Assessment of a Siloxane Poly(urethane‐urea) Elastomer Designed for Implantable Heart Valve Leaflets

Autor: David W. Grainger, Robert H. Grubbs, Pathiraja A. Gunatillake, Simon J. McCarthy, James Runt, Jason G. Beith, Christopher R. Jenney, Millson Peter
Rok vydání: 2020
Předmět:
Zdroj: Advanced NanoBiomed Research, Vol 1, Iss 2, Pp n/a-n/a (2021)
ISSN: 2699-9307
Popis: Synthetic polymer leaflets in prosthetic cardiac valves hold the potential to reduce calcification and thrombus, while improving blood flow, durability, and device economics. A recently developed siloxane poly(urethane‐urea) (LifePolymer™, LP) exhibits properties essential for heart valve leaflets, including low dynamic modulus, high tensile strength, minimal creep, and excellent biostability. LP properties result from carefully designed “linked co‐macrodiol” chemistry that maximizes silicone content and virtual crosslinks between soft and hard phases. Characterization of multiple commercial batches demonstrates a robust synthesis process with minimal variation. Extensive ISO 10993‐based biocompatibility testing resulted in no observable toxicity or other adverse reactions. An ex vivo AV shunt thrombogenicity investigation revealed nearly undetectable levels of platelet attachment and thrombus formation on LP surfaces. Chronic ovine implantation of prototype heart valves with LP leaflets showed no differences in thrombogenicity or systemic tissue response when compared to a clinically standard tissue‐based valve. Toxicological risk assessment, based on extractables and leachables analysis of LP‐based heart valves, confirmed minimal toxicological risk. Lastly, 24‐week, strain‐accelerated in vivo LP biostability testing confirmed previous favorable in vitro biostability findings. These studies demonstrate that this newly developed elastomer exhibits ideal biomaterial properties for the flexible leaflets of a totally synthetic heart valve replacement.
Databáze: OpenAIRE
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