Thioether-Functionalized Cellulose for the Fabrication of Oxidation-Responsive Biomaterial Coatings and Films

Biomaterial coatings and films can prevent premature failure and enhance the performance of chronically implanted medical devices. However, current hydrophilic polymer coatings and films have significant drawbacks, including swelling and delamination. To address these issues, hydroxyethyl cellulose...

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Veröffentlicht in:Advanced healthcare materials 2024-11, p.e2403021
Hauptverfasser: DuBois, Eric M, Herrema, Kate E, Simkulet, Matthew G, Hassan, Laboni F, O'Connor, Payton R, Sen, Riya, O'Shea, Timothy M
Format: Artikel
Sprache:eng
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Zusammenfassung:Biomaterial coatings and films can prevent premature failure and enhance the performance of chronically implanted medical devices. However, current hydrophilic polymer coatings and films have significant drawbacks, including swelling and delamination. To address these issues, hydroxyethyl cellulose is modified with thioether groups to generate an oxidation-responsive polymer, HEC . HEC readily dissolves in green solvents and can be fabricated as coatings or films with tunable thicknesses. HEC coatings effectively scavenge hydrogen peroxide, resulting in the conversion of thioether groups to sulfoxide groups on the polymer chain. Oxidation-driven, hydrophobic-to-hydrophilic transitions that are isolated to the surface of HEC coatings under physiologically relevant conditions increase wettability, decrease stiffness, and reduce protein adsorption to generate a non-fouling interface with minimal coating delamination or swelling. HEC can be used in diverse optical applications and permits oxidation-responsive, controlled drug release. HEC films are non-resorbable in vivo and evoke minimal foreign body responses. These results highlight the versatility of HEC and support its incorporation into chronically implanted medical devices.
ISSN:2192-2659
2192-2659
DOI:10.1002/adhm.202403021