Impact of Baseline and Newly Acquired Conduction Disorders on Need for Permanent Pacemakers With 3 Consecutive Generations of Self-Expanding Transcatheter Aortic Heart Valves.

INTRODUCTION: We aimed to compare conduction dynamics and need for permanent pacemaker implantation (PPI) after CoreValve, Evolut R and PRO (transcatheter aortic valve replacement (TAVR)). METHODS: Patients were stratified based on conduction at baseline; Cohort A had normal conduction, Cohort B had conduction abnormalities including atrioventricular (AV)-block, fascicular block or complete bundle branch block. Three different dynamic QRS-patterns were defined: stable QRS-duration, transient QRS-prolongation and persistent QRS-prolongation. We performed multivariable regression analysis to estimate the effect of the three separate transcatheter heart valves (THV's) on need for PPI at 30 days. RESULTS: TAVR was performed with CoreValve (N = 113), Evolut R (N = 157) or Evolut PRO (N = 92). Conduction dynamics were similar between the different THVs. Overall, Evolut R and PRO showed a tendency towards less PPI compared to CoreValve (17% vs. 19% vs. 27%, P = 0.08), which was driven by a lower PPI rate in Cohort A (6% vs. 11% vs. 25%, P = 0.002). Need for PPI was restricted to patients with persistent QRS-prolongation in Cohort A (26/106) but did not correlate with conduction dynamics in Cohort B. In multivariable logistic regression analysis the use of Evolut R (OR 0.38, 95% CI 0.19-0.78, P = 0.008) and PRO (OR 0.41, 95% CI 0.19-0.91, P-value = 0.028) were independently associated with less need for PPI. CONCLUSION: The newer generations Evolut R and PRO were associated with less PPI compared to CoreValve. Acquired persistent conduction abnormalities predicted PPI after TAVR only in patients with normal conduction at baseline. Our findings may help identify eligible patients for early discharge after Evolut R/PRO TAVR.

Frequency, Impact, and Predictors of Access Complications With Plug-Based Large-Bore Arteriotomy Closure - A Patient-Level Meta-Analysis.

BACKGROUND/PURPOSE: The MANTA is a dedicated plug-based large-bore vascular closure device (VCD) providing safe hemostasis in most patients, but data on the clinical impact and mechanisms of MANTA related complications are limited. This study sought to determine the frequency, impact and predictors of MANTA-related access complications. METHODS/MATERIALS: This patient-level meta-analysis included data from 2 medical device approval studies and 1 post-approval registry. The primary endpoint was the composite of major and minor access complications. Technical success was defined as hemostasis with MANTA closure device without need for vascular surgery or stenting. RESULTS: Eight hundred ninety-one patients (mean age 80) underwent transcatheter aortic valve replacement (n = 814), endovascular aortic repair (n = 71), balloon aortic valvuloplasty (n = 4) or mechanical circulatory support (n = 2). Technical success was 96.4% and median time to hemostasis was 31 (interquartile range: 17-76) seconds. The primary endpoint occurred 9.1% and bailout vascular surgery or stenting was necessary in 32 patients (3.6%). Female gender (OR: 2.63, CI: 1.46-4.73, p = 0.001), left femoral access (OR: 2.18, CI: 1.17-4.06, p = 0.015) and unfavorable arteriotomy phenotype (combination of a small femoral artery diameter with a deep arteriotomy; OR 2.27: 1.26-4.10, p = 0.006) independently predicted access complications. Access complications most often consisted of vessel dissection, stenosis or occlusion and predominantly occurred in patients with an unfavorable arteriotomy phenotype. CONCLUSIONS: Large-bore arteriotomy closure with MANTA VCD provided fast and safe hemostasis with an acceptable complication rate. Refined procedure planning and risk-stratification may further improve MANTA VCD performance.

Data on plug-based large-bore arteriotomy vascular closure device related access complications.

