortic valve replacement. To overcome this issue, the ACURATE neo2 iteration, which incorporates a taller outer skirt aimed at reducing the occurrence of paravalvular AR, has recently been developed.ObjectivesThe aim of this study was to assess the efficacy and safety of the ACURATE neo2 (Boston Scientific) THV in patients with severe aortic valve stenosis.MethodsITAL-neo was an observational, retrospective, multicenter registry enrolling consecutive patients with severe aortic valve stenosis, treated with first- and second-generation ACURATE neo THVs, via transfemoral and trans-subclavian access, in 13 Italian centers. One-to-one propensity score matching was applied to account for baseline characteristics unbalance. The primary endpoint was the occurrence of moderate or greater paravalvular AR on predischarge echocardiographic assessment. Secondary endpoints included postprocedural technical success and 90-day device success and safety.ResultsAmong 900 patients included in the registry, 220 received the ACURATE neo2 THV, whereas 680 were treated with the first-generation device. A total of 410 patients were compared after 1:1 propensity score matching. The ACURATE neo2 THV was associated with a 3-fold lower frequency of postprocedural moderate or greater paravalvular AR (11.2% vs 3.5%; P < 0.001). No other hemodynamic differences were observed. Postprocedural technical success was similar between the 2 cohorts. Fewer adverse events were observed in patients treated with the ACURATE neo2 at 90 days.ConclusionsTransfemoral transcatheter aortic valve replacement using the ACURATE neo2 was associated with a significant lower frequency of moderate or greater paravalvular AR compared with the earlier generation ACURATE neo device, with encouraging short-term safety and efficacy.     

Neosinus and Sinus Flow After Self-Expanding and Balloon-Expandable Transcatheter Aortic Valve Replacement

ObjectivesThe aim of this study was to evaluate flow dynamics in the aortic sinus and the neosinus (NS) after transcatheter heart valve (THV) implantation in valve-in-valve (ViV).BackgroundLeaflet thrombosis may occur on THVs and affect performance and durability. Differences in flow dynamics may affect the risk for leaflet thrombosis.MethodsHemodynamic assessment following THV implantation in a surgical aortic valve was performed in a left heart simulator under pulsatile physiological conditions. Assessment was performed using a 23-mm polymeric surgical aortic valve (not diseased) and multiple THV platforms, including self-expanding devices (26-mm Evolut, 23-mm Allegra, small ACURATE neo) and a balloon-expandable device (23-mm SAPIEN 3). Particle image velocimetry was performed to assess flow in the sinus and NS. Sinus and NS washout, shear stress, and velocity were calculated.ResultsSinus and NS washout was fastest and approximately 1 cardiac cycle for each with the Evolut, ACURATE neo, and Allegra compared with the SAPIEN 3, with washout in 2 and 3 cardiac cycles, respectively. The Allegra showed the largest shear stress distribution in the sinus, followed by the SAPIEN 3. In the NS, all 4 valves showed equal likelihoods of occurrence of shear stress <1 Pa, but the Allegra showed the highest likelihoods of occurrence for shear stress >1 Pa. The velocities in the sinus and NS were 0.05, 0.078, 0.080, and 0.075 m/s for Evolut, SAPIEN 3, ACURATE neo, and Allegra ViV, respectively.ConclusionsSinus and NS flow dynamics differ substantially among THVs after ViV. Self-expanding supra-annular valves seem to have faster washouts compared with an equivalent-size balloon-expandable THV.     

Hybrid Approach Using the Cusp-Overlap Technique for Transcatheter Aortic Valve Replacement With a Balloon-Expandable Valve

