Comparison of a novel self-expanding transcatheter heart valve with two established devices for treatment of degenerated surgical aortic bioprostheses

AIMS

This study was performed to compare haemodynamic properties of a novel transcatheter heart valve (THV) with two established valve technologies for treatment of failing surgical aortic bioprosthetic valves (SAV). The ALLEGRA THV has been recently described with a proven safety and performance profile.

METHODS AND RESULTS

The study was designed as a retrospective, single-centre study investigating 112 patients (77.7 ± 7.1 years, 53.8% female, STS score 6.8 ± 5.8% and logEuroSCORE I 27.4 ± 16.1%) with failing SAV. Patients were treated with the ALLEGRA THV (NVT, n = 24), the CoreValve/EvolutR (MTD, n = 64) or the Edwards Sapien/Sapien XT/Sapien 3 (EDW, n = 24). Adverse events, haemodynamic outcomes and patient safety were analysed according to VARC-3 definitions. Overall procedural success was high (94.6%), even though 58.9% of the treated SAV were classified as small (true inner diameter < 21 mm). After treatment, the mean pressure gradient was significantly reduced (baseline: 33.7 ± 16.5 mmHg, discharge: 18.0 ± 7.1 mmHg), with a corresponding increase in effective orifice area (EOA). The complication rates did not differ in between groups. There was a trend to lower mean transvalvular gradients after implantation of self-expanding THV with supra-annular valve function, despite a higher frequency of smaller SAVs in the NVT and MTD group. Additionally, comparison between NVT and MTD revealed statistically lower transvalvular gradients (NVT 14.9 ± 5.0 mmHg, MTD 18.7 ± 7.5 mmHg, p = 0.0295) in a subgroup analysis.

CONCLUSIONS

Valve-in-valve (ViV) treatment of failing SAV with supra-annular design like the ALLEGRA THV resulted in favourable haemodynamic outcomes with similar low clinical event rates and may therefore be an interesting alternative for VIV TAVI.

Redo Transcatheter Aortic Valve Implantation with the ALLEGRA Transcatheter Heart Valve: Insights from Bench Testing

PURPOSE

Failure of transcatheter heart valves (THV) may potentially be treated with repeat transcatheter aortic valve implantation (redo TAVI). We assessed hydrodynamic performance, stability and pinwheeling utilizing the ALLEGRA (New Valve Technology, Hechingen, Germany) THV, a CE approved and marketed THV in Europe, inside different THVs.

METHODS

Redo TAVI was simulated with the 27 mm ALLEGRA THV at three implantation depths (-4 mm, 0 mm and +4 mm) in seven different 'failed' THVs: 26 mm Evolut Pro, 25 mm Lotus, 25 mm JenaValve, 25 mm Portico, 23 mm Sapien 3, 27 mm ALLEGRA and M ACURATE neo. Hydrodynamic evaluation was performed according to International Standards Organization 5840-3:2021.

RESULTS

The ALLEGRA THV was stable with acceptable performance (gradient <20 mmHg, effective orifice area >2 cm², and regurgitant fraction <20%) in all 'failed' THVs except the Evolut Pro at -4 mm implantation depth. In this configuration, the outflow of the ALLEGRA frame was constrained by the Evolut Pro THV and the ALLEGRA leaflets were unable to fully close. Pinwheeling was severe for the ALLEGRA in Evolut Pro. The neo-skirt was higher with taller frame THVs.

CONCLUSION

The ALLEGRA THV had favorable hydrodynamic performance, stability and pinwheeling in all redo TAVI samples except the Evolut Pro at low implantation depth with compromised function. The choice of initial THV may have late implications on new THV choice and function.

Transcatheter aortic valve with a novel self-expandable device in patients with previous mechanical mitral valve prosthesis

OBJECTIVES

The aim of this study was to describe the procedural and early outcomes of patients with mechanical mitral valve prosthesis (MVP) undergoing transcatheter aortic valve replacement (TAVR) with a novel self-expandable retrievable device.

