Impact of Right Ventricular Pacing in Patients With TAVR Undergoing Permanent Pacemaker Implantation

2025 Heart Disease and Stroke Statistics: A Report of US and Global Data From the American Heart Association

BACKGROUND

The American Heart Association (AHA), in conjunction with the National Institutes of Health, annually reports the most up-to-date statistics related to heart disease, stroke, and cardiovascular risk factors, including core health behaviors (smoking, physical activity, nutrition, sleep, and obesity) and health factors (cholesterol, blood pressure, glucose control, and metabolic syndrome) that contribute to cardiovascular health. The AHA Heart Disease and Stroke Statistical Update presents the latest data on a range of major clinical heart and circulatory disease conditions (including stroke, brain health, complications of pregnancy, kidney disease, congenital heart disease, rhythm disorders, sudden cardiac arrest, subclinical atherosclerosis, coronary heart disease, cardiomyopathy, heart failure, valvular disease, venous thromboembolism, and peripheral artery disease) and the associated outcomes (including quality of care, procedures, and economic costs).

METHODS

The AHA, through its Epidemiology and Prevention Statistics Committee, continuously monitors and evaluates sources of data on heart disease and stroke in the United States and globally to provide the most current information available in the annual Statistical Update with review of published literature through the year before writing. The 2025 AHA Statistical Update is the product of a full year's worth of effort in 2024 by dedicated volunteer clinicians and scientists, committed government professionals, and AHA staff members. This year's edition includes a continued focus on health equity across several key domains and enhanced global data that reflect improved methods and incorporation of ≈3000 new data sources since last year's Statistical Update.

RESULTS

Each of the chapters in the Statistical Update focuses on a different topic related to heart disease and stroke statistics.

CONCLUSIONS

The Statistical Update represents a critical resource for the lay public, policymakers, media professionals, clinicians, health care administrators, researchers, health advocates, and others seeking the best available data on these factors and conditions.

Influence of Prosthesis Position on Pacing Burden and Long-Term Survival in TAVI Patients with New Pacemaker

Objectives: The aim of this study was to evaluate the influence of three-dimensional transcatheter heart valve (THV) position on mid-term pacing burdens and to examine the effect of stimulation rates on survival after transcatheter aortic valve implantation (TAVI). Methods: In patients receiving a new PPM before discharge after TAVI, we analyzed the final three-dimensional THV position in 107 patients (78 with Sapien S3 THV and 29 with Evolut R THV) using fusion imaging from pre- and post-TAVI computed tomography angiography. The PPM stimulation rates were examined pre-discharge and after 3 months. Patient survival was tracked over a period of 5 years. Results: A high pacing burden (stimulation rate of >20%) was observed in 69% of patients before discharge and in 67% after three months. One-third of the patients with an initial low pacing burden developed a high pacing burden after 3 months. The implantation depth did not differ between patients with or without a high pacing burden at discharge (p = 0.550) or after 3 months (p = 0.901). The three-dimensional THV position showed no influence on the pacing burden pre-discharge (p = 0.550) and after 3 months (0.901). There were no significant differences in survival, regardless of the pacing burden pre-discharge and after 3 months (log-rank p = 0.676). Conclusions: Three-dimensional THV position did not predict a high pacing burden after TAVI. Pacing burden was not associated with survival. One-third of patients experienced an increase to a high pacing burden within 3 months, suggesting potential long-term conduction system damage after TAVI.

Platform Selection for Patients Undergoing Transcatheter Aortic Valve Replacement: A Practical Approach

Transfemoral transcatheter aortic valve Replacement (TAVR) has become the standard therapy for patients with severe aortic stenosis in patients over 75 years old in Europe or 65 years old in the United States, regardless of the surgical risk. Furthermore, iterations of existing transcatheter aortic valves (TAVs), as well as devices with novel concepts, have provided substantial improvements with respect to the limitations of previous-generation devices. Hence, treatment of a broader spectrum of patients has become feasible, and a sophisticated selection of the appropriate TAV tailored to patients' anatomy and comorbidities is now possible. Anatomy, patient characteristics, and operator experience must all inform proper device selection. This review describes the features and performance of the current generation of TAVs with the aim of providing a practical approach for clinicians when selecting the appropriate TAV for a specific patient.

