The Carpentier-Edwards Perimount Magna mitral valve bioprosthesis: intermediate-term efficacy and durability

Mitral valve replacement in young patients: review and current challenges

Mitral valve repair is the ideal intervention for mitral valve disease with excellent long-term survival comparable to the age-matched general population. When the mitral valve is not repairable, mechanical prostheses may be associated with improved survival as compared with biological prostheses. Newer mechanical and biological valve prostheses have the potential to improve outcomes following mitral valve replacement in young patients. Patients presenting for mitral valve surgery after failed transcatheter mitral valve-in-valve have high rates of postoperative mortality and morbidity, exceeding those seen with reoperative mitral valve surgery, which poses issues in young patients who have a higher cumulative incidence of reintervention.

Recent Advances in the Modification and Improvement of Bioprosthetic Heart Valves

Valvular heart disease (VHD) has become a burden and a growing public health problem in humans, causing significant morbidity and mortality worldwide. An increasing number of patients with severe VHD need to undergo heart valve replacement surgery, and artificial heart valves are in high demand. However, allogeneic valves from donors are lacking and cannot meet clinical practice needs. A mechanical heart valve can activate the coagulation pathway after contact with blood after implantation in the cardiovascular system, leading to thrombosis. Therefore, bioprosthetic heart valves (BHVs) are still a promising way to solve this problem. However, there are still challenges in the use of BHVs. For example, their longevity is still unsatisfactory due to the defects, such as thrombosis, structural valve degeneration, calcification, insufficient re-endothelialization, and the inflammatory response. Therefore, strategies and methods are needed to effectively improve the biocompatibility and longevity of BHVs. This review describes the recent research advances in BHVs and strategies to improve their biocompatibility and longevity.

Systematic review of first-in-human and early phase clinical trials for surgically implantable biological mitral valve substitutes

BACKGROUND

The aim of this review was the creation of uniform protocols to carry out and disclose First-In-Human and preliminary clinical trials of biological mitral valve replacement. The need for consistent methodology in these early trials was highlighted by the observation of significant variability in the methods and protocols used across different research.

METHODS

An extensive search through six major databases was carried out to retrieve First-In-Human (FIH) clinical studies evaluating surgically implanted bio-prostheses in the mitral position.

RESULTS

Following the PRISMA guideline, a systematic search identified 2082 published articles until March 2023. After removing duplicates (189), 1862 citations were screened, resulting in 22 eligible studies with 3332 patients for analysis. The mitral valve prostheses in these studies ranged from 21 to 37 mm, with the 29 mm size being most prevalent. Patient numbers varied, with the FIH subgroup including 31 patients and the older subgroup including 163 patients. Average study durations differed: the older subgroup lasted 4.57 years, the FIH subgroup 2.85 years, and the early phase studies spanned 8.05 years on average.

CONCLUSION

FIH clinical report is essential to assess the significance of clinical data required for a "de novo" surgical implant. In addition, understanding the performance of the device, and recognizing the difficulties associated with the innovation constitute important lessons. These insights could be beneficial for the development of bioprosthetic heart valves and formulating a protocol for an FIH clinical trial.

Mid-term outcomes of the COMMENCE trial investigating mitral valve replacement using a bioprosthesis with a novel tissue

Objective

Novel tissue leaflets (RESILIA tissue) may improve durability of bioprosthetic heart valves. The COMMENCE trial is an ongoing prospective study to evaluate valve replacement using RESILIA tissue. This report describes mid-term outcomes in the mitral cohort of COMMENCE.

Methods

Adult patients requiring mitral valve replacement were enrolled in a prospective, single-arm trial at 17 sites in the United States and Canada. An independent clinical events committee adjudicated safety events using definitions from established guidelines, and hemodynamic performance was evaluated by an independent echocardiographic core laboratory.

Results

Eighty-two patients (median age 70 years) successfully underwent mitral valve replacement with the study valve. Five-year event-free probabilities for all-cause mortality, structural valve deterioration, and reoperation were 79.9%, 98.7%, and 97.1%, respectively. Hemodynamic valve function measurements were stable through the 5-year follow-up period; valvular leaks were infrequently observed and primarily clinically insignificant/mild.

Conclusions

Mitral valve replacement patients implanted with a RESILIA tissue bioprosthesis had a good safety profile and clinically stable hemodynamic performance.