This article provides supplementary tables and figures to the research article: Frequency, Impact and Predictors of Access Complications with Plug-Based Large-Bore Arteriotomy Closure - A patient level meta-analysis [1]. The data provide insight in the type and management of access complications related to the plug-based MANTA vascular closure device (VCD) for large-bore catheter-based cardiovascular interventions. Since MANTA is mostly used in transcatheter aortic valve replacement (TAVR) procedures, this article also contains a sub-group analysis on TAVR procedures using contemporary valve-platforms. Further, data describing MANTA hemostasis times and mortality causes are included. For this dataset, individual patient data were derived from a European and a North American device approval study (the Conformite Européene [CE] mark study and the investigational device exemption SAFE-MANTA study [2,3]) in addition to a post-approval registry (the MARVEL registry [4]) covering a total of 891 patients who were enrolled between 2015 and 2019 across 28 investigational sites. Eligibility criteria were most stringent in the SAFE MANTA study (38% of patients) whereas the MARVEL registry applied liberal and only relative exclusion criteria (56% of patients). A total of 78 Roll-in cases (i.e. first or second time operator use of the MANTA VCD) who were excluded from analysis in SAFE MANTA were included in the present to evaluate a potential learning curve effect. Therefore, this dataset reflects the largest study population undergoing arteriotomy closure with the MANTA VCD by operators at various levels of experience, which can be valuable to further build on research regarding percutaneous large-bore arteriotomy management.

Vascular complications with a plug-based vascular closure device after transcatheter aortic valve replacement: Predictors and bail-outs.

BACKGROUND: The MANTA vascular closure device (VCD) is dedicated to large bore access closure and associated with favorable results in selected study populations. Anatomical predictors for access site complications are lacking. AIM: To evaluate MANTA in a real-world population and identify predictors for vascular complications. METHODS: All patients undergoing transfemoral transcatheter aortic valve replacement (TAVR) between January 2016 and May 2020 with MANTA closure were included. Baseline characteristics were collected, pre-procedural computed tomography and post-deployment femoral angiograms were analyzed for anatomical differences. The primary endpoint was a composite of access site related major and minor vascular complications at 30 days follow-up according to the VARC-2 definitions. Secondary endpoints included bleeding, time to hemostasis, procedural length and incomplete arteriotomy closure or arterial occlusion by angiography. A Cox proportional hazards model was used to compare all-cause mortality for patients with and without an access site complication. RESULTS: The 512 patients underwent TAVR with MANTA access closure. Median age was 80 (IQR 75-85), 53% was male, median BMI was 26.4 kg/m2 (IQR 23.4-29.7). Access site related major- or minor vascular complication occurred in 20 (4%) and 23 (4%) of patients respectively. Median time to hemostasis was 42 s (IQR 28-98). Post deployment angiogram showed an occlusion in 24 patients (5%), incomplete closure in 60 patients (12%) or both in three patients (1%). Of these 87 patients, 36 (41%) had a vascular complication. Femoral artery diameter (OR 0.70 [0.53-0.93]), low- (OR 3.47 [1.21-10.00]) and high (OR 2.43 [1.16-5.10]) arteriotomies were independent predictors for vascular complications. CONCLUSION: In this contemporary TAVR population, access-site related complications occurred in 8% of patients and were mainly due to percutaneous closure device failure. Small artery diameter and off-target punctures were independent predictors.

Suture- or Plug-Based Large-Bore Arteriotomy Closure: A Pilot Randomized Controlled Trial.