Conduction Disturbances After Transcatheter Aortic Valve Replacement: An Update on Epidemiology, Preventive Strategies, and Management

Conduction disturbances (CDs) are common after transcatheter aortic valve replacement. Continuous improvements in preprocedural planification, implant techniques, and device design have markedly reduced periprocedural complications. However, CDs rate remains in the double-digit range. Because CDs after TAVR are associated with poorer outcomes, seeking a reduction in their occurrence is paramount. Several nonmodifiable and modifiable factors are associated with an increased risk of CDs. Previous right bundle branch block has been shown to have a strong association with pacemaker implant after TAVR. Among the modifiable factors, a lower implantation depth seems to be associated with a higher risk of CDs, and several implant strategies aiming to obtain a higher implant depth have shown promising results. This literature review provides a detailed description of updated evidence about the epidemiology, impact, and preventive and management strategies of CDs after TAVR. Also, based on these updated data, a fast-track protocol CDs management is proposed.

Prophylactic Permanent Pacemaker Implantation for Baseline Right Bundle Branch Block in Patients Undergoing Transcatheter Aortic Valve Replacement: Clinical Efficacy, Safety, and Long-Term Pacing Requirement

Background

Baseline right bundle branch block (RBBB) is an established predictor of permanent pacemaker (PPM) requirement after transcatheter aortic valve replacement (TAVR). There are limited data to support prophylactic PPM implantation in advance of TAVR. We aimed to evaluate the efficacy and safety of prophylactic PPM implantation in patients with RBBB prior to TAVR, and to identify the predictors of pacing dependence after TAVR.

Methods

This was a retrospective cohort study of patients undergoing prophylactic PPM implantation for baseline RBBB prior to TAVR at two high-volume UK centers between 2014 and 2022.

Results

Baseline RBBB was identified in 170/4580 (3.7%) patients undergoing TAVR during the study period. Of these, 106/170 (62.4%) underwent prophylactic PPM implantation. This group had a significantly shorter median length of hospital stay after TAVR compared to patients with RBBB undergoing TAVR without prophylactic PPM implantation (2 vs. 4 days, p = 0.028). Urgent PPM implantation after TAVR was required in 43/64 (67.2%) of patients with RBBB who underwent TAVR without a prophylactic PPM. Analysis of ventricular pacing over 12 months post-TAVR demonstrated a significant pacing requirement (ventricular pacing > 10%) in 50/79 (63%) of patients with a prophylactic PPM. Pacing requirement was independently predicted by baseline first-degree heart block (odds ratio 2.4, p = 0.03) and QRS duration >140 ​ms (odds ratio 4.3, p = 0.01).

Conclusions

In this retrospective two-center cohort study, prophylactic PPM implantation for patients with baseline RBBB was safe, effective, and reduced the length of hospital stay. First-degree atrioventricular block and broad RBBB (QRS > 140 ​ms) were independent baseline predictors of significant pacing requirements.

Echocardiographic and clinical features of patients developing prosthesis-patient mismatch after transcatheter aortic valve replacement: Insights from the Recovery-TAVR registry

BACKGROUND

The impact of prosthesis-patient mismatch (PPM) on major endpoints after transcatheter aortic valve replacement (TAVR) is controversial and the effects on progression of heart damage are poorly investigated. Therefore, our study aims to evaluate the prevalence and predictors of PPM in a "real world" cohort of patients at intermediate and low surgical risk, its impact on mortality and the clinical-echocardiographic progression of heart damage.

METHODS

963 patients who underwent TAVR procedure between 2017 and 2021, from the RECOVERY-TAVR international multicenter observational registry, were included in this analysis. Multiparametric echocardiographic data of these patients were analyzed at 1-year follow-up (FU). Clinical and echocardiographic features were stratified by presence of PPM and PPM severity, as per the most current international recommendations, using VARC-3 criteria.

RESULTS

18% of patients developed post-TAVR. PPM, and 7.7% of the whole cohort had severe PPM. At baseline, 50.3% of patients with PPM were male (vs 46.2% in the cohort without PPM, P = .33), aged 82 (IQR 79-85y) years vs 82 (IQR 78-86 P = .46), and 55.6% had Balloon-Expandable valves implanted (vs 46.8% of patients without PPM, P = .04); they had smaller left ventricular outflow tract (LVOT) diameter (20 mm, IQR 19-21 vs 20 mm, IQR 20-22, P = .02), reduced SVi (34.2 vs 38 mL/m2, P < .01) and transaortic flow rate (190.6 vs 211 mL/s, P < .01). At predischarge FU patients with PPM had more paravalvular aortic regurgitation (moderate-severe AR 15.8% vs 9.2%, P < .01). At 1-year FU, maladaptive alterations of left ventricular parameters were found in patients with PPM, with a significant increase in end-systolic diameter (33 mm vs 28 mm, P = .03) and a significant increase in left ventricle end systolic indexed volume in those with moderate and severe PPM (52 IQR 42-64 and 52, IQR 41-64 vs 44 IQR 35-59 in those without, P = .02)). No evidence of a significant impact of PPM on overall (P = .71) and CV (P = .70) mortality was observed. Patients with moderate/severe PPM had worse NYHA functional class at 1 year (NYHA III-IV 13% vs 7.8%, P = .03). Prosthesis size≤23 mm (OR 11.6, 1.68-80.1) was an independent predictor of PPM, while SVi (OR 0.87, 0.83-0.91, P < .001) and LVOT diameter (OR 0.79, 0.65-0.95, P = .01) had protective effect.