Cross-linking method using pentaepoxide for improving bovine and porcine bioprosthetic pericardia: A multiparametric assessment study

Bioprosthetic heart valves made from bovine pericardium (BP) and porcine pericardium (PP) preserved with glutaraldehyde (GA) are commonly used in valve surgeries but prone to calcification in many patients. In this study, we compared BP and PP preserved with GA, ethylene glycol diglycidyl ether (DE), and 1,2,3,4,6-penta-O-{1-[2-(glycidyloxy)ethoxy]ethyl}-d-glucopyranose (PE). We studied the stabilities of DE and PE in preservation media along with the amino acid (AA) compositions, Fourier-transform infrared spectra, mechanical properties, surface morphologies, thermal stability, calcification, and the cytocompatibility of BP and PP treated with 0.625% GA, 5% DE, 2% PE, and alternating 5% DE and 2% PE for 3 + 11 d and 10 + 10 d, respectively. Both epoxides were stable in the water-buffer solutions (pH 7.4). DE provided high linkage densities in BP and PP owing to reactions with Hyl, Lys, His, Arg, Ser, and Tyr. PE reacted weakly with these AAs but strongly with Met. High cross-linking density obtained using the 10 d + 10 d method provided satisfactory thermal stability of biomaterials. The epoxy preservations improved cytocompatibility and resistance to calcification. PE enhanced the stress/strain properties of the xenogeneic pericardia, perhaps by forming nanostructures that were clearly visualised in BP using scanning electron microscopy. The DE + PE combination, in an alternating cross-linking manner, thus constitutes a promising option for developing bioprosthetic pericardia.

Long-Term Outcomes of Mosaic Versus Perimount Mitral Replacements: 17-Year Follow-Up of 940 Implants

BACKGROUND

The objective of this study was to compare long-term outcomes of Mosaic (Medtronic, Minneapolis, MN) porcine mitral valves to Carpentier-Edwards (Edwards Lifesciences, Irving, CA) bovine pericardial mitral valves.

METHODS

From 2001 through 2017 at a single institution, 940 patients received a mitral bioprosthesis, of which 463 (49.3%) were porcine and 477 (50.7%) were bovine pericardial. Retrospective review of the procedure and the postoperative clinical course, including echocardiography, through August 2018 were analyzed. All consecutive mitral valve replacements over the study period were included. Follow-up was 99% (929 patients) complete for a total of 6045 patient-years (mean, 6.4 ± 4.5 years). A propensity-matched cohort of 802 mitral bioprosthesis was used for outcome analyses.

RESULTS

Operative mortality of the 940 patients was 5.4% (n = 51) and incidence of postoperative stroke was 2.1% (n = 20). Overall survival of the propensity-matched patients at 10 and 15 years was 49.7% (95% confidence interval [CI] 45.5%-53.7%) and 23.3% (95% CI 17.9%-29.3%), respectively. Survival at 15 years was 24.0% (95% CI 18.0%-30.5%) for porcine and 16.5% (95% CI 5.5%-32.6%) for bovine implants, which was not significantly different (P = .67). Overall cumulative incidence for reoperative structural valve deterioration at 15 years was 7.9% (95% CI 4.7%-12.3%) for porcine valves versus 13.2% (95% CI 8.1%-19.5%) for pericardial valves (P < .001). For patients age younger than 65 years, structural valve deterioration at 15 years was 15.8% (95% CI 7.4%-27.0%) versus 30.2% (95% CI 15.1%-46.8%) for porcine and pericardial valves, respectively (P = .009). Overall average time to reoperation for structural valve deterioration for porcine valves was 11.1 ± 2.3 years vs 6.8 ± 2.3 years for bovine pericardial valves (P < .001).

CONCLUSIONS

In long-term follow-up, of patients younger than 65 years of age undergoing mitral valve replacement, bovine pericardial valves experienced earlier and more frequent structural valve deterioration than porcine valves.

Midterm Clinical Outcomes of the St Jude Medical Epic Porcine Bioprosthesis in the Mitral Position

BACKGROUND

The aim of this single-center study was to report the midterm clinical outcomes and hemodynamic performance of the St Jude Medical Epic porcine bioprosthesis, a tricomposite glutaraldehyde-preserved porcine bioprosthesis, in mitral position. Methods and Results: Between January 2011 and March 2017, 117 patients (62 men, 55 women; mean age, 66.7±12.8 years) who underwent mitral valve replacement (MVR) with the Epic valve were retrospectively analyzed for early and mid-term morbidity and mortality. The mean follow-up period was 2.6±1.7 years. Three operative deaths occurred, and the operative mortality rate was 2.6%. Sixteen patients died during the follow-up period. On Kaplan-Meier analysis, freedom from all-cause death and major adverse cardiovascular and cerebrovascular events at 5-year follow-up were 80.9% and 54.8%, respectively. There were 6 reoperations: 2 for structural valve deterioration (SVD), 2 for prosthetic valve endocarditis, and 2 for thrombosis. Freedom from valve-related reoperation and SVD at 5 years were 89.0% and 93.1%, respectively. On multivariate analysis, age ≥71 years (HR, 6.78; 95% CI: 2.12-25.2, P<0.01), and NYHA functional class ≥III (HR, 3.20; 95% CI: 1.03-10.4, P=0.04) were independent predictors for all-cause death. Mean mitral pressure gradient at 1 year and 2 years were 5.1±1.9 mmHg and 4.5±1.4 mmHg, respectively.

CONCLUSIONS

Mid-term clinical results and durability of the Epic valve in the mitral position are satisfactory.