Elsabé Jones scite author profile

Drug delivery via the buccal route has emerged as a promising alternative to oral drug delivery. Didanosine (DDI) undergoes rapid degradation in the gastrointestinal tract, has a short half-life and low oral bioavailability, making DDI a suitable candidate for buccal delivery. Recent developments in buccal drug delivery show an increased interest toward nano-enabled delivery systems. The advantages of buccal drug delivery can be combined with that of nanoparticulate delivery systems to provide a superior delivery system. The aim of this study was to design and evaluate the preparation of novel nano-enabled films for buccal delivery of DDI. Solid lipid nanoparticles (SLNs) were prepared via hot homogenization followed by ultrasonication and were characterized before being incorporated into nano-enabled monolayered multipolymeric films (MMFs). Glyceryl tripalmitate with Poloxamer 188 was identified as most suitable for the preparation of DDI-loaded SLNs. SLNs with desired particle size (PS) (201 nm), polydispersity index (PDI) (0.168) and zeta potential (-18.8 mV) were incorporated into MMFs and characterized. Conventional and nano-enabled MMFs were prepared via solvent casting/evaporation using Eudragit RS100 and hydroxypropyl methylcellulose. Drug release from the nano-enabled films was found to be faster (56% versus 20% in first hour). Conventional MMFs exhibited higher mucoadhesion and mechanical strength than nano-enabled MMFs. SLNs did not adversely affect the steady state flux (71.63 ± 13.54 µg/cm(2) h versus 74.39 ± 15.95 µg/cm(2) h) thereby confirming the potential transbuccal delivery of DDI using nano-enabled MMFs. Nano-enabled buccal films for delivery of DDI can be successfully prepared, and these physico-mechanical studies serve as a platform for future formulation optimization work in this emerging field.

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α,ω‐glycols from isobutylene and some derived block copolymers

Jones¹,

Marvel²

1964

J. Polym. Sci. A Gen. Pap.

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Prophylactic anti-lipopolysaccharide freeze-dried plasma in major burns: a double blind controlled trial

Jones

1995

Burns

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Anatomical studies and five years clinical experience with the distally based medial fasciocutaneous flap of the lower leg

Jones¹,

Cronwright²,

Lalbahadur³

1993

British Journal of Plastic Surgery

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Elsabé Jones

Monolayered multipolymeric buccal films with drug and polymers of opposing solubilities for ARV therapy: Physico-mechanical evaluation and molecular mechanics modelling

In vitrocomparative evaluation of monolayered multipolymeric films embedded with didanosine-loaded solid lipid nanoparticles: a potential buccal drug delivery system for ARV therapy

α,ω‐glycols from isobutylene and some derived block copolymers

Prophylactic anti-lipopolysaccharide freeze-dried plasma in major burns: a double blind controlled trial

Anatomical studies and five years clinical experience with the distally based medial fasciocutaneous flap of the lower leg

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