BackgroundThe cusp-overlap (CO) technique has recently been advocated and is being increasingly adopted for self-expandable transcatheter heart valve (THV) implantation.ObjectivesThe aim of this study was to evaluate the feasibility, implantation depth, and outcomes of the CO technique for the balloon-expandable SAPIEN 3 THV.MethodsThe CO technique was used in consecutive patients undergoing balloon-expandable THV implantation at one center between April 2021 and March 2022. Optimal fluoroscopic angles were determined from preprocedural computed tomography and confirmed on predeployment angiography. The THV radiolucent line was positioned 2 to 4 mm below the noncoronary cusp in the CO view, and positioning was confirmed in the 3-cusp view. Postdeployment THV implantation depth was assessed in both views. One-month outcomes were assessed using Valve Academic Research Consortium 3 criteria.ResultsAmong 137 patients eligible for the CO technique, the CO view was not used because of unfavorable ergonomics in 27 patients (26.5%) and hemodynamic instability in 8 patients (7.8%). Among 102 patients, the mean age was 81.1 ± 6.6 years, the mean Society of Thoracic Surgeons score was 3.3% ± 2.2%, and 64.7% were men. The mean measured THV implantation depth was 3.0 ± 1.4 mm in the CO view and 2.5 ± 1.4 mm in the 3-cusp view. At 1-month follow-up, 1 patient (1.0%) had died, 1 (1.0%) had had a stroke, and 7 (6.8%) had undergone permanent pacemaker implantation.ConclusionsThe CO technique is feasible and safe and may facilitate more accurate balloon-expandable THV positioning, especially when deep implantation needs to be avoided. Further studies are required to explore potential reduction in atrioventricular conduction block, pacemakers, or paravalvular regurgitation.     

Permanent Pacemaker Implantation Following Valve-in-Valve Transcatheter Aortic Valve Replacement: VIVID Registry

BackgroundPermanent pacemaker implantation (PPI) remains one of the main drawbacks of transcatheter aortic valve replacement (TAVR), but scarce data exist on PPI after valve-in-valve (ViV) TAVR, particularly with the use of newer-generation transcatheter heart valves (THVs).ObjectivesThe goal of this study was to determine the incidence, factors associated with, and clinical impact of PPI in a large series of ViV-TAVR procedures.MethodsData were obtained from the multicenter VIVID Registry and included the main baseline and procedural characteristics, in-hospital and late (median follow-up: 13 months [interquartile range: 3 to 41 months]) outcomes analyzed according to the need of periprocedural PPI. All THVs except CoreValve, Cribier-Edwards, Sapien, and Sapien XT were considered to be new-generation THVs.ResultsA total of 1,987 patients without prior PPI undergoing ViV-TAVR from 2007 to 2020 were included. Of these, 128 patients (6.4%) had PPI after TAVR, with a significant decrease in the incidence of PPI with the use of new-generation THVs (4.7% vs. 7.4%; p = 0.017), mainly related to a reduced PPI rate with the Evolut R/Pro versus CoreValve (3.7% vs. 9.0%; p = 0.002). There were no significant differences in PPI rates between newer-generation balloon- and self-expanding THVs (6.1% vs. 3.9%; p = 0.18). In the multivariable analysis, older age (odds ratio [OR]: 1.05 for each increase of 1 year; 95% confidence interval [CI]: 1.02 to 1.07; p = 0.001), larger THV size (OR: 1.10; 95% CI: 1.01 to 1.20; p = 0.02), and previous right bundle branch block (OR: 2.04; 95% CI: 1.00 to 4.17; p = 0.05) were associated with an increased risk of PPI. There were no differences in 30-day mortality between the PPI (4.7%) and no-PPI (2.7%) groups (p = 0.19), but PPI patients exhibited a trend toward higher mortality risk at follow-up (hazard ratio: 1.39; 95% CI: 1.02 to 1.91; p = 0.04; p = 0.08 after adjusting for age differences between groups).ConclusionsIn a contemporary large series of ViV-TAVR patients, the rate of periprocedural PPI was relatively low, and its incidence decreased with the use of new-generation THV systems. PPI following ViV-TAVR was associated with a trend toward increased mortality at follow-up.     

5-Year Outcomes With Self-Expanding vs Balloon-Expandable Transcatheter Aortic Valve Replacement in Patients With Small Annuli

