Release behavior and intra-articular biocompatibility of celecoxib-loaded acetyl-capped PCLA-PEG-PCLA thermogels
Petit, Audrey; Sandker, Marjan; Müller, Benno; Meyboom, Ronald; van Midwoud, Paul; Bruin, Peter; Redout, Everaldo M; Versluijs-Helder, Marjan; van der Lest, Chris H A; Buwalda, Sytze J; de Leede, Leo G J; Vermonden, Tina; Kok, Robbert Jan; Weinans, Harrie; Hennink, Wim E
(2014) Biomaterials, volume 35, issue 27, pp. 7919 - 7928
(Article)
Abstract
In this study, we investigated the in vitro and in vivo properties and performance of a celecoxib-loaded hydrogel based on a fully acetyl-capped PCLA-PEG-PCLA triblock copolymer. Blends of different compositions of celocoxib, a drug used for pain management in osteoarthritis, and the acetyl-capped PCLA-PEG-PCLA triblock copolymer were mixed with buffer
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to yield temperature-responsive gelling systems. These systems containing up to 50 mg celecoxib/g gel, were sols at room temperature and converted into immobile gels at 37 °C. In vitro, release of celecoxib started after a ∼10-day lag phase followed by a sustained release of ∼90 days. The release was proven to be mediated by polymer dissolution from the gels. In vivo (subcutaneous injection in rats) experiments showed an initial celecoxib release of ∼30% during the first 3 days followed by a sustained release of celecoxib for 4-8 weeks. The absence of a lag phase and the faster release seen in vivo were likely due to the enhanced celecoxib solubility in biological fluids and active degradation of the gel by macrophages. Finally, intra-articular biocompatibility of the 50 mg/g celecoxib-loaded gel was demonstrated using μCT-scanning and histology, where no cartilage or bone changes were observed following injection into the knee joints of healthy rats. In conclusion, this study shows that celecoxib-loaded acetyl-capped PCLA-PEG-PCLA hydrogels form a safe drug delivery platform for sustained intra-articular release.
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Keywords: Temperature-responsive gelling hydrogel, PCLA-PEG-PCLA, In vitro release, Pharmacokinetics, Celecoxib, Biocompatibility, Biomaterials, Bioengineering, Ceramics and Composites, Mechanics of Materials, Biophysics
ISSN: 0142-9612
Publisher: Elsevier Ltd
Note: Copyright © 2014 Elsevier Ltd. All rights reserved.
(Peer reviewed)
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