Page 10 of 12                                                 Verolino et al. Vessel Plus 2018;2:17  I  http://dx.doi.org/10.20517/2574-1209.2018.32

               device technology are needed before considering TAVI as a reasonable treatment option for pure AR.


               PATIENTS WITH DEGENERATIVE BIOPROSTHETIC SURGICAL VALVES: THE VALVE IN VALVE
               STRATEGY
               As previously reported, TAVI is a useful procedure for the treatment of patients with native AS judged to
               have high/intermediate surgical risk [20,45,46] . However, over the last years, another “off-label” use of TAVI is
               also emerging in practice: the so-called “valve in valve” (VIV) [47,48] . Bioprostheses are known to have a lim-
                                                                   [49]
               ited durability, degenerating in a period of about 10-20 years . Although reoperation (“redo” surgery”) is
               considered the gold standard treatment for this population, it represents a procedure associated with high
                                                      [50]
               risk of morbidity and mortality. Maganti et al.  observed a poor 5-year survival (67% ± 5%) in a cohort of
               patients aged 75 years or older who underwent redo valve surgery. According to these findings, transcatheter
               aortic VIV implantation has emerged as a viable and less-invasive technique to be used in this setting and to
               obviate the need for reoperation. Despite being a technique still in progress, performed especially in special-
                                                                                       [51]
               ized centers, a worldwide register is now available (Global Valve-in-Valve Registry) , aiming to evaluate
               the effectiveness and clinical results of this technique in a wide cohort of patients. Before the creation of this
               register, previous studies investigating the VIV technique included only a small number of cases and were
               therefore limited in providing conclusive results. Several technical aspects have to be considered in VIV-
               TAVI for a failing surgical bioprosthesis such as different radiopaque markers and different implantation
               techniques. Moreover, some complications, also potentially life threatening and dangerous, such as elevated
               postprocedural gradients and ostial coronary obstruction, have been reported anecdotally and sporadically,
               during this type of procedure [52,53] . This registry started in December 2010, with a total of 38 participating
               centers (Europe, North America, Australia etc.). The register contains data and procedural results from the
               mentioned centres that have experience of TAVI with the use of both balloon and self-expandable devices.
               Preliminary results were reported including 202 patients with degenerated bioprosthetic valves (aged 77.7
                                    [51]
               ± 10.4 years; 52.5% men) . Bioprosthesis mode of failure was stenosis (n = 85; 42%), regurgitation (n = 68;
               34%), or both (n = 49; 24%). Two devices have been implanted: Medtronic CoreValve® (n = 124) and Edwards
               SAPIEN® (n = 78). Procedural success was achieved in 93.1% of patients. Device malposition occurred in
               15.3% of cases whereas ostial coronary obstruction was observed in 3.5% of patients. Post-procedural valve
               maximum and mean gradient were 28.4 ± 14.1 mmHg and 15.9 ± 8.6 mmHg respectively; about 95% of pa-
               tients developed ≤ +1 degree AR. All-cause 30-day mortality was 8.4%, whereas, 1-year follow-up showed a
               survival rate of 85.8%.


               These preliminary data emerging from the Global Valve-in-Valve Registry allows us to consider the VIV
               strategy a possible alternative to conventional redo surgery in patients with degenerated bioprosthetic valves.
               Device malposition, ostial coronary obstruction, and post-procedural aortic stenosis remain important con-
               cerns against the routine application of this procedure. Thus, other studies and longer follow-up are needed
               to confirm its safety and efficacy in clinical practice.


               CONCLUSION
               TAVI may be considered as “first choice” and not as last chance in many patients with AS. TAVI has
               emerged as the standard of care in inoperable/high risk patients whereas several randomized trials have
               demonstrated similar results of TAVI compared with SAVR also in the intermediate/low risk subset. More-
               over, the feasibility and safety of TAVI has been suggested also in patients with aortic bicuspid valve, pure
               AR and degenerative bioprosthetic surgical valves. Importantly, a careful risk assessment through surgical
               scores (STS, EuroSCORE etc.) is crucial, but other variables need to be considered such as frailty profile and
               specific anatomical elements (hostile chest, porcelain aorta). These factors are relevant for procedural success
               and long-term survival, but not included in the conventional scores possibly leading to underestimated risk
               classification. Surely improved procedural and technical experience, associated with an enhanced healthcare