Impact of Evolution of Self-Expandable Aortic Valve Design: Peri-Operative and Short-Term Outcomes.

A few data exist on the differences of implantable aortic valve bio-prostheses. We investigate three generations of self-expandable aortic valves in terms of the outcomes. Patients undergoing transcatheter aortic valve implantation (TAVI) were allocated into three groups according to the valve type: group A (CoreValveTM), group B (EvolutTMR) and group C (EvolutTMPRO). The implantation depth, device success, electrocardiographic parameters, need for permanent pacemaker (PPM), and paravalvular leak (PVL) were assessed. In the study, 129 patients were included. The final implantation depth did not differ among the groups (p = 0.07). CoreValveTM presented greater upward jump of the valve at release (2.88 ± 2.33 mm vs. 1.48 ± 1.09 mm and 1.71 ± 1.35 mm, for groups A, B, and C, respectively, p = 0.011). The device success (at least 98% for all groups, p = 1.00) and PVL rates (67% vs. 58%, vs. 60% for groups A, B, and C, respectively, p = 0.64) did not differ. PPM implantation within 24 h (33% vs. 19% vs. 7% for groups A, B, and C, respectively, p = 0.006) and until discharge (group A: 38% vs. group B: 19% and group C: 9%, p = 0.005) was lower in the newer generation valves. Newer generation valves present better device positioning, more predictable deployment, and fewer rates of PPM implantation. No significant difference in PVL was observed.

Long-Term Outcomes and Valve Performance in Patients Undergoing Transcatheter Aortic Valve Implantation.

Transcatheter aortic valve implantation (TAVI) is an established method for treating patients with aortic valve stenosis. We sought to determine the long-term clinical outcomes and performance of a self-expanding bioprosthesis beyond 5 years. Consecutive patients scheduled for TAVI were included in the analysis. Primary end points were all-cause and cardiovascular mortality, structural valve deterioration (SVD) and bioprosthetic valve failure (BVF), based on the VARC-2 criteria and consensus statement by ESC/EAPCI. The study prospectively evaluated 273 patients (80.61 ± 7.00 years old, 47% females) who underwent TAVI with CoreValve/Evolut-R (Medtronic Inc.). The median follow-up duration was 5 years (interquartile range: 2.9 to 6; longest: 8 years). At 1, 5, and 8 years, estimated survival rates were 89.0%, 61.1%, and 56.0%, respectively, while cardiovascular mortality was 8% at the end of follow-up. Regarding valve performance, 5% of patients had early BVF and 1% had late BVF. Concerning SVD, 16 patients (6% of the total population) had moderate SVD (91% had an increase in mean gradient), with no severe SVD cases. Five patients with SVD died during follow-up. Actual analysis of the 8-year cumulative incidence of function of moderate SVD was 5.9% (2.5% to 16.2%). At multivariate analysis, the factor that emerged as an independent predictor for future SVD, was smaller bioprosthetic valve size (HR 0.58, 95% CI 0.41 to 0.82, p = 0.002). Long-term evaluation beyond 5 years after TAVI with a self-expanding bioprosthesis demonstrated low rates of cardiovascular mortality and structural valve deterioration. Valve size was an independent predictor for SVD.

Repeated transcatheter aortic valve implantation for the treatment of a degenerated transcatheter aortic valve implantation valve (valve-in-valve technique): a case report.

BACKGROUND: Valve-in-valve transcatheter aortic valve implantation (TAVI) has emerged as a competent alternative for the treatment of degenerated bioprosthetic valves after surgical aortic valve replacement, or during TAVI procedure as a bailout option. Herein, we report a rare case of a self-expandable Medtronic Evolut R valve into a failing Medtronic CoreValve, with the use of modern pre-TAVI imaging screening, suggesting the proper procedural design steps for so complicated implantations. CASE SUMMARY: A frail 78-year-old woman with a degenerated Medtronic Core Valve 26 mm bioprosthesis, implanted in 2011 due to severe aortic stenosis, was referred to our hospital due to worsening dyspnoea New York Heart Association III. The screening echocardiography documented severe aortic stenosis, while the classical risk scores were in favour of repeated TAVI (EuroSCORE II 5.67%). Computed tomography measurements and three-dimensional (3D) printing model were of great help for the proper valve selection (Medtronic Evolut R 26 mm), while the use of cerebral protection device (Claret Sentinel) was considered as a necessary part of the procedure. The simultaneous use of fluoroscopy and transoesophageal echocardiogram led to optimal haemodynamic result, confirmed by the discharge echocardiogram, with a significant clinical improvement during the first month follow-up. DISCUSSION: The main periprocedural concerns remain valve malpositioning, coronary artery obstruction, and high remaining transvalvular gradients. The multimodality pre-TAVI imaging screening may be helpful for precise procedural design. Despite the limited use of 3D models, it is necessary to adopt such tissue-mimicking phantoms to increase the possibility of optimal procedural result.

Relationship between tumor necrosis factor-α (TNFA) gene polymorphisms and cardiac sarcoidosis.

Identification of genetic predisposition to cardiac sarcoidosis could play a critical role in the detection of sub-clinical forms of the disease. The aim of this study was to investigate the possible correlations between the emergence of cardiac sarcoidosis and the -1.031T/C, -857C/T, -308G/A, and -238G/A Tumor Necrosis Factor-α (TNFA) polymorphisms in a well-defined Greek cohort. One-hundred and seventy-three patients of Greek origin with sarcoidosis were recruited in the present study. Cardiac sarcoidosis was determined according to established criteria. Blood samples were collected and the TNFA polymorphisms were genotyped. No significant difference was noted between the patients with cardiac involvement and those without, concerning the -1.031T/C and -238G/A TNFA polymorphisms. Regarding the -857C/T polymorphism, the TT genotype and the T allele were found to be over-represented in patients with cardiac involvement (p=0.02 and 0.012, respectively). AA genotype of the -308G/A as well as the A allele were also found significantly more frequently in patients with cardiac sarcoidosis (p=0.014 and 0.012 respectively). From the investigated TNFA promoter polymorphisms, we were able to deduce nine main haplotypes. Haplotypes 3 and 5, including A nucleotide at position -308, and T nucleotide at position -857 respectively, were significantly over-represented in the group with cardiac involvement. We detected an increased presence of genetic polymorphisms in the TNFA gene of patients with cardiac involvement. However, the role and the clinical application of these findings need further exploration.