OBJECTIVES: This study sought to test the superiority in terms of efficacy and safety of a dedicated plug-based vascular closure device (VCD) during transcatheter aortic valve replacement (TAVR) over a suture-based VCD. BACKGROUND: Vascular complications after TAVR are relevant and often associated with VCD failure. METHODS: The MASH (MANTA vs. Suture-based vascular closure after transcatHeter aortic valve replacement) trial is an international, 2-center pilot randomized controlled trial comparing the MANTA VCD (Teleflex, Wayne, Pennsylvania) versus 2 ProGlides (Abbott Vascular, Abbott Park, Illinois). The primary composite endpoint consisted of access site-related major or minor vascular complications at 30-days' follow-up. Secondary endpoints included clinically relevant access site bleeding, time to hemostasis, and modified VCD failure (defined as failure to achieve hemostasis within 5 min or requiring additional endovascular maneuvers such as endovascular stenting, surgical techniques, or additional closure devices). Adverse events were adjudicated by an independent clinical events committee according to the VARC-2 definitions. RESULTS: A total of 210 TAVR patients were included between October 2018 and January 2020. Median age was 81 years, 54% were male, and the median STS score was 2.7%. There was no significant difference in the primary endpoint of access site-related vascular complications between MANTA and ProGlide (10% vs. 4%; p = 0.16). Clinically significant access site bleedings were similar with both closure techniques (9% vs. 6%; p = 0.57). Modified VCD failure occurred less frequently in MANTA versus ProGlide (20% vs. 40%; p < 0.01). Suture-based closure required more often additional closure devices, whereas MANTA numerically needed more covered stents and surgical bailouts. CONCLUSIONS: Plug-based large-bore arteriotomy closure was not superior to suture-based closure. Plug-based closure required fewer, but a different kind of bailout maneuvers.

Dedicated plug based closure for large bore access -The MARVEL prospective registry.

OBJECTIVES: To study safety and performance of the MANTA Vascular closure device (VCD) under real world conditions in 10 centers. BACKGROUND: The MANTA is a novel plug-based device for large bore arteriotomy closure. METHODS: We included all eligible patients who underwent transfemoral large bore percutaneous procedures. Exclusion criteria were per operator's discretion and included severe calcification or marked tortuosity of the access vessel, presence of marked obesity/cachexia or a systolic blood pressure above 180 mmHg. The primary performance endpoint was time to hemostasis. Primary and secondary safety endpoints were major and minor access site related vascular complications up to 30 days, respectively. Vascular complications were adjudicated by an independent clinical event committee according to VARC-2 criteria. We performed multivariable logistic regression to estimate the effect of baseline and procedural characteristics on any and major vascular complications. RESULTS: Between February 2018 and July 2019 500 patients were enrolled undergoing Transcatheter aortic valve replacement (TAVR, N = 496), Balloon aortic valvuloplasty (BAV, N = 2), Mechanical circulatory support (MCS, N = 1) or Endovascular aneurysm repair (EVAR, N = 1). Mean age was 80.8 ± 6.6 years with a median STS-score of 2.7 [IQR 2.0-4.3] %. MANTA access site complications were major in 20 (4%) and minor in 28 patients (5.6%). Median time to hemostasis was 50 [IQR 20-120] sec. Severe femoral artery calcification, scar presence in groin, longer procedure duration, female gender and history of hypertension were independent predictors for vascular complications. CONCLUSION: In this study, MANTA appeared to be a safe and effective device for large bore access closure under real-world conditions.

Heterogeneity of debris captured by cerebral embolic protection filters during TAVI.

AIMS: The aim of this study was to investigate the total amount, size and heterogeneity of debris captured among different transcatheter valve types and while repositioning. METHODS AND RESULTS: A total of 328 patients who underwent transcatheter aortic valve implantation (TAVI) with the SENTINEL cerebral embolic protection (CEP) at our centre were eligible. Histopathological and semiquantitative analysis of captured debris was performed and data were entered into our prospective database. TAVI was performed with either the Evolut R/PRO (N=123), SAPIEN 3 (N=113) or Lotus valve (N=92). Capture of debris occurred in 98% of patients. Lotus TAVI resulted in more frequent foreign body material (62% vs 40% vs 47%, p=0.006), endothelium (49% vs 30% vs 16%, p<0.0005), calcified material (33% vs 12% vs 24%, p=0.001) and myocardial tissue (19% vs 11% vs 2%, p<0.0005) compared to SAPIEN 3 or Evolut R/PRO. Native (functional) bicuspid valves (OR 2.91, 95% CI: 1.20-7.03, p=0.02) and Lotus (OR 2.44, 95% CI: 1.14-5.24, p=0.02) were associated with the highest risk for dislodging particles ≥1,000 um. Valve repositioning was independently associated with larger amounts of debris (OR 2.96, 95% CI: 1.42-6.16, p=0.004). CONCLUSIONS: All THV platforms had similar amounts of captured debris. THV repositioning seemed to be associated with a higher risk for dislodging greater amounts of debris to the brain.

