Thermosensitive Injectable Hydrogels for Intra-Articular Delivery of Etanercept for the Treatment of Osteoarthritis.
Jomarien García-CouceTimo SchomannChih Kit ChungIvo QueCarla Jorquera-CorderoGastón FuentesAmisel AlmirallAlan ChanLuis J CruzPublished in: Gels (Basel, Switzerland) (2022)
The intra-articular administration of drugs has attracted great interest in recent decades for the treatment of osteoarthritis. The use of modified drugs has also attracted interest in recent years because their intra-articular administration has demonstrated encouraging results. The objective of this work was to prepare injectable-thermosensitive hydrogels for the intra-articular administration of Etanercept (ETA), an inhibitor of tumor necrosis factor-α. Hydrogels were prepared from the physical mixture of chitosan and Pluronic F127 with β-glycerolphosphate (BGP). Adding β-glycerolphosphate to the system reduced the gelation time and also modified the morphology of the resulting material. In vitro studies were carried out to determine the cytocompatibility of the prepared hydrogels for the human chondrocyte line C28/I2. The in vitro release study showed that the incorporation of BGP into the system markedly modified the release of ETA. In the in vivo studies, it was verified that the hydrogels remained inside the implantation site in the joint until the end of the study. Furthermore, ETA was highly concentrated in the blood of the study mice 48 h after the loaded material was injected. Histological investigation of osteoarthritic knees showed that the material promotes cartilage recovery in osteoarthritic mice. The results demonstrate the potential of ETA-loaded injectable hydrogels for the localized treatment of joints.
Keyphrases
- drug delivery
- hyaluronic acid
- tissue engineering
- rheumatoid arthritis
- wound healing
- extracellular matrix
- drug release
- cancer therapy
- endothelial cells
- mental health
- systemic lupus erythematosus
- combination therapy
- rheumatoid arthritis patients
- skeletal muscle
- disease activity
- insulin resistance
- induced pluripotent stem cells