BackgroundSelf-expanding transcatheter heart valves (THVs) are associated with better echocardiographic hemodynamic performance than balloon-expandable THVs and are considered preferable in patients with small annuli.ObjectivesThis study sought to compare 5-year outcomes between self-expanding vs balloon-expandable THVs in severe aortic stenosis (AS) patients with small annuli.MethodsConsecutive severe AS patients with an aortic valve annulus area <430 mm² who underwent transcatheter aortic valve replacement (TAVR) with either the CoreValve Evolut (Medtronic) or SAPIEN (Edwards Lifesciences) THV between 2012 and 2021 were enrolled from the Bern TAVI registry. A 1:1 propensity-matched analysis was performed to account for baseline differences between groups.ResultsA total of 723 patients were included, and propensity score matching resulted in 171 pairs. Technical success was achieved in over 85% of both groups with no significant difference. Self-expanding THVs were associated with a lower transvalvular gradient (8.0 ± 4.8 mm Hg vs 12.5 ± 4.5 mm Hg; P < 0.001), a larger effective orifice area (1.81 ± 0.46 cm² vs 1.49 ± 0.42 cm²; P < 0.001), and a lower incidence of prosthesis-patient mismatch (19.7% vs 51.8%; P < 0.001) than balloon-expandable THVs. At 5 years, there were no significant differences in mortality (50.4% vs 39.6%; P = 0.269) between groups. Disabling stroke occurred more frequently in patients with a self-expanding THV than those with a balloon-expandable THV (6.6% vs 0.6%; P = 0.030). Similar results were obtained using inverse probability of treatment weighting in the Bern TAVI registry and the nationwide Swiss TAVI registry.ConclusionsThe echocardiographic hemodynamic advantage of self-expanding THVs was not associated with better clinical outcomes compared with balloon-expandable THVs up to 5 years in patients with small annuli. (Swiss TAVI Registry; NCT01368250)     

Novel Pressure-Regulated Deployment Strategy for Improving the Safety and Efficacy of Balloon-Expandable Transcatheter Aortic Valves

ObjectivesThe authors propose a novel pressure-regulated method for balloon-expandable transcatheter heart valve (THV) deployment, aimed at optimizing prosthesis-annulus apposition while preventing significant tissue injury.BackgroundThe optimal method for balloon-expandable THV deployment remains debated. Current protocols are volume dependent, relying on under- and overfilling of the deployment apparatus. During deployment, the annular wall tension exerted by the expanding prosthesis is determined by maximal THV diameter and balloon pressure (Laplace’s law).MethodsThree hundred thirty consecutive patients with severe native aortic stenosis who underwent TAVR with SAPIEN 3 THVs were included. One hundred and six patients were considered at high risk for annular rupture. THVs were deployed until reaching a predetermined balloon pressure. Postdilatation was performed to reduce mild or greater angiographic paravalvular regurgitation (PVR). Using a biomechanical model, annular wall stress was estimated for each case and assessed against rates of postdilatation, mild or greater PVR on transthoracic echocardiography, new permanent pacemaker placement or left bundle branch block, and annular rupture.ResultsPatients with wall stress >3 MPa had reduced postdilatation rate (P < 0.001) and reduced final PVR (P = 0.014). Annular rupture occurred in 2 of 3 high-risk patients with wall stress >3.5 MPa (3.69 and 3.84 MPa); no rupture occurred in 95 high-risk patients with wall stress ≤3.5 MPa. We defined a single target deployment pressure per THV size to ensure deployment within target wall stress levels of 3 to 3.5 MPa: 6.25 atm for 23-mm THVs, 5.5 atm for 26-mm THVs, and 5 atm for 29-mm THVs. Patients within this target range (n = 136) had a 10.0% postdilatation rate, 12.7% mild PVR, and no moderate to severe PVR. The relationship between balloon filling volume and associated pressure and wall stress was inconsistent.ConclusionsPressure-regulated THV deployment is a simple, reproducible, safe, and effective method, regardless of high-risk anatomical complexities.     

Patient-Specific Computer Simulation in TAVR With the Self-Expanding Evolut R Valve

ObjectivesThe aim of this study was to assess the added value and predictive power of the TAVIguide (Added Value of Patient-Specific Computer Simulation in Transcatheter Aortic Valve Implantation) software in clinical practice.BackgroundOptimal outcome after transcatheter aortic valve replacement (TAVR) may become more important as TAVR shifts toward low-risk patients. Patient-specific computer simulation is able to provide prediction of outcome after TAVR. Its clinical role and validation of accuracy, however, have not yet been studied prospectively.MethodsA prospective, observational, multicenter study was conducted among 80 patients with severe aortic stenosis treated with the Evolut R valve. Simulation was performed in 42 patients and no simulation in 38. A comparison between the valve size (decision 1) and target depth of implantation selected by the operator on the basis of multislice computed tomography and the valve size (decision 2) and target depth of implantation selected after simulation were the primary endpoints. Predictive power was examined by comparing the simulated and observed degree of aortic regurgitation.ResultsDecision 2 differed from decision 1 in 1 of 42 patients because of predicted paravalvular leakage, and changes in valve type occurred in 2 of 42. In 39 of 42 patients, decisions 1 and 2 were similar. Target depth of implantation differed in 7 of 42 patients after simulation (lower in 4 and higher in 3). In 16 of 42 patients, simulation affected the TAVR procedure; in 9, the operator avoided additional measures to achieve the target depth of implantation, and in 7 patients, additional measures were performed. There was a trend toward a higher degree of predicted than observed aortic regurgitation (17.5 vs. 12 ml/s; p = 0.13).ConclusionsPatient-specific computer simulation did not affect valve size selection but did affect the selection of the target depth of implantation and the execution of TAVR to achieve the desired target depth of implantation.     

