Design and characterization of biopolymer-based core–shell particles for sustained release of adenosine in tissue regeneration

Bernardes, Beatriz G.; Sousa, Clara; Sellitto, Maria Rosaria; Iglesias-Mejuto, Ana; Gaudio, Pasquale del; Costa, Raquel; García-González, Carlos A.; Oliveira, Ana Leite

http://hdl.handle.net/10400.14/56814

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Autores

Bernardes, Beatriz G.

Sousa, Clara

Sellitto, Maria Rosaria

Iglesias-Mejuto, Ana

Gaudio, Pasquale del

Costa, Raquel

García-González, Carlos A.

Oliveira, Ana Leite

Resumo(s)

The treatment of chronic wounds remains a formidable challenge in regenerative medicine, necessitating multifunctional biomaterials capable of modulating inflammation, promoting angiogenesis, and enabling sustained drug delivery [1]. This study presents a novel class of core–shell aerogel particles engineered from silk fibroin (SF), silk sericin (SS), and alginate (ALG), designed for the controlled release of adenosine (ADO)—a nucleoside with anti-inflammatory and pro-regenerative properties [2]. Using coaxial prilling and supercritical CO? drying, two architectures were fabricated: SF/ALG cores enveloped by ALG or ALG/SS shells.

URI

http://hdl.handle.net/10400.14/56814

Citação

Bernardes, B. G., Sousa, C., Sellitto, M. R., & Iglesias-Mejuto, A. et al. (2026). Design and characterization of biopolymer-based core–shell particles for sustained release of adenosine in tissue regeneration. 1-1. Poster session presented at 5ª Jornada de IBEROS+, Santiago de Compostela, Spain.

DOI

10.34632/6a2ea2da-ae80-432e-b6d2-2e9f3eadfc2b

Coleções

CBQF - Documentos de Conferências / Conference Objects

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