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

OBJECTIVES: The 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. BACKGROUND: Optimal 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. METHODS: A 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. RESULTS: Decision 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). CONCLUSIONS: Patient-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.

HAS-BLED score and actual bleeding in elderly patients undergoing transcatheter aortic valve implantation.

BACKGROUND: The optimal antithrombotic therapy after transcatheter aortic valve implantation (TAVI) is unsettled. Short and longer-term thromboembolic and bleeding risk post TAVI remain high. Non-vitamin K oral anticoagulant drugs (NOAC) may be attractive after TAVI but the implications of prolonged NOAC in this setting require further research. The aim of this study was to assess the HAS-BLED bleeding risk in a contemporary TAVI population and explore its correlation with the effective bleeding complications with or without (N)OAC. METHODS: This study included 986 consecutive successful TAVI patients from 2 tertiary care facilities. Statistical analysis consisted of Cox regression. Bleedings were classified according to VARC-2 criteria. RESULTS: Mean age was 80.5 years, mean STS was 4.7 and 54% were males. A total of 483 patients (49.2%) had AF and 42.1% were on (N)OAC. The median HAS-BLED score was 2, 42.6% had a HAS-BLED≥3. Overall 216 patients (21.9%) experienced at least 1 bleeding, 166 (16.9%) occurred early after TAVI. HAS-BLED≥3 was an independent predictor of overall and pre-discharge bleeding (respectively HR 1.347 CI 1.029-1.763, P=0.03: HR 1.403 CI 1.032-1.905, P=0.05). The incidence of bleeding was similar in patient on (N)OAC vs. patients not on (N)OAC, both in the low and high HAS-BLED cohorts (P=0.93, P=0.42 respectively). Cardiovascular mortality was significantly higher in the high HAS-BLED cohort (37.5% vs. 24%, P=0.04) and HAS-BLED≥3 was an independent predictor of late mortality (HR 1.452 CI 1.028-2.053, P=0.03). CONCLUSIONS: In our series, contemporary TAVI patients had an elevated HAS-BLED score. The HAS-BLED score correlated with early bleedings and mortality after TAVI. Use of (N)OAC was not associated with more bleedings after TAVI.

Impact of Valvulo-Arterial Impedance on Long-Term Quality of Life and Exercise Performance After Transcatheter Aortic Valve Replacement.

BACKGROUND: In aortic stenosis, valvulo-arterial impedance (Zva) estimates the overall left ventricular afterload (valve and arterial component). We investigated the association of Zva (≥5 versus <5 mm Hg mL-1 m-2) on quality of life (QOL) and exercise performance (EP) ≥1 year after transcatheter aortic valve replacement (TAVR). METHODS: The study population consists of 250 TAVR patients in whom baseline Zva and follow-up QOL was prospectively assessed using EuroQOL-5-dimensions instruments; EP was assessed in 192 patients who survived ≥1 year after TAVR using questionnaires related to daily activities. In 124 patients, Zva at 1-year was also available and was used to study the change in Zva (baseline to 1 year) on QOL/EP. RESULTS: Elevated baseline Zva was present in 125 patients (50%). At a median of 28 (IQR, 17-40) months, patients with elevated baseline Zva were more limited in mobility (88% versus 71%; P=0.004), self-care (40% versus 25%; P=0.019), and independent daily activities (taking a shower: 53% versus 38%, P=0.030; walking 100 meter: 76% versus 54%, P=0.001; and walking stairs: 74% versus 54%, P=0.011). By multivariable analysis, elevated Zva predicted unfavorable QOL (lower EuroQOL-5-dimensions-Utility Index, odds ratio, 1.98; CI, 1.15-3.41) and unfavorable EP (any limitation in ≥3 daily activities, odds ratio, 2.55; CI, 1.41-4.62). After TAVR, the proportion of patients with elevated Zva fell from 50% to 21% and remained 21% at 1 year and was found to be associated with more limitations in mobility, self-care, and daily activities compared with patients with Zva <5 mm Hg mL-1 m-2. CONCLUSIONS: Elevated Zva was seen in half of patients and predicted unfavorable long-term QOL and EP. At 1 year after TAVR, the prevalence of elevated Zva was 21% but remained associated with poor QOL/EP.