BACKGROUND

TAVR in patients with prior MVP may have an increased risk of complications related to device positioning and interference between both prosthetic valves.

METHODS

An observational study was conducted, including eight patients with severe symptomatic aortic stenosis and prior mechanical MVP who underwent TAVR with the novel device Allegra^TM (Biosensors). No transesophageal monitoring was used.

RESULTS

The mean age of the study population was 75 years. The mean distance between MVP and aortic annulus was 3.8 mm. Procedural success was achieved in all patients with no major intraprocedural, in-hospital, or follow-up complications.

CONCLUSIONS

TAVR with Allegra TAVI system in patients with prior MVP offers good procedural and clinical outcomes.

Transcatheter aortic valve implantation with Allegra: procedural and mid-term outcomes according to experience phase in a high-volume center

BACKGROUND

Transcatheter aortic valve implantation (TAVI) has revolutionized the management of aortic stenosis. We aimed at appraising effectiveness of a new self-expandable TAVI device.

METHODS

We retrospectively analyzed our institutional experience with Allegra (Biosensors, Morges, Switzerland) for TAVI, focusing on procedural outcomes and 1-month adverse events. We explored the impact of operator experience with this device, dividing patients according to their time of intervention.

RESULTS

Between 2018 and 2021, a total of 50 patients underwent TAVI with Allegra, with average age of 81 years, 80% women, and 50% at low or intermediate surgical risk. No major significant difference in baseline patient features were found when comparing Phase 1 and Phase 2, except for baseline left ventricular ejection fraction and New York Heart Association, which were worse in Phase 1. All procedures were performed transfemorally and percutaneously, with predilation in 94% and postdilation in 36%, yielding device success in 98%, and procedural success in 96%. No significant differences in procedural features were found when comparing Phase 1 vs. Phase 2 (all P>0.05). One-month follow-up was also favorable, with no significant difference in adverse outcomes according to phase, and a total of 1 (4%) death, 1 (4%) myocardial infarction, 1 (4%) minor vascular complication, and 4 (8%) permanent pacemaker implantations. Consistent findings were obtained at exploratory 6-month follow-up.

CONCLUSIONS

The Allegra TAVI device is associated with favorable short-to-midterm outcomes in experienced hands. Operators already proficient with other devices can achieve satisfactory results even in the early phase of adoption of Allegra.

Evolving Devices and Material in Transcatheter Aortic Valve Replacement: What to Use and for Whom

Transcatheter aortic valve replacement (TAVR) has revolutionized the treatment of aortic stenosis, providing a viable alternative to surgical aortic valve replacement (SAVR) for patients deemed to be at prohibitive surgical risk, but also for selected patients at intermediate or low surgical risk. Nonetheless, there still exist uncertainties regarding the optimal management of patients undergoing TAVR. The selection of the optimal bioprosthetic valve for each patient represents one of the most challenging dilemmas for clinicians, given the large number of currently available devices. Limited follow-up data from landmark clinical trials comparing TAVR with SAVR, coupled with the typically elderly and frail population of patients undergoing TAVR, has led to inconclusive data on valve durability. Recommendations about the use of one device over another in given each patient’s clinical and procedural characteristics are largely based on expert consensus. This review aims to evaluate the available evidence on the performance of different devices in the presence of specific clinical and anatomic features, with a focus on patient, procedural, and device features that have demonstrated a relevant impact on the risk of poor hemodynamic valve performance and adverse clinical events.

Self-expandable transcatheter heart valves for aortic stenosis. Short-term outcome and matched hemodynamic performance

INTRODUCTION AND OBJECTIVES

Aortic self-expandable (SE) transcatheter aortic valve implantation (TAVI) devices are particularly useful for patients with aortic stenosis and small/tortuous vessels, small aortic annuli, or low coronary ostia. However, it is unclear whether the growing range of SE devices shows comparable hemodynamic and clinical outcomes. We aimed to determine the differential hemodynamic (residual valve area and regurgitation) and clinical outcomes of these devices in comparable scenarios.

