Bernard F. McDonald scite author profile

The purpose of this study was to develop a novel multipaticulate drug delivery technology suitable for the delivery of pre-solubilized celecoxib to the gastrointestinal tract and more specifically to the colon. The solubility of celecoxib in a range of oils, surfactants and co-solvents was evaluated. Celecoxib was solubilized in mixtures of these vehicles to produce liquid formulations. The in vitro dissolution of these liquid formulations was assessed and the data obtained was used to design microbead formulations containing celecoxib dissolved within an emulsion/micellar solution core. Microbead formulations were optimized to increase drug loading, avoid precipitation and to achieve good in vitro dissolution performance. An optimized formulation with a celecoxib loading of 6% w/w was produced and yielded an in vitro dissolution result of 80% over 6 h. The structure of these microbead formulations was characterized using light microscopy to reveal a correlation between droplet size and dissolution performance.

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In-vitro characterisation of a novel celecoxib microbead formulation for the treatment and prevention of colorectal cancer

McDonald

Quinn

Devers

et al. 2015

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Bernard F. McDonald

Characterisation of excipient-free nanoporous microparticles (NPMPs) of bendroflumethiazide

Excipient-free nanoporous microparticles of budesonide for pulmonary delivery

Microbeads: a novel multiparticulate drug delivery technology for increasing the solubility and dissolution of celecoxib

In-vitro characterisation of a novel celecoxib microbead formulation for the treatment and prevention of colorectal cancer

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