Early Clinical Impact of Cerebral Embolic Protection in Patients Undergoing Transcatheter Aortic Valve Replacement.

Background We aimed to compare the rate of neurological events in patients with or without cerebral embolic protection (CEP) during transcatheter aortic valve replacement (TAVR). Methods and Results Data on clinical end points including neurological events ≤30 days post-TAVR were collected for all patients who underwent transfemoral TAVR in 2 academic tertiary care institutions. Patients were matched through propensity scoring, which resulted in 333 pairs of patients with versus without CEP out of a total of 831 consecutive patients. The median age was 81 (76-85) years, and the median logistic EuroScore was 14% (9%-20%). The CEP group experienced less neurological events at 24 hours (1% versus 4%; P=0.035) and at 30 days (3% versus 7%; P=0.029). There were significantly more disabling strokes in unprotected patients at 30 days (1% versus 4%; P=0.039). CEP was associated with significantly fewer neurological events at 24 hours after TAVR (odds ratio, 0.20; 95% CI, 0.06-0.73; P=0.015) by multiple regression analysis, while age and valve type did not contribute significantly. Overall, 67% (2 of 3) in the CEP versus 83% (10 of 12) in the non-CEP cohort experienced neurological events in protected areas (ie, not dependent on the left vertebral artery). Conclusions The use of filter-based CEP during TAVR was associated with less neurological events, especially in CEP-protected brain territories.

Moderate Aortic Stenosis and Reduced Left Ventricular Ejection Fraction: Current Evidence and Challenges Ahead.

Moderate aortic stenosis (AS) and reduced left ventricular ejection fraction (LVEF) constitute a clinical entity that has been proposed as a therapeutic target for transcatheter aortic valve replacement (TAVR). It is defined by a mean trans-aortic gradient between 20 and 40 mmHg and an aortic valve area between 1.0 and 1.5 cm2 in patients with LVEF < 50%. Retrospective data suggests a prevalence of 0.8% among patients referred for echocardiographic assessment. These patients are younger and show a higher frequency of previous myocardial infarction than those with severe AS randomized to TAVR in recent trials. In two retrospective studies including patients with moderate AS and reduced LVEF, a one-year mortality rate of 9 and 32% was reported, the latter in patients treated with medical therapy only during follow-up. Echocardiographic diagnosis of moderate AS poses challenges as current guidelines are directed to determine severe AS, and different presentations of moderate and mild AS have been generally neglected. Thus, the nomenclature would need to be revised and a description of possible scenarios is provided in this review. Dobutamine stress echocardiography and computed tomography are promising complementary tools. Likewise, a standardized clinical pathway is needed, in which a high level of suspicion and a low threshold for referral to a heart valve center is warranted. The Transcatheter Aortic Valve Replacement to UNload the Left ventricle in patients with Advanced heart failure (TAVR UNLOAD) trial (NCT02661451) is exploring whether TAVR would improve outcomes in patients receiving optimal heart failure therapy.

Conduction dynamics after transcatheter aortic valve implantation and implications for permanent pacemaker implantation and early discharge: the CONDUCT-study.