Transcatheter Aortic Valve-in-Valve Replacement for Degenerated Stentless Bioprosthetic Aortic Valves: Results of a Multicenter Retrospective Analysis

ObjectivesThe purpose of this study was to evaluate the safety and efficacy of valve-in-valve (ViV) transcatheter aortic valve replacement (TAVR) for stentless bioprosthetic aortic valves (SBAVs) and to identify predictors of adverse events.BackgroundViV TAVR in SBAVs is associated with unique technical challenges and risks.MethodsClinical records and computer tomographic scans were retrospectively reviewed for procedural complications, predictors of coronary obstruction, mortality, and echocardiographic results.ResultsAmong 66 SBAV patients undergoing ViV TAVR, mortality was 2 of 66 patients (3.0%) at 30 days and 5 of 52 patients (9.6%) at 1 year. At 1 year, left ventricular end-systolic dimension was decreased versus baseline (median [interquartile range (IQR)]: 3.0 [2.6 to 3.6] cm vs. 3.7 [3.2 to 4.4] cm; p < 0.001). Coronary occlusion in 6 of 66 procedures (9.1%) resulted in myocardial infarction in 2 of 66 procedures (3.0%). Predictors of coronary occlusion included subcoronary implant technique compared with full root replacement (6 of 31, 19.4% vs. 0 of 28, 0%; p = 0.01), short simulated radial valve-to-coronary distance (median [IQR]: 3.4 [0.0 to 4.6] mm vs. 4.6 [3.2 to 6.2] mm; p = 0.016), and low coronary height (7.8 [5.8 to 10.0] mm vs. 11.6 [8.7 to 13.9] mm; p = 0.003). Coronary arteries originated <10 mm above the valve leaflets in 34 of 97 unobstructed coronary arteries (35.1%).ConclusionsTAVR in SBAVs is frequently associated with high-risk coronary anatomy but can be performed with a low risk of death and myocardial infarction, resulting in favorable ventricular remodeling. A subcoronary surgical approach is associated with an increased risk of coronary obstruction.     

First-in-Human Experience With Patient-Specific Computer Simulation of TAVR in Bicuspid Aortic Valve Morphology

ObjectivesThe aim of this study was to prospectively evaluate the clinical use of patient-specific computer simulation of transcatheter aortic valve replacement (TAVR) in bicuspid aortic valve (BAV) morphology.BackgroundPatient-specific computer simulation of TAVR in BAV may predict important clinical outcomes, such as paravalvular regurgitation and conduction disturbance.MethodsBetween May 2018 and April 2019, all patients who were referred for TAVR who had BAV identified on work-up cardiac multidetector computed tomographic imaging prospectively underwent patient-specific computer simulation with a self-expanding transcatheter heart valve (THV) using TAVIguide technology.ResultsNine patients were included in the study. Sievers classification was type 0 in 2 patients and type 1 in 7 patients. The simulations altered the treatment strategy in 8 patients (89%). The simulations suggested moderate to severe paravalvular regurgitation in 3 patients, who were referred for consideration of surgery. The remaining 6 patients underwent TAVR with a self-expanding THV. In 5 of these patients (83%), THV size and/or implantation depth was altered to minimize paravalvular regurgitation and/or conduction disturbance. In 1 patient, simulations suggested significant conduction disturbance after TAVR, and a permanent pacemaker was implanted before the procedure. Following treatment, all 9 patients had no to mild paravalvular regurgitation. The patient who had a pre-procedure permanent pacemaker implanted became pacing dependent, with underlying third-degree atrioventricular block.ConclusionsPatient-specific computer simulation of TAVR in BAV can be used to identify those patients where TAVR may be associated with unfavorable clinical outcomes. Patient-specific computer simulation may be useful to guide THV sizing and positioning for potential favorable clinical outcomes.     