METHODS

All patients were enrolled from 4 institutions and were managed with 4 different SE TAVI devices. Baseline and follow-up clinical data were collected and echocardiographic tests blindly and centrally analyzed. Patients were compared according to valve type and a 1:1 matched comparison was performed according to degree of calcification, aortic annulus dimensions, left ventricular ejection fraction, and body surface area.

RESULTS

In total, 514 patients were included (Evolut R/PRO, 217; ACURATE neo, 107; ALLEGRA, 102; Portico, 88). Surgical risk scores were comparable in the unmatched population. No differences were observed in the post-TAVI regurgitation rate and in in-hospital mortality (2.7%). The rate of pacemaker implantation at discharge was significantly different among devices (P=.049), with Portico showing the highest rate (23%) and ACURATE neo the lowest (9.5%); Evolut R/PRO and ALLEGRA had rates of 15.9% and 21.2%, respectively. The adjusted comparison showed worse residual TAVI gradients and aortic valve area with ACURATE neo vs ALLEGRA (P=.001) but the latter had higher risk of valve embolization and a tendency for more cerebrovascular events.

CONCLUSIONS

A matched comparison of 4 SE TAVI devices showed no differences regarding residual aortic regurgitation and in-hospital mortality.

Novel self-expanding ALLEGRA transcatheter aortic valve for native aortic stenosis and degenerated bioprosthesis

OBJECTIVES

To investigate the safety and efficacy of the ALLEGRA valve in routine use.

BACKGROUND

The ALLEGRA aortic valve is a self-expanding transcatheter heart valve (THV) with bovine pericardial tissue and was CE approved in March 2017. Its unique design was developed to provide low prosthesis gradients.

METHODS

We analyzed patients receiving an ALLEGRA THV between May 2017 and March 2021 at our center for treatment of aortic valve stenosis or degenerated valve prosthesis. Hemodynamic results and clinical outcome according to the Valve Academic Research Consortium-2 consensus criteria were evaluated at discharge and three months post transcatheter aortic valve replacement (TAVR) procedure. 93 patients with a mean age of 82.5 ± 4.8 years and a median EuroScore II of 4.7 ± 3.4 were treated, 15 of them were valve-in-valve procedures.

RESULTS

Implantation was successful in 97.8% (91/93) and VARC-2 defined device success was achieved in 94.6% (88/93). In-hospital all-cause mortality was 2.2% (2/93). Life-threatening bleeding, major vascular complications and strokes were 3.2% (3/93), 2.2% (2/93) and 3.2% (3/93), respectively. Paravalvular leakage was none to trace in 60.4%, mild in 38.5% and moderate in 1.1%. Permanent pacemaker implantation in pacemaker naive patients was necessary in 9.5% (8/84). Mean gradient at discharge was 8.2 ± 4.3 mmHg for all patients; 7.1 ± 2.6 mmHg in patients treated for stenosis of the native aortic valve and 13.8 ± 6.3 mmHg in patients treated valve-in-valve.

CONCLUSIONS

The ALLEGRA THV provides excellent hemodynamic results and a good safety profile with a low complication rate.

Transcatheter Aortic Valve Replacement: Advances in Procedural Technology and Approaches

Transcatheter aortic valve replacement (TAVR) is now the dominant form of aortic valve replacement in the United States. Continued innovation has allowed the technique to be safe and democratized. New advances will increase the number of patients eligible to receive this therapy while increasing safety and efficiency. Herein, the authors review new TAVR technologies, approaches to valve deployment, and dedicated devices for cerebral embolic protection and vascular closure.

The Allegra transcatheter heart valve: Short term results from a multicenter registry

OBJECTIVES

We aimed to determine the safety and efficacy of the Allegra transcatheter heart valve (THV) for the treatment of severe aortic valve stenosis in a large patient population treated under real-world conditions.

BACKGROUND

The Allegra is a novel self-expanding THV with supra-annular bovine leaflets. The valve is available in three different sizes (23, 27, and 31 mm), all are delivered through an 18F sheath.

