Litcius/Paper detail

Bioprosthetic heart valve structural degeneration associated with metabolic syndrome: Mitigation with polyoxazoline modification

Alexey Abramov, Yingfei Xue, Andrey Zakharchenko, Mangesh Kurade, Rajesh K. Soni, Robert J. Levy, Giovanni Ferrari

2022Proceedings of the National Academy of Sciences13 citationsDOIOpen Access PDF

Abstract

Bioprosthetic heart valves (BHV), made from glutaraldehyde-fixed xenografts, are widely used for surgical and transcatheter valve interventions but suffer from limited durability due to structural valve degeneration (SVD). We focused on metabolic syndrome (MetS), a risk factor for SVD and a highly prevalent phenotype in patients affected by valvular heart disease with a well-recognized cluster of comorbidities. Multicenter patient data (N = 251) revealed that patients with MetS were at significantly higher risk of accelerated SVD and required BHV replacement sooner. Using a next-generation proteomics approach, we identified significantly differential proteomes from leaflets of explanted BHV from MetS and non-MetS patients (N = 24). Given the significance of protein infiltration in MetS-induced SVD, we then demonstrated the protective effects of polyoxazoline modification of BHV leaflets to mitigate MetS-induced BHV biomaterial degeneration (calcification, tissue cross-linking, and microstructural changes) in an ex vivo serum model and an in vivo with MetS rat subcutaneous implants.

Topics & Concepts

MedicineMetabolic syndromeHeart valveDegeneration (medical)Ex vivoCalcificationInternal medicineCardiologyPathologyIn vivoBioinformaticsDiabetes mellitusEndocrinologyBiologyBiotechnologyCardiac Valve Diseases and TreatmentsCardiovascular Function and Risk FactorsInfective Endocarditis Diagnosis and Management