Transcatheter Aortic Valve Replacement in Patients With Multivalvular Heart Disease

As transcatheter aortic valve replacement becomes a more dominant treatment option across all risk profiles, the frequency of encountering patients with multivalvular disease will increase. Furthermore, percutaneous interventions to treat other valvular lesions are also evolving. Understanding the clinical implications and treatment options for a second valvular lesion is becoming increasingly important to guide heart team decisions, and this paper aims to review the evidence around these situations. Diagnosis of multivalvular disease can be challenging because of changes in physiology. There are little randomized data to guide therapy in multivalvular disease. Multidisciplinary heart team decisions can be invaluable in integrating the plethora of clinical, hemodynamic, and imaging data on which an optimal management strategy can be planned. Prospective studies to assess the role of structural valve interventions in the transcatheter aortic valve replacement era would greatly help improve outcomes for structural heart patients.     

Repeat Transcatheter Aortic Valve Replacement for Transcatheter Prosthesis Dysfunction

BackgroundTranscatheter aortic valve replacement (TAVR) use is increasing in patients with longer life expectancy, yet robust data on the durability of transcatheter heart valves (THVs) are limited. Redo-TAVR may play a key strategy in treating patients in whom THVs fail.ObjectivesThe authors sought to examine outcomes following redo-TAVR.MethodsThe Redo-TAVR registry collected data on consecutive patients who underwent redo-TAVR at 37 centers. Patients were classified as probable TAVR failure or probable THV failure if they presented within or beyond 1 year of their index TAVR, respectively.ResultsAmong 63,876 TAVR procedures, 212 consecutive redo-TAVR procedures were identified (0.33%): 74 within and 138 beyond 1 year of the initial procedure. For these 2 groups, TAVR-to-redo-TAVR time was 68 (38 to 154) days and 5 (3 to 6) years. The indication for redo-TAVR was THV stenosis in 12 (16.2%) and 51 (37.0%) (p = 0.002) and regurgitation or combined stenosis–regurgitation in 62 (83.8%) and 86 (62.3%) (p = 0.028), respectively. Device success using VARC-2 criteria was achieved in 180 patients (85.1%); most failures were attributable to high residual gradients (14.1%) or regurgitation (8.9%). At 30-day and 1-year follow-up, residual gradients were 12.6 ± 7.5 mm Hg and 12.9 ± 9.0 mm Hg; valve area 1.63 ± 0.61 cm² and 1.51 ± 0.57 cm²; and regurgitation ≤mild in 91% and 91%, respectively. Peri-procedural complication rates were low (3 stroke [1.4%], 7 valve malposition [3.3%], 2 coronary obstruction [0.9%], 20 new permanent pacemaker [9.6%], no mortality), and symptomatic improvement was substantial. Survival at 30 days was 94.6% and 98.5% (p = 0.101) and 83.6% and 88.3% (p = 0.335) at 1 year for patients presenting with early and late valve dysfunction, respectively.ConclusionsRedo-TAVR is a relatively safe and effective option for selected patients with valve dysfunction after TAVR. These results are important for applicability of TAVR in patients with long life expectancy in whom THV durability may be a concern.     

Transcatheter Self-Expandable Valve Implantation for Aortic Stenosis in Small Aortic Annuli: The TAVI-SMALL Registry

