Objectives The study aims to compare the hemodynamic and clinical outcomes of the SAPIEN 3 Ultra (S3‐Ultra) with the SAPIEN 3 (S3) system in patients who underwent transfemoral transcatheter aortic valve replacement (TF‐TAVR). Background The new balloon‐expandable S3‐Ultra system incorporates new features to reduce paravalvular leakage (PVL). However, the data after the S3‐Ultra implantation is very limited. Methods A total of 282 consecutive patients who underwent TF‐TAVR with the S3‐Ultra and the S3 were evaluated. The primary outcome of this study was to compare the incidence of ≥mild PVL after the S3‐Ultra and S3 implantation. Results Between June 2017 and November 2019, 141 patients with the S3‐Ultra and 141 patients with the S3 were identified with similar baseline and preprocedural imaging characteristics (mean age: 79.6 ± 6.7 years and mean aortic annulus area: 492.5 ± 91.2 mm2). In total, 83 patients (29.4%) were treated with 29‐mm valve. Predischarge echocardiography demonstrated a significantly lower incidence of ≥mild PVL (the total cohort: 7.2 vs. 22.3%, p < .001, and the cohort excluding 29‐mm valve: 4.0 vs. 21.4%, p = .03) for the S3‐Ultra. The S3‐Ultra system, especially 20‐, 23‐, and 26‐mm valve, was associated with significantly lower risk of ≥mild PVL compared with the S3 system in multivariate analysis. There were no significant differences in clinical outcomes at 30‐day between these groups, except for the lower incidence of major vascular complication (4.5 vs. 11.4%, p = .05) in patients with the S3‐Ultra. Conclusions In this registry, the S3‐Ultra system performed superiorly to the S3, as demonstrated by reduced ≥mild PVL, with comparable safety.
Purpose: There is no report on the reproducibility of the ultrasound-navigated MANTA deployment (US-MANTA) technique and little is known about predictors for US-MANTA-related vascular complication (VC). This study aimed to assess the incidence and predictors of access-site VC using the US-MANTA technique and report insights of MANTA-related VC from consecutive cases following large-bore arteriotomy. Materials and Methods: Consecutive patients who underwent transfemoral transcatheter aortic valve replacement with the US-MANTA technique from November 2018 to February 2020 were evaluated. MANTA-related VC was defined as access-site complications leading to major or minor VCs based on Valve Academic Research Consortium-2 criteria. Results: Among 378 patients, 23 cases (6.1%) of MANTA-related VC (major VC: n=7 [1.9%], minor VC: n=16 [4.2%]) were identified. No significant difference was observed in the incidence of MANTA-related VC over the observational period (first quartile: 5.3%, second: 5.4%, third: 7.4%, and fourth: 6.3%, p>.50). In 7 patients with MANTA-related major VC, 4 (57.1%) of complications resulted from incomplete apposition of the toggle due to anterior wall calcification of the common femoral artery (CFA). Anterior calcification of the CFA determined by computed tomography was identified as an independent predictor of MANTA-related VCs. Conclusions: The US-MANTA technique sustainably provides a low rate of access-site VCs following large-bore arteriotomy. Incomplete apposition of the toggle due to anterior calcification of the CFA may lead to ongoing vascular and bleeding complications.
Objectives. This study investigated the relationship between the timing of ventricular tachycardia or ventricular fibrillation (VT or VF) and prognosis in patients undergoing primary percutaneous coronary intervention (PCI) for acute myocardial infarction (AMI). Background. It is unknown whether the timing of VT/VF occurrence affects the prognosis of patients with AMI. Methods. From January 2004 to December 2014, 1004 patients with AMI underwent primary PCI. Of these patients, 888 did not have VT/VF (non-VT/VF group) and 116 had sustained VT/VF during prehospitalization or hospitalization. Patients with VT/VF were divided into two groups: early VT/VF (VT/VF occurrence before and within 2 days of admission, 92 patients) and late VT/VF (VT/VF occurrence >2 days after admission; 24 patients) groups. Results. The frequency of VT/VF occurrence was high between the day of admission and the 2nd day and between days 6 and 10 of hospitalization. The late VT/VF group had a significantly longer onset-to-balloon time, lower ejection fraction, poorer renal function, and higher creatine phosphokinase (CK)-MB level on admission (p< 0.001). They also had a lower 30-day cardiac survival rate than the early VT/VF and non-VT/VF groups (42% vs. 76% vs. 96%, p < 0.001). Moreover, independent predictors of in-hospital cardiac mortality among patients with AMI who had sustained VT/VF were higher peak CK-MB [Odds ratio (OR: 1.001, 95%confidence interval (CI): 1.000-1.002, p= 0.03)], higher Killip class (OR: 1.484, 95%CI 1.017-2.165, p= 0.04), and late VT/VF (OR: 3.436, 95%CI 1.115-10.59, p= 0.03). Conclusions. The timing of VT/VF occurrences had a bimodal peak. Although late VT/VF occurrence after primary PCI was less frequent than early VT/VF occurrence, patients with late VT/VF had a very poor prognosis.
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