OBJECTIVES: The purpose of this study was to evaluate the impact of a polyphenols-based treatment on the extrinsic mechanisms responsible for early bioprosthetic heart valve (BHV) degeneration. Structural degeneration can be driven by both extrinsic and intrinsic mechanisms. While intrinsic mechanisms have been associated with inherent biocompatibility characteristics of the BHV, the extrinsic ones have been reported to involve external causes, such as chemical, mechanical and hydrodynamic, responsible to facilitate graft damage. METHODS: The chemical interaction and the stability degree between polyphenols and pericardial tissue were carefully evaluated. The detoxification of glutaraldehyde in commercial BHVs models and the protective effect from in vivo calcification were taken into relevant consideration. Finally, the hydrodynamic and biomechanical features of the polyphenols-treated pericardial tissue were deeply investigated by pulse duplicator and stress-strain analysis. RESULTS: The study demonstrated the durability of the polyphenols-based treatment on pericardial tissue and the stability of the bound polyphenols. The treatment improves glutaraldehyde stabilization’s current degree, demonstrating a surprising in vivo anti-calcific effect. It is able to make the pericardial tissue more pliable while maintaining the correct hydrodynamic characteristics. CONCLUSIONS: The polyphenols treatment has proved to be a promising approach capable of acting simultaneously on several factors related to the premature degeneration of cardiac valve substitutes by extrinsic mechanisms.

Melder, R., Naso, F., Nicotra, F., Russo, L., Vesely, I., Tuladhar, S., et al. (2023). Preventing extrinsic mechanisms of bioprosthetic degeneration using polyphenols. EUROPEAN JOURNAL OF CARDIO-THORACIC SURGERY, 63(4) [10.1093/ejcts/ezac583].

Preventing extrinsic mechanisms of bioprosthetic degeneration using polyphenols

Nicotra F.;Russo L.;
2023

Abstract

OBJECTIVES: The purpose of this study was to evaluate the impact of a polyphenols-based treatment on the extrinsic mechanisms responsible for early bioprosthetic heart valve (BHV) degeneration. Structural degeneration can be driven by both extrinsic and intrinsic mechanisms. While intrinsic mechanisms have been associated with inherent biocompatibility characteristics of the BHV, the extrinsic ones have been reported to involve external causes, such as chemical, mechanical and hydrodynamic, responsible to facilitate graft damage. METHODS: The chemical interaction and the stability degree between polyphenols and pericardial tissue were carefully evaluated. The detoxification of glutaraldehyde in commercial BHVs models and the protective effect from in vivo calcification were taken into relevant consideration. Finally, the hydrodynamic and biomechanical features of the polyphenols-treated pericardial tissue were deeply investigated by pulse duplicator and stress-strain analysis. RESULTS: The study demonstrated the durability of the polyphenols-based treatment on pericardial tissue and the stability of the bound polyphenols. The treatment improves glutaraldehyde stabilization’s current degree, demonstrating a surprising in vivo anti-calcific effect. It is able to make the pericardial tissue more pliable while maintaining the correct hydrodynamic characteristics. CONCLUSIONS: The polyphenols treatment has proved to be a promising approach capable of acting simultaneously on several factors related to the premature degeneration of cardiac valve substitutes by extrinsic mechanisms.
Articolo in rivista - Articolo scientifico
Bioprosthetic heart valve degeneration; Extrinsic degenerative mechanisms; Intrinsic degenerative mechanisms; Polyphenols;
English
22-dic-2022
2023
63
4
ezac583
none
Melder, R., Naso, F., Nicotra, F., Russo, L., Vesely, I., Tuladhar, S., et al. (2023). Preventing extrinsic mechanisms of bioprosthetic degeneration using polyphenols. EUROPEAN JOURNAL OF CARDIO-THORACIC SURGERY, 63(4) [10.1093/ejcts/ezac583].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/428402
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