Hyaluronic acid hydrogels reinforced with laser spun bioactive glass micro- and nanofibres doped with lithium
Riveiro Rodríguez, Antonio; Amorim, Sara; Solanki, Anu; Costa, Diana S; Pires, Ricardo A; Quintero Martínez, Félix; Del Val Garcia, Jesús; Comesaña Piñeiro, Rafael; Badaoui Fernández, Aida; Lusquiños Rodríguez, Fernando; Maçon, Anthony L. B; Tallia, Francesca; Jones, Julian Raymond; Reis, Rui L; Pou Saracho, Juan María
DATE:
2021-07
UNIVERSAL IDENTIFIER: http://hdl.handle.net/11093/6167
EDITED VERSION: https://linkinghub.elsevier.com/retrieve/pii/S0928493121002630
UNESCO SUBJECT: 3312.99 Otras
DOCUMENT TYPE: article
ABSTRACT
The repair of articular cartilage lesions in weight-bearing joints remains as a significant challenge due to the low regenerative capacity of this tissue. Hydrogels are candidates to repair lesions as they have similar properties to cartilage extracellular matrix but they are unable to meet the mechanical and biological requirements for a successful outcome. Here, we reinforce hyaluronic acid (HA) hydrogels with 13-93-lithium bioactive glass micro- and nanofibres produced by laser spinning. The glass fibres are a reinforcement filler and a platform for the delivery of therapeutic lithium-ions. The elastic modulus of the composites is more than three times higher than in HA hydrogels. Modelling of the reinforcement corroborates the experimental results. ATDC5 chondrogenic cells seeded on the composites are viable and more proliferation occurs on the hydrogels containing fibres than in HA hydrogels alone. Furthermore, the chondrogenic behavior on HA constructs with fibres containing lithium is more marked than in hydrogels with no-lithium fibres.
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