Mitral Valve-in-Valve Implantation as an Elective or Rescue Procedure in High-Risk Patients

Clinical Outcomes of Transcatheter Mitral Valve-In-Valve and Valve-In-Ring Implantation: A Systematic Review and Meta-Analysis

BACKGROUND

Transcatheter valve-in-valve (VIV) or valve-in-ring (VIR) therapies for degenerated mitral bioprosthetic valves and rings are still evolving. We aimed to characterize short- and long-term outcomes of these procedures.

METHODS

An electronic literature search was conducted to retrieve articles describing mitral VIV or VIR implantation with at least 10 patients. Meta-analysis of proportions was carried out for 30-day or in-hospital outcomes of mortality, stroke, major bleeding, transfusion, acute kidney injury, procedural success, valve embolization, paravalvular leak, pacemaker implantation, and hospital stay. Individual patient data meta-analysis using Kaplan-Meier curve reconstruction was used to estimate long-term mortality of VIV, VIR and redo surgical mitral valve replacement (SMVR).

RESULTS

We analyzed 34 studies (7047 patients). Pooled procedural success was 94.8% in VIV and 80.5% in VIR. Pooled short-term mortality and stroke risk was 6.4% and 1.9% respectively in VIV, 9.1% and 1.6% respectively in VIR, and 8.4% and 5.5% respectively in SMVR.

CONCLUSIONS

This study provides prognostic information on clinical outcomes for redo SMVR and transcatheter mitral VIV and VIR implantation.

Transcatheter Structural Heart Interventions in the Acute Setting: An Emerging Indication

Structural heart disease is increasingly prevalent in the general population, especially in patients of increased age. Recent advances in transcatheter structural heart interventions have gained a significant following and are now considered a mainstay option for managing stable valvular disease. However, the concept of transcatheter interventions has also been tested in acute settings by several investigators, especially in cases where valvular disease comes as a result of acute ischemia or in the context of acute decompensated heart failure. Tested interventions include both the mitral and aortic valve, mostly evaluating mitral transcatheter edge-to-edge repair and transcatheter aortic valve implantation, respectively. This review is going to focus on the use of acute structural heart interventions in the emergent setting, and it will delineate the available data and provide a meaningful discussion on the optimal patient phenotype and future directions of the field.

Urgent Transcatheter Mitral Valve-in-Valve Replacement With Venoarterial Extracorporeal Membrane Oxygenation Support: Case Report and Review of the Literature

Critical mitral valve stenosis due to a failed bioprosthetic valve is associated with significant morbidity and mortality, with the transcatheter Valve-in-Valve (ViV) approach becoming a popular treatment option. We present a case of cardiogenic shock secondary to a stenotic mitral bio-prosthetic valve. The Heart team was consulted; the patient was a high-risk surgical candidate for valve replacement. He required venoarterial extracorporeal membrane oxygenation as a bridge to definitive therapy. The patient underwent a successful urgent transcatheter mitral ViV procedure with a trans-septal approach. Follow-up echocardiography showed significant improvement in mitral valve dynamics. Recently emerging transcatheter approaches for mitral ViV implantation after balloon valvuloplasty into a failed mitral valve prosthesis are technically feasible in high-risk patient populations and should be considered over re-operative mitral valve surgery.

Transcatheter mitral valve implantation in the ongoing structural heart revolution

Transcatheter mitral valve implantation (TMVI) has emerged as a less invasive approach potentially surmounting some of the current hurdles associated with transcatheter edge-to-edge repair and high-risk mitral valve surgery. In this review, we aimed to outline the main scenarios in the TMVI field, highlight current and upcoming devices, and describe challenges and clinical results. Finally, we briefly discuss the future perspectives for this emerging field and how TMVI might further advance the field of transcatheter treatments of mitral valve disease.

Clinicopathological insights from early structural valve deterioration of a surgical and transcatheter valve-in-valve mitral bioprotheses

Introduction

Transcatheter mitral valve replacement (TMVR) is indicated in case of degenerated bioprosthesis in high‐risk patients. However, durability of these valves still represents an important issue.

Methods

Early severe structural valve deterioration of a mitral porcine surgical bioprosthesis and of a subsequent bovine TMVR, both at 4 years follow‐up, is here presented.

Results

Gross, histopathologic, and X‐ray examination revealed massive calcification of both devices and fibrous tissue overgrowth involving the TMVR stent.

Conclusions

Careful clinical evaluation and strict follow‐up are mandatory to identify early signs of dysfunction and to intervene in a timely manner.

Transcatheter valve-in-valve implantation for degenerated bioprosthetic aortic and mitral valves - an update on indications, techniques, and clinical results

Introduction: Aortic and mitral bioprosthesis are the gold standard treatment to replace a pathological native valve. However, bioprostheses are prone to structural valve degeneration, resulting in limited long-term durability. During the past decade, the implantation of transcatheter stent-valves within degenerated aortic and mitral bioprostheses, (the so-called 'valve-in-valve' procedure), represents a valid alternative to redo surgery in patients with high-risk surgical profiles.Areas covered: We reviewed the clinical outcomes and the procedural details of transcatheter aortic and mitral valve-in-valve series according to current published literature and include a practical guide for valve sizing and stent-valve positioning and strategies to prevent complications.Expert opinion: In both aortic and mitral positions meticulous planning is fundamental in these procedures to avoid serious complications including patient prosthesis mismatch, coronary obstruction and left ventricular outflow tract obstruction.