METHODS

Consecutive patients undergoing TAVR with the Allegra THV were enrolled in a multicenter-registry. Data were collected throughout initial hospital-stay and at 30-day follow-up. Clinical endpoints were defined according to the updated definitions of the Valve-Academic-Research-Consortium.

RESULTS

This registry included 255 patients (mean age 83 ± 6 years, 48% women) from four European centers. Median European System for Cardiac Operative Risk Evaluation II score (EuroSCORE II) was 3.3% (IQR 1.9-5.8%). Acute device success was 95.7%. The remaining 11 patients had either moderate paravalvular regurgitation immediately after the procedure (7 patients) or the device could not be optimal positioned requiring implantation of a second THV (4 patients). Major vascular complications and major/life-threatening bleedings occurred in 10 (3.9%) and 12 (4.7%) patients, respectively. At 30 day follow-up, mean effective orifice area was 2.2 ± 0.5 cm² , mean gradient was 6.9 ± 3.8 mmHg, 7 (3.3%) patients had more than mild paravalvular leakage, 3 patients (1.2%) had died, 6 patients (2.4%) had a stroke and 30 (12.8%) patients had required implantation of a new permanent pacemaker.

CONCLUSIONS

Transfemoral implantation of the Allegra THV resulted in favorable clinical and echocardiographic outcomes during hospitalization and short-term follow up.

Transcatheter aortic valve implantation for degenerated aortic valves: Experience with a new supra-annular device. The Spanish Allegra valve-in-valve (SAVIV) registry

OBJECTIVES

The objective was to evaluate the results of valve-in-valve procedures performed with the Allegra device.

BACKGROUND

Transcatheter aortic valve implantation to treat degenerated biological aortic valves (valve-in-valve) is an established procedure in most catheterization laboratories, but the results are poorer than procedures done in native aortic stenosis. The Allegra device (Biosensors, Morges, Switzerland) has an excellent design to treat these patients.

METHODS

All patients with severely degenerated biological aortic valve treated with the Allegra device in centers from Spain until December 2020 were included (n = 29). Hemodynamic results and 30-day clinical outcomes were evaluated. The predominant hemodynamic failure was stenosis in 15, regurgitation in 11, and a combination of both in 3 cases. Time from aortic valve replacement to valve-in-valve procedure was 8.4 ± 3.9 years (range 3.3-22.1).

RESULTS

After the procedure, maximum and mean trans-valvular gradients were 17.4 ± 12.3 and 8.4 ± 6.1 mmHg, respectively. Device success was obtained in 28 patients (96.6%). In one patient with a degenerated 19 mm prosthetic valve, mean gradient after the procedure was 22 mmHg. No patients had a para-valvular leak grade >1. There were no deaths during the hospitalization or at 30 days and one patient suffered a stroke.

CONCLUSIONS

The Allegra trans-catheter aortic valve offers optimal hemodynamic results in patients with severely degenerated biological aortic valve.

ACURATE neo: How Is This TAVR Valve Doing to Fit into an Increasingly Crowded Field?

Purpose of Review

Critical appraisal of the available evidence on the self-expanding ACURATE neo transcatheter heart valve (THV) for the treatment of aortic valve disease.

Recent Findings

In an investigator-initiated, multicenter, randomized non-inferiority trial with broad inclusion criteria, ACURATE neo failed to meet non-inferiority compared with SAPIEN 3 with regard to a primary composite safety and efficacy endpoint at 30 days. The difference was driven by higher rates of moderate or severe paravalvular regurgitation and higher rates of acute kidney injury. In turn, registry data suggest that the safety and efficacy profile of the ACURATE neo is comparable to that of other commercially available devices. Randomized evidence indicated favorable hemodynamic results with large effective orifice areas and low residual gradients.

Summary

The self-expanding ACURATE neo THV is associated with higher rates of residual aortic regurgitation compared to the balloon-expandable SAPIEN 3 THV. The supra-annular design with low residual gradients may be advantageous in patients with small anatomy and mild degree of calcification.