Development and evaluation in vitro and in vivo of injectable hydrolipidic gels with sustained-release properties for the management of articular pathologies such as osteoarthritis.

This study aimed to evaluate glycerol monooleate (GMO) as a carrier to develop viscoelastic and injectable sustained-release drug delivery systems. The potential pro- and antioxidant activity of the developed hydrolipidic gels were evaluated by measuring the production of ROS by polymorphonuclear leukocytes (PMNs). In addition, the biocompatibility and effectiveness of two selected gel candidates were evaluated in vivo by evaluating the benefit of a single intraarticular injection of these new treatments in a model of osteoarthritis in rabbits.

Evaluation of the degradation of clonidine-loaded PLGA microspheres.

Context: The release of an encapsulated drug is dependent on diffusion and/or degradation/erosion processes.

Objective: This work aimed to better understand the degradation mechanism of clonidine-loaded microparticles.

Methods: Gel permeation chromatography was used to evaluate the degradation of the polymer.

New sustained-release intraarticular gel formulations based on monolein for local treatment of arthritic diseases.

Inflammatory osteoarthritis (OA) is characterized by painful and destructive inflammatory flares of a single joint, mainly in the back, the knees, the wrists or the hips. Monoarthritis is generally treated by intraarticular (IA) injections of corticosteroids or hyaluronic acid (HA). However, due to their toxicity, the chronic use of corticosteroids should be avoided.

Development and evaluation of sustained-release clonidine-loaded PLGA microparticles.

This work describes the encapsulation of a small, hydrophilic molecule (clonidine) into a PLGA matrix to provide sustained release over more than one month after intra-articular administration. The microparticles were prepared using a double emulsion (w(1)/o/w(2)) method followed by evaporation of the organic solvent. To optimize the efficiency of encapsulation and the mean size of the microparticles, which was targeted around 30 μm, the following parameters were modulated: the viscosity and the volume of the organic phase, the molecular weight of the polymer, the volume of the internal and external aqueous phases, the drug loading, the concentration of surfactant, and the stirring parameters.