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Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_9 | Pages 80 - 80
17 Apr 2023
Azizova L Morgan D Rowlands J Brousseau E Kulik T Palianytsia B Mansell J Birchall J Wilkinson T Sloan A Ayre W
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Preventing infections in joint replacements is a major ongoing challenge, with limited effective clinical technologies currently available for uncemented knee and hip prostheses. This research aims to develop a coating for titanium implants, consisting of a supported lipid bilayer (SLB) encapsulating an antimicrobial agent. The SLB will be robustly tethered to the titanium using self-assembled monolayers (SAMs) of octadecylphosphonic acid (ODPA). The chosen antimicrobial is Novobiocin, a coumarin-derived antibiotic known to be effective against resistant strains of Staphylococcus aureus.

ODPA SAMs were deposited on TiO2-coated quartz crystal microbalance (QCM) sensors using two environmentally friendly non-polar solvents (anisole and cyclopentyl methyl ether, CPME), two concentrations of ODPA (0.5mM and 1mM) and two processing temperatures (21°C and 60°C). QCM, water contact angle measurements, X-ray photoelectron spectroscopy (XPS), atomic force microscopy (AFM) and temperature-programmed desorption mass spectrometry (TPD-MS) were used to characterise the ODPA SAM. A SLB with encapsulated Novobiocin was subsequently developed on the surface of the ODPA SAM using fluorescent lipids and a solvent assisted method. The prototype implant surface was tested for antimicrobial activity against S. aureus.

A well-ordered, uniform ODPA SAM was rapidly formed using 0.5 mM ODPA in CPME at 21°C during 10 min, as confirmed by high Sauerbrey mass (≍285-290 ng/cm2), high atomic percentage phosphorus (detected using XPS) and high water contact angles (117.6±2.5°). QCM measurements combined with fluorescence microscopy provided evidence of complete planar lipid bilayer formation on the titanium surface using a solvent assisted method. Incorporation of Novobiocin into the SLB resulted in reduced attachment and viability of S. aureus.

Key parameters were established for the rapid, robust and uniform formation of an ODPA SAM on titanium (solvent, temperature and concentration). This allowed the successful formation of an antimicrobial SLB, which demonstrated potential for reducing attachment and viability of pathogens associated with joint replacement infections.


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_2 | Pages 9 - 9
1 Mar 2021
Egan B Mason D Heard C Birchall J
Full Access

Abstract

OBJECTIVES

Osteoarthritis therapies are limited to symptom management and joint replacement. AMPA/kainate glutamate receptor (GluR) antagonists (NBQX/DNQX, 2.5–20mM) alleviate symptoms and disease in rodent models of osteoarthritis. We hypothesised that poly(lactic-co-glycolic) acid (PLGA) nanoparticles and thermoresponsive hydrogels sustain GluR antagonist release to improve their efficacy in an humanised 3D bone model of inflammation.

METHODS

Drug release in PBS (37 °C) was measured by HPLC of samples taken from 2.5mM NBQX/DNQX loaded PLGA nanoparticles (double emulsion) and thermosetting hydrogels (homogenised Pluronic-F127 (22%/25% w/v) and Carbopol 934 (0.5% w/v) with 2.5mM NBQX/DNQX in dH2O)(n=3). Y201 MSCs were cultured in 3D in rat tail collagen type I gels and exposed to IL-6/sIL-6r (5/40ng/ml), free NBQX (200μM) or NBQX loaded PLGA nanoparticles for 24 and 72hrs. Bone turnover, inflammatory and glutamate signalling markers were quantified by immunoassay and RTqPCR. Data analysed using t-test/ANOVA with Tukeys and principal component analysis (PCA)(SPSS).


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_16 | Pages 90 - 90
1 Nov 2018
Egan B Heard C Birchall J Mason D
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The AMPA/kainate glutamate receptor (GluR) antagonist NBQX reduced bone destruction when injected intra-articularly, in rat antigen induced arthritis (AIA) and is similarly protective in rodent models of osteoarthritis. NBQX reduced bone turnover in vivo and reduced mineralization in human primary osteoblasts (HOBs) in vitro. We are developing sustained release GluR antagonist delivery methods, to improve therapeutic effect. DNQX loaded Poly(lactic-co-glycolic acid) (PLGA) nanoparticles were synthesized via double emulsion. DNQX loaded thermosetting hydrogels were synthesised by dissolving Pluronic-F127 (22% w/v) and Carbopol 934 (0.5% w/v) in dH2O, homogenising with DNQX/NBQX and set in dialysis cassettes at 37˚C. Supernatants from nanoparticles and hydrogels suspended in PBS (37˚C) were analysed using high performance liquid chromatography to determine drug release. Y201 MSCs were differentiated to osteoblasts (DMEM+10% FBS, Dexamethasone, β-Glycerophosphate and Ascorbic acid-2-phosphate) in sustained presence/absence of NBQX (200µM) or DNQX (200 and 400µM). Alizarin red staining quantified mineralisation at 14 days. Nanoparticles encapsulated 2.5mM DNQX (encapsulation efficiency=22%) and released encapsulated drug over 4 weeks. Hydrogels released 2.5mM DNQX load over 24 hours in 37˚C PBS. Y201 alizarin red staining was significantly reduced by both DNQX (p<0.01) and NBQX (p<0.05), compared to untreated controls. PLGA nanoparticles and hydrogels revealed different sustained release profiles. Sustained treatment with GluR antagonists reduced mineralisation in Y201 derived osteoblasts, consistent with effects of NBQX in HOBs. Sustained release of NBQX and DNQX in nanoparticles and hydrogels may improve efficacy of AMPA/kainate GluR antagonists in reducing bone remodelling and enhancing their bone protective potential in the treatment of joint disease.