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  • Local drug delivery system: inhibition of inflammatory angiogenesis in a murine sponge model by dexamethasone-loaded polyurethane implants.

Local drug delivery system: inhibition of inflammatory angiogenesis in a murine sponge model by dexamethasone-loaded polyurethane implants.

Journal of pharmaceutical sciences (2011-02-02)
Sandra A L Moura, Luiza Dias C Lima, Sílvia Passos Andrade, Armando Da Silva-Cunha, Rodrigo L Órefice, Eliane Ayres, Gisele Rodrigues Da Silva
RESUMEN

Implants are defined as controlled sustained release delivery systems of therapeutic agents incorporated or dispersed into a polymeric carrier. These systems can be implanted in specific organs and delivered by the therapeutic agents at the target site to treat various pathological processes. In the present study, the effects of dexamethasone-loaded polyurethane implants [PU ACT (dexamethasone acetate) implants] on inflammatory angiogenesis in a murine sponge model were investigated. PU ACT implants were inserted into nonbiocompatible sponges, used as a framework for fibrovascular tissue growth, and implanted into subcutaneous tissue located on the back of mice. After 7 days of implantation, the implant system was collected and processed for the assessment of hemoglobin (Hb; vascular index), myeloperoxidase (MPO), and N-acetyl-β-D-glucosaminidase (NAG; inflammatory enzymes activities) and collagen content. ACT released from the polymeric implants provided a significant decrease in the neovascularization in the sponge (Hb content). PU ACT implants provided no effects on neutrophil infiltration (MPO activity) but macrophage recruitment was affected by the glucocorticoid delivered by implants (NAG activity). ACT released from implants was able to reduce the collagen deposition. The qualitative histological findings corroborated with the measured biochemical parameters. These local drug delivery systems derived from polyurethane efficiently modulated the key components of inflammation, angiogenesis, and fibrosis induced by sponge discs in an experimental animal model.

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Sigma-Aldrich
Dexamethasone 21-acetate, ≥99%
Dexamethasone 21-acetate, European Pharmacopoeia (EP) Reference Standard