Aims: To correlate dynamics in electrical conduction after transcatheter aortic valve implantation (TAVI) with need for permanent pacemaker implantation (PPM) and assess implications for early discharge. Methods and results: Daily electrocardiograms after TAVI were analysed for rhythm and conduction times and were correlated with PPM. Transcatheter aortic valve implantation was performed in 291 consecutive patients with three contemporary transcatheter heart valve designs: Medtronic CoreValve (n = 111), Edwards Sapien XT (n = 29) and Sapien 3 (n = 72), and Boston Lotus (n = 79). We considered two cohorts: (A) Patients with normal baseline conduction; and (B) patients with pre-existent conduction disturbances. Based on QRS dynamics, three patterns were discerned: stable normal QRS duration, transient QRS prolongation, and persistent QRS prolongation. In Cohort B, QRS dynamics did not correlate with PPM. In contrast, in Cohort A, QRS dynamics and PPM appeared highly correlated. Neither patients with stable normal QRS duration (0/47), nor patients with transient QRS prolongation required PPM (0/26). All PPMs occurred in patients with persistent QRS prolongation until discharge (27/85). Persistent QRS prolongation was typically seen with Lotus and CoreValve, whereas stable normal QRS duration was typically seen with Sapien XT and Sapien 3. Conclusion: Three distinct patterns of QRS dynamics can be discerned after TAVI and their predictive probabilities for PPM strongly relate to the baseline conduction status. Patients with normal conduction at baseline and stable QRS duration after TAVI are potentially eligible for early discharge.

Complete filter-based cerebral embolic protection with transcatheter aortic valve replacement.

OBJECTIVES: To evaluate the value of left vertebral artery filter protection in addition to the current filter-based embolic protection technology to achieve complete cerebral protection during TAVR. BACKGROUND: The occurrence of cerebrovascular events after transcatheter aortic valve replacement (TAVR) has fueled concern for its potential application in younger patients with longer life expectancy. Transcatheter cerebral embolic protection (TCEP) devices may limit periprocedural cerebrovascular events by preventing macro and micro-embolization to the brain. Conventional filter-based TCEP devices cover three extracranial contributories to the brain, yet leave the left vertebral artery unprotected. METHODS: Patients underwent TAVR with complete TCEP. A dual-filter system was deployed in the brachiocephalic trunk and left common carotid artery with an additional single filter in the left vertebral artery. After TAVR all filters were retrieved and sent for histopathological evaluation by an experienced pathologist. RESULTS: Eleven patients received a dual-filter system and nine of them received an additional left vertebral filter. In the remaining two patients, the left vertebral filter could not be deployed. No periprocedural strokes occurred. We found debris in all filters, consisting of thrombus, tissue derived debris, and foreign body material. The left vertebral filter contained debris in an equal amount of patients as the Sentinel filters. The size of the captured particles was similar between all filters. CONCLUSIONS: The left vertebral artery is an important entry route for embolic material to the brain during TAVR. Selective filter protection of the left vertebral artery revealed embolic debris in all patients. The clinical value of complete filter-based TCEP during TAVR warrants further research.

Need for Embolic Protection During Transcatheter Aortic Valve Implantation: An Interventionalist's Perspective on Histopathology Findings.

Transcatheter aortic valve implantation (TAVI) is a less invasive aortic valve replacement technique and is indicated for patients with symptomatic severe aortic stenosis and a high operative risk. Cerebral embolisation seems inherent to TAVI, as illustrated by the consistent appearance of new brain lesions on post-procedural MRI studies. Embolic protection devices may capture or deflect embolised material en route to the brain and thus reduce TAVI-related brain injury. Histopathology studies of captured debris revealed a diverse aetiology including recent or organised thrombotic material, tissue originating from the aortic valve, atherosclerotic plaques or myocardium and foreign body components. In this overview we provide a perspective on current evidence and implications for embolic protection devices in the dynamic TAVI field.