Valve-in-Valve and Valve-in-Ring Transcatheter Mitral Valve Implantation in Young Women Contemplating Pregnancy

Background:

Transcatheter mitral valve implantation (TMVI) is emerging as an alternative to surgical mitral valve replacement in selected high-risk patients. Delaying definitive mechanical mitral valve replacement and the constraints of anticoagulation thanks to TMVI may be an attractive option in young women contemplating pregnancy and suffering from failure of mitral bioprosthesis or annuloplasty. The aim of the study was to evaluate the possibility, safety, and outcomes of pregnancy after TMVI in this population.

Methods:

From 2013 to 2019, 12 young women contemplating pregnancy underwent transseptal valve-in-valve or valve-in-ring TMVI using the Edwards SAPIEN XT/3 valves and were prospectively followed up at 1 month, 6 months, 1 year, and yearly thereafter.

Results:

Mean age of the patients was 30±6 years. Bioprosthesis degeneration was observed in 7 cases and annuloplasty failure in 5. Three valve-in-ring patients required the implantation of a second valve, which led to an overall procedural success rate of 75%. One delayed left ventricular outflow tract obstruction required elective surgical mitral valve replacement. At 6 months/1 year, 83% of the patients were in New York Heart Association classes I/II. Mitral regurgitation was ≤2+ in all the cases and mean gradient was 7±2 mm Hg. Four patients could complete 6 full-term pregnancies. One symptomatic thrombosis occurred and resolved under aspirin and anticoagulation therapy. All others pregnancies were uneventful. Predelivery mean gradient was 11 mm Hg, and systolic pulmonary artery pressure was 32 mm Hg. There were 4 vaginal deliveries and 2 cesarians. Newborns were alive and healthy. At last follow-up, there was no death, and 3 patients required elective surgical mitral valve replacement at 6- to 54-month follow-up.

Conclusions:

Our study suggests that, in young women, transseptal TMVI to treat failing bioprostheses may result in good short-term outcomes that allow uneventful pregnancies. The results are less favorable in women with failed annuloplasty rings.

Contemporary Reoperative Mitral Valve Surgery: Technical Considerations and Clinical Outcomes

As patients with cardiac disease live longer, reoperative mitral valve surgery has become more common. Although these operations are technically challenging and of high risk, outcomes continue to improve. Minimally invasive techniques, better cardioprotective strategies, and advanced perioperative care have contributed to this. In this review, we discuss surgical approaches, intraoperative strategies, novel catheter-directed devices, and clinical outcomes of contemporary reoperative mitral valve surgery.

Management of valvulopathies with acute severe heart failure and cardiogenic shock

Cardiogenic shock is a critical clinical situation, requiring rapid diagnosis, aetiological assessment and immediate initiation of therapy. In industrialized countries, aortic stenosis is the most frequent left-sided valvulopathy, followed by mitral regurgitation, aortic regurgitation and mitral stenosis. Severe valvulopathies leading to cardiogenic shock are not rare conditions, but few data are available on their optimal management. Therapeutic options for such critical conditions include inotropic agents, mechanical support (when feasible) and rapid valvular intervention. Although surgery remains the gold-standard treatment for severe valvular disease, mortality is frequently prohibitive in the setting of cardiogenic shock, necessitating consideration of alternative therapies. Percutaneous management of valvulopathies has emerged as an alternative treatment for patients deemed at high surgical risk in a stable condition. Although few published data are available, catheter-based interventions may be feasible in the cardiogenic shock setting. This review offers an overview of different valvulopathies in the cardiogenic shock setting, and summarizes the different therapeutic options currently available in such critical situations.

Transcatheter Mitral Valve-in-Valve Dislocation: A Rescue Strategy

In the transcatheter aortic valve replacement era, transapical valve-in-valve mitral valve implantation is considered an alternative treatment for high-risk patients with degenerated mitral bioprosthesis. We report an unusual strategy to remedy the potentially fatal complication of the mitral prosthesis migration into the aortic arch. The dislocated prosthesis was successfully stabilized in the aortic arch with a bare aortic stent, ensuring adequate perfusion of epiaortic vessels.

Degenerative Mitral Stenosis: From Pathophysiology to Challenging Interventional Treatment

Mitral stenosis (MS) is characterized by obstruction of left ventricular inflow as a result of narrowing of the mitral valve orifice. Although its prevalence has declined over the last decade, especially in developed countries, it remains an important cause of morbidity and mortality.  The most often cause of MS worldwide is still postrheumatic mitral valve disease. However, in developed countries, degenerative or calcific changes cause MS in a siginificant proportion of patients. Although the range of treatment for mitral valve disease has grown over the years in parallel with transcatheter therapies for aortic valve disease, these improvements in mitral valve disease therapy have experienced slower development. This is mainly due to the more complex anatomy of the mitral valve and entire mitral apparatus, and the interplay of the mitral valve with the left ventricle which hinders the development of effective implantable mitral valve devices. This is especially the case with degenerative MS where percutaneous or surgical comissurotomy is rarely employed due to the presence of extensive annular calcification and at the base of leaflets, without associated commissural fusion. However, the last few years have witnessed innovations in transcatheter interventional procedures for degenerative MS which consequently hinted that in the future, transcatheter mitral valve replacement could be the treatment of choice for these patients.