ObjectivesThe aim of this study was to evaluate and compare the outcomes of transcatheter self-expandable prostheses in patients with small annuli.BackgroundTranscatheter aortic heart valves appear to have better performance than surgical valves in terms of prosthesis-patient mismatch, especially in patients with aortic stenosis with small aortic annuli.MethodsTAVI-SMALL (International Multicenter Registry to Evaluate the Performance of Self-Expandable Valves in Small Aortic Annuli) is a retrospective registry of patients with severe aortic stenosis and small annuli (annular perimeter <72 mm or area <400 mm² on computed tomography) treated with transcatheter self-expandable valves (n = 859; Evolut R, n = 397; Evolut PRO, n = 84; ACURATE, n = 201; Portico, n = 177). Primary endpoints were post-procedural mean aortic gradient, indexed effective orifice area, and rate of severe prosthesis-patient mismatch.ResultsPre-discharge gradients were consistently low in every group, with a slight benefit with the Evolut R (8.1 mm Hg; 95% confidence interval [CI]: 7.7 to 8.5 mm Hg) and Evolut PRO (6.9 mm Hg; 95% CI: 6.3 to 7.6 mm Hg) compared with the ACURATE (9.6 mm Hg; 95% CI: 8.9 to 10.2 mm Hg) and Portico (8.9 mm Hg; 95% CI: 8.2 to 9.6 mm Hg) groups (p < 0.001). Mean indexed effective orifice area was 1.04 cm²/m² (95% CI: 1.01 to 1.08 cm²/m²) with a trend toward lower values with the Portico. No significant differences were reported in terms of severe prosthesis-patient mismatch (overall rate 9.4%; p = 0.134), permanent pacemaker implantation (15.6%), and periprocedural and 1-year adverse events. Pre-discharge more than mild paravalvular leaks were significantly more common with the Portico (19.2%) and less common with the Evolut PRO (3.6%) compared with the Evolut R (11.8%) and ACURATE (9%) groups.ConclusionsTranscatheter self-expandable valves showed optimal clinical and echocardiographic results in patients with small aortic annuli, although supra-annular functioning transcatheter heart valves seemed to slightly outperform intra-annular functioning ones. The role of transcatheter aortic valve replacement with self-expandable valves for the treatment of aortic stenosis in patients with small annuli needs to be confirmed in larger trials.     

How to Define Durability of Transcatheter and Surgical Bioprosthetic Aortic Valves: Facts and Misconceptions

In the evolving scenario of transcatheter aortic valve replacement (TAVR), the topic of bioprosthetic valve durability is becoming increasingly important. Unfortunately, the definition of long-term durability of surgical and transcatheter bioprostheses has been inconsistent over time. Comparative studies of TAVR and surgical aortic valve replacement, or studies comparing TAVR devices, would benefit from the use of standardized definitions of valve durability. The definitions of structural valve deterioration and bioprosthetic valve failure developed by the European Association of Percutaneous Cardiovascular Interventions (EAPCI) have been endorsed by both the European Society of Cardiology (ESC) and the European Association for Cardio-Thoracic Surgery (EACTS) and embraced by many investigators worldwide. In this viewpoint, the authors discuss the strengths and limitations of such approach, which is intended to balance the need for accuracy and simplicity in reporting of long-term durability.     

Transcatheter Aortic Valve Replacement With Balloon-Expandable Valves: Comparison of SAPIEN 3 Ultra Versus SAPIEN 3

ObjectivesThe aim of this study was to compare outcomes after transcatheter aortic valve replacement (TAVR) with the SAPIEN 3 Ultra (Ultra) and SAPIEN 3 (S3) transcatheter heart valves (THVs).BackgroundThe latest generation balloon-expandable Ultra THV incorporates new technical features and might improve outcomes following TAVR.MethodsThis registry included all consecutive patients who underwent TAVR with either the Ultra or S3 between January 2014 and January 2020. One-to-one propensity score matching was performed to account for differences in baseline characteristics. In-hospital and 30-day Valve Academic Research Consortium-2–defined outcomes were investigated.ResultsA total of 310 patients (n = 155 Ultra, n = 155 S3) were included. There were no significant differences in baseline characteristics after propensity score matching. Procedures were significantly more often performed under conscious sedation with Ultra compared with S3 (97.4% vs. 71.6%; p < 0.001). Pre-dilatation was more frequent with S3 compared with Ultra (85.2% vs. 42.6%; p < 0.001). In-hospital outcomes, including device success (91.6% vs. 95.5%; p = 0.165), major vascular complications (12.3% vs. 11.0%; p = 0.723), and new pacemaker implantation (5.8% vs. 4.5%; p = 0.608), were comparable between S3 and Ultra patients, respectively. Post-procedural mean transprosthetic gradients (13.2 ± 5.7 mm Hg vs. 13.1 ± 4.7 mm Hg; p = 0.829) and rate of moderate or greater paravalvular leakage (PVL) (1.3% vs. 2.7%; p = 0.414) were comparable, whereas mild PVL was more frequent with S3 compared with Ultra (43.0% vs. 18.7%; p < 0.001).ConclusionsDevice success rates were high with both balloon-expandable THVs, with overall low rates of adverse events up to 30 days after TAVR. Despite a lower frequency of pre-dilatation, significant reduction of mild PVL confirms improved annular sealing properties of the novel Ultra THV.