Buccal transmucosal delivery of large molecule therapeutics using orally disintegrating tablet technology

Iyire, Affiong (2016). Buccal transmucosal delivery of large molecule therapeutics using orally disintegrating tablet technology. PHD thesis, Aston University.

Abstract

Buccal drug delivery combines the advantage of enhanced patient acceptance/ compliance of oral delivery, with overcoming drug degradation and poor absorption in the gastro intestinal tract (GIT), especially for large molecule therapeutics, such as insulin. Orally disintegrating tablets (ODTs) that dissolve rapidly in the mouth, are gaining widespread popularity, especially with extreme populations, including children and the elderly. This project unifies the advantages of buccal drug delivery with that of ODTs, with the view to developing a non-invasive delivery system for proteins like insulin. This work was carried out in three parallel streams: A Quality by Design (QbD) based characterisation of excipients to identify and predict multi-functