Along with the coming of aged society, the prevalence of heart valvular disease is significantly increasing, and the use of bioprosthetic valves for treating patients with severe valve disease has increased over the last two decades. As a consequence, a growing number of patients with surgical bioprosthesis degeneration is predicted in the near future. In this setting, valve-in-valve (ViV) transcatheter aortic/mitral valve replacement (TAVR/TMVR) has emerged as an alternative to redo surgery. A deep knowledge of the mechanism and features of the failed bioprosthetic heart valve is pivotal to plan an adequate procedure. Multimodal imaging is fundamental in the diagnostic and pre-procedural phases. The immediate and mid-term clinical and hemodynamic results have demonstrated the safety and feasibility of ViV techniques, but the development of these techniques faces several specific challenges, such as coronary obstruction, potential post-procedural mismatch and leaflet thrombosis. This article reviews the current status and prospects of ViV-TAVR technology in the treatment for biological valve degeneration, and suggests that ViV-TAVR should be promoted and implemented in existing medical centers with good surgical aortic valve replacement experience, so as to provide better treatment for patients.
Commissural misalignment of biological valve and autologous valve during transcatheter aortic valve replacement may affect the filling of coronary artery, reduce the feasibility of redo-aortic valve intervention and damage the valve function, which will adversely affect long-term prognosis of patients. Some studies have obtained achievement by changing the axial direction of valve and using individualized computer simulation technology to improve the alignment technology. However, there are still many unknown problems about the impact of commissural misalignment on patients, and accurate commissural alignment techniques still need to be further explored. This article systematically expounds the possible impact of commissural misalignment between biological valve and autologous valve in transcatheter aortic valve replacement, possibly effective accurate commissural alignment techniques and related research progress.
ObjectiveTo investigate the influence of mechanical and biological valves on clinical benefits of elderly patients with valvular heart disease.MethodsWe retrospectively analyzed the clinical data of 280 elderly patients with valvular heart disease treated by valve replacement between 2008 and 2014 year. The patients were divided into two groups by tendency score matching including a group A with biological valves and a group B with mechanical valves. Finally, there were 96 patients in each group. There were 43 males and 53 females at age of 64.41±6.52 years in the group A, 44 males and 52 females at age of 64.07±6.20 years in the group B.ResultsThe bleeding rate of skin and mucosa of the group B was significantly higher than that of the group A (P<0.05). There was no statistical difference in mortality within 30 days after operation, all-cause mortality, re-hospitalization rate, re-valve replacement rate, combined atrial flutter/atrial fibrillation ratio, drug use, incidence of cerebral infarction, cerebral hemorrhage, new peripheral vascular embolism and visceral hemorrhage, heart function (NYHA) classification, the cumulative survival rate of all the patients during follow-up (P=0.63), or the cumulative survival rate of the patients with no thrombus/hemorrhage (P=0.75) between the two groups (P>0.05).ConclusionMechanical valve replacement and bioprosthetic valve replacement in the treatment of valvular heart disease in the elderly can achieve similar clinical benefits and both have clinical application value.