CONCLUSIONS

PPM was observed in 18% of patients undergoing TAVR. Echocardiographic evaluations demonstrated a PPM-related pattern of early ventricular maladaptive alterations, possibly precursor to a reduction in cardiac function, associated with a significant deterioration in NYHA class at 1 year. These findings emphasize the importance of prevention of PPM of any grade in patients undergoing TAVR procedure, especially in populations at risk.

Anatomical Annulus Predictors of New Permanent Pacemaker Implantation Risk After Balloon-Expandable Transcatheter Aortic Valve Implantation

New-generation transcatheter heart valves have significantly improved technical success and procedural safety of transcatheter aortic valve implantation (TAVI) procedures; however, the incidence of permanent pacemaker implantation (PPI) remains a concern. This study aimed to assess the role of anatomic annulus features in determining periprocedural conduction disturbances leading to new PPI after TAVI using the last-generation Edwards SAPIEN balloon-expandable valves. In the context of a prospective single-center registry, we integrated the clinical and procedural predictors of PPI with anatomic data derived from multislice computed tomography. A total of 210 consecutive patients treated with balloon-expandable Edwards transcatheter heart valve were included in the study from 2015 to 2023. Technical success was achieved in 197 procedures (93.8%), and 26 patients (12.4%) required new PPI at the 30-day follow-up (median time to implantation 3 days). At the univariable logistic regression analysis, preprocedural right bundle branch block (odds ratio [OR] 2.24, 95% confidence interval [CI] 1.01 to 4.97, p = 0.047), annulus eccentricity ≥0.25 (OR 5.43, 95% CI 2.21 to 13.36, p <0.001), calcium volume at annulus of the right coronary cusp >48 mm3 (OR 2.60, 95% CI 1.13 to 5.96, p = 0.024), and prosthesis implantation depth greater than membranous septum length (OR 2.17, 95% CI 1.10 to 4.28, p = 0.026) were associated with new PPI risk. In the multivariable analysis, preprocedural right bundle branch block (OR 2.81, 95% CI 1.01 to 7.85, p = 0.049), annulus eccentricity ≥0.25 (OR 4.14, 95% CI 1.85 to 9.27, p <0.001), and annulusright coronary cusp calcium >48 mm3 (OR 2.89, 95% CI 1.07 to 7.82, p = 0.037) were confirmed as independent predictors of new PPI. In conclusion, specific anatomic features of the aortic valve annulus might have an additive role in determining the occurrence of conduction disturbances in patients who underwent TAVI with balloon-expandable valves. This suggests the possibility to use multislice computed tomography to improve the prediction of post-TAVI new PPI risk.

Transcatheter Aortic Valve Replacement in Low Surgical Risk Patients: An Updated Metanalysis of Extended Follow-Up Randomized Controlled Trials

The long-term safety and effectiveness of transcatheter aortic valve replacement (TAVR) compared with surgical aortic valve replacement (SAVR) in low surgical risk has not been evaluated in a pooled analysis. An electronic database search was conducted for randomized controlled trials with a maximal 5 years clinical and echocardiographic follow-up including low surgical risk patients who underwent TAVR or SAVR. We calculated odds ratio (OR) and 95% confidence intervals (CIs) using a random-effects model. Subgroups analysis was performed for permanent pacemaker implantation and paravalvular leaks. Three randomized controlled trials were included with a total of 2,611 low surgical risk patients (Society of Thoracic Surgeons score <4%). Compared with SAVR, the TAVR group had similar rates of all-cause mortality (OR 0.94,95% CI 0.65 to 1.37, p = 0.75) and disabling stroke (OR 0.84, 95% CI 0.52 to 1.36, p = 0.48). No significant differences were registered in the TAVR group in terms of major cardiovascular events (OR 0.96, 95% CI 0.67 to 1.38, p = 0.83), myocardial infarction (OR 0.69, 95% CI 0.34 to 1.40, p = 0.31), valve thrombosis (OR 3.11, 95% CI 0.29 to 33.47, p = 0.35), endocarditis (OR 0.71,95% CI 0.35 to 1.48, p = 0.36), aortic valve reintervention (OR 0.93, 95% CI 0.52 to 1.66, p = 0.80), and rehospitalization (OR 0.80, 95% CI 0.52 to 1.02, p = 0.07) compared with SAVR. However, TAVR patients had a higher risk of paravalvular leaks (OR 8.21, 95% CI 4.18 to 16.14, p <0.00001), but lower rates of new-onset atrial fibrillation (OR 0.27,95% CI 0.17 to 0.30, p <0.0001). The rates of permanent pacemaker implantation were comparable from 1 year up to a maximum of 5 years (OR 1.32, 95% CI 0.88 to 1.97, p = 0.18). Lastly, TAVR had a greater effective orifice area (0.10 cm2/m2, 95% CI 0.05 to 0.15, p = 0.0001), but similar transvalvular mean gradients (0.60, 95% CI 3.94 to 2.73, p = 0.72). In conclusion, TAVR patients had similar long-term outcomes compared with SAVR, except for an elevated risk of paravalvular leaks in the TAVR group and increased rates of atrial fibrillation in the SAVR cohort.

A novel balloon-expandable transcatheter aortic valve bioprosthesis: Myval and Myval Octacor

INTRODUCTION

Over the past two decades, transcatheter aortic valve replacement (TAVR) has expanded its application across all surgical risk levels, including low-risk patients, where, due to longer life expectancy, reducing common pitfalls of TAVR is essential. To address these needs, many technological advancements have been developed. Myval and the new generation Myval Octacor (Meril Life Sciences Pvt. Ltd) are novel balloon-expandable (BE) transcatheter heart valve (THV) systems designed for the treatment of severe aortic stenosis.

AREAS COVERED

This review aims to illustrate the design features of these novel THVs and the main evidence from available studies. Furthermore, we provide evidence of these THVs' performance in challenging scenarios such as extra-large aortic annuli, bicuspid aortic valves, and valve-in-valve/valve-in-ring procedures.

EXPERT OPINION

Myval and Myval Octacor have demonstrated comparable early safety and clinical efficacy to the leading contemporary THVs, exhibiting remarkably low rates of moderate to severe paravalvular leak (PVL) and permanent pacemaker implantation (PPI). The wide range of sizes offered by the Myval family may minimize the risk of under-/oversizing, potentially explaining the lower rates of the aforementioned phenomena. Moreover, the presence of both internal skirt and external reinforced cuff may also explain the low rate of moderate to severe PVL.

Predictors and 5-Year Clinical Outcomes of Pacemaker After TAVR: Analysis From the PARTNER 2 SAPIEN 3 Registries

BACKGROUND

Conduction disturbances requiring a permanent pacemaker (PPM) are a frequent complication of transcatheter aortic valve replacement (TAVR) with few reports of rates, predictors, and long-term clinical outcomes following implantation of the third-generation, balloon-expandable SAPIEN 3 (S3) transcatheter heart valve (THV).

OBJECTIVES

The aim of this study was to investigate the rates, predictors, and long-term clinical outcomes of PPM implantation following TAVR with the S3 THV.

METHODS

The current study included 857 patients in the PARTNER 2 S3 registries with intermediate and high surgical risk without prior PPM, and investigated predictors and 5-year clinical outcomes of new PPM implanted within 30 days of TAVR.

RESULTS

Among 857 patients, 107 patients (12.5%) received a new PPM within 30 days after TAVR. By multivariable analysis, predictors of PPM included increased age, pre-existing right bundle branch block, larger THV size, greater THV oversizing, moderate or severe annulus calcification, and implantation depth >6 mm. At 5 years (median follow-up 1,682.0 days [min 2.0 days, max 2,283.0 days]), new PPM was not associated with increased rates of all-cause mortality (Adj HR: 1.20; 95% CI: 0.85-1.70; P = 0.30) or repeat hospitalization (Adj HR: 1.22; 95% CI: 0.67-2.21; P = 0.52). Patients with new PPM had a decline in left ventricular ejection fraction at 1 year that persisted at 5 years (55.1 ± 2.55 vs 60.4 ± 0.65; P = 0.02).

CONCLUSIONS

PPM was required in 12.5% of patients without prior PPM who underwent TAVR with a SAPIEN 3 valve in the PARTNER 2 S3 registries and was not associated with worse clinical outcomes, including mortality, at 5 years. Modifiable factors that may reduce the PPM rate include bioprosthetic valve oversizing, prosthesis size, and implantation depth.

Left bundle branch area versus conventional pacing after transcatheter valve implant for aortic stenosis: the LATVIA study

BACKGROUND

Atrioventricular block (AVB) is a frequent complication in patients undergoing transcatheter aortic valve implantation (TAVI). Right apex ventricular pacing (RVP) represents the standard treatment but may induce cardiomyopathy over the long term. Left bundle branch area pacing (LBBAP) is a promising alternative, minimizing the risk of desynchrony. However, available evidence with LBBAP after TAVI is still low.

OBJECTIVE

To assess the feasibility and safety of LBBAP for AVB post-TAVI compared with RVP.

METHODS

Consecutive patients developing AVB early after TAVI were enrolled between 1 January 2022 and 31 December 2022 at three high-volume hospitals and received LBBAP or RVP. Data on procedure and at short-term follow-up (at least 3 months) were collected.

RESULTS

A total of 38 patients (61% men, mean age 83 ± 6 years) were included; 20 patients (53%) received LBBAP. Procedural success was obtained in all patients according to chosen pacing strategy. Electrical pacing performance at implant and after a mean follow-up of 4.2 ± 2.8 months was clinically equivalent for both pacing modalities. In the LBBAP group, procedural time was longer (70 ± 17 versus 58 ± 15 min in the RVP group, P  = 0.02) and paced QRS was shorter (120 ± 19 versus 155 ± 12 ms at implant, P  < 0.001; 119 ± 18 versus 157 ± 9 ms at follow-up, P  < 0.001). Complication rates did not differ between the two groups.

CONCLUSION

In patients with AVB after TAVI, LBBAP is feasible and safe, resulting in a narrow QRS duration, either acutely and during the follow-up, compared with RVP. Further studies are needed to evaluate if LBBAP reduces pacing-induced cardiomyopathy in this clinical setting.

MICRA AV implantation after transcatheter aortic valve replacement

BACKGROUND

Transcatheter aortic valve replacement (TAVR) has evolved as a breakthrough therapy for patients with severe aortic valve stenosis. While TAVR has revolutionized the management of aortic valve disease, the procedure may be associated with the development of conduction disturbances requiring permanent pacemaker implantation. Traditionally, conventional transvenous pacemakers have been used to address these complications. However, the introduction of leadless pacemaker technology, such as the MICRA Transcatheter Pacing System (TPS), offers a novel alternative.

MATERIALS AND METHODS

This was a retrospective single-center study where all patients who underwent TAVR at our center and subsequently required permanent pacemaker implantation within 30 days were reviewed. We included only the patients who underwent leadless pacemaker placement. We then conducted a retrospective chart review to identify patient and procedural characteristics, procedural details, and relevant clinical outcomes.

RESULTS

A total of 9 patients were identified. All of the patients underwent MICRA AV placement within 30 days post-TAVR by an interventional cardiologist. The average age of the cohort was 79.6 years with an average STS score of 3.7 %. The majority of the patients received balloon-expandable valves (78 %). There were no procedural complications in any of the patients. At an average follow-up of 353 days, capture thresholds and lead impedance remained stable with an average RV pacing of 13 %.

CONCLUSION

This small, retrospective cohort demonstrates that the use of MICRA AV leadless pacemakers is feasible after TAVR and is associated with low periprocedural complications. Leadless pacemakers provide stable pacing thresholds and AV synchrony.

Pacemaker post transcatheter aortic valve replacement: A multifactorial risk?

Pacemaker post-transcatheter aortic valve replacement is related to multifactorial risk. Nwaedozie et al brought to the body of evidence electrocardiogram and clinical findings. However, procedural characteristics have at least as much impact on the final need for a permanent pacemaker and potentially on the pacing rate. In this regard, long-term follow-up and understanding of the impact of long-term stimulation is of utmost importance.

Predictors, clinical impact, and management strategies for conduction abnormalities after transcatheter aortic valve replacement: an updated review

Transcatheter aortic valve replacement (TAVR) has increasingly become a safe, feasible, and widely accepted alternative surgical treatment for patients with severe symptomatic aortic stenosis. However, the incidence of conduction abnormalities associated with TAVR, including left bundle branch block (LBBB) and high-degree atrioventricular block (HAVB), remains high and is often correlated with risk factors such as the severity of valvular calcification, preexisting conditions in patients, and procedural factors. The existing research results on the impact of post-TAVR conduction abnormalities and permanent pacemaker (PPM) requirements on prognosis, including all-cause mortality and rehospitalization, remain contradictory, with varied management strategies for post-TAVR conduction system diseases across different institutions. This review integrates the latest research in the field, offering a comprehensive discussion of the mechanisms, risk factors, consequences, and management of post-TAVR conduction abnormalities. This study provides insights into optimizing patient prognosis and explores the potential of novel strategies, such as conduction system pacing, to minimize the risk of adverse clinical outcomes.

The degree of permanent pacemaker dependence and clinical outcomes following transcatheter aortic valve implantation: implications for procedural technique

Aims

Conduction abnormalities necessitating permanent pacemaker (PPM) implantation remain the most frequent complication post-transcatheter aortic valve implantation (TAVI), yet reliance on PPM function varies. We evaluated the association of right-ventricular (RV)-stimulation rate post-TAVI with 1-year major adverse cardiovascular events (MACE) (all-cause mortality and heart failure hospitalization).

Methods and results

This retrospective cohort study of patients undergoing TAVI in two high-volume centers included patients with existing PPM pre-TAVI or new PPM post-TAVI. There was a bimodal distribution of RV-stimulation rates stratifying patients into two groups of either low [≤10%: 1.0 (0.0, 3.6)] or high [>10%: 96.0 (54.0, 99.9)] RV-stimulation rate post-TAVI. Hazard ratios (HR) and 95% confidence intervals (CI) were calculated comparing MACE in patients with high vs. low RV-stimulation rates post-TAVI. Of 4659 patients, 408 patients (8.6%) had an existing PPM pre-TAVI and 361 patients (7.7%) underwent PPM implantation post-TAVI. Mean age was 82.3 ± 8.1 years, 39% were women. A high RV-stimulation rate (>10%) development post-TAVI is associated with a two-fold increased risk for MACE [1.97 (1.20, 3.25), P = 0.008]. Valve implantation depth was an independent predictor of high RV-stimulation rate [odds ratio (95% CI): 1.58 (1.21, 2.06), P=<0.001] and itself associated with MACE [1.27 (1.00, 1.59), P = 0.047].

Conclusion

Greater RV-stimulation rates post-TAVI correlate with increased 1-year MACE in patients with new PPM post-TAVI or in those with existing PPM but low RV-stimulation rates pre-TAVI. A shallower valve implantation depth reduces the risk of greater RV-stimulation rates post-TAVI, correlating with improved patient outcomes. These data highlight the importance of a meticulous implant technique even in TAVI recipients with pre-existing PPMs.

Assessing the Novel Myval Balloon-Expandable Valve with the Evolut Valve: A Propensity-Matched Study

BACKGROUND

The Myval balloon-expandable (BE) valve has shown encouraging early clinical data in terms of safety and efficacy. Comparative data with other well-established contemporary valves are nonetheless still scarce. This study aims to compare the performance of the Myval BE valve with the Evolut self-expanding (SE) valve.

METHODS

In this retrospective single-center study, 223 patients with symptomatic severe aortic stenosis (AS) were included and treated with the Myval BE valve (n = 120) or with the Evolut SE valve (n = 103). Then, 91 pairs were compared after matching. Clinical outcomes were evaluated at 30 days and 1 year. Echocardiographic follow-up was performed at 30 days.

RESULTS

Procedural complications were rare in both groups. At the 30-day follow-up, no significant difference in cardiac death (Myval: 1% vs. Evolut: 2%, p = 0.56), stroke (2% vs. 4%, p = 0.41) and myocardial infarction (1% vs. 3%, p = 0.31) was observed. A permanent pacemaker implantation (PPI) was significantly less needed in the Myval group (4% vs. 15%, p = 0.01). At 1 year, cardiac death (2% vs. 4%, p = 0.41) and the stroke rate (7% vs. 5%, p = 0.76) were similar. Moderate-severe paravalvular leakage (PVL) was also comparable in both groups (1% vs. 4%, p = 0.17).

CONCLUSION

Safety and efficacy outcomes were comparable between the two valves, except for a higher PPI rate for the Evolut SE valve. Up to 1-year follow-up, clinical outcomes showed acceptable rates of stroke and cardiac death with both valves. Valve hemodynamics were excellent with a low rate of moderate-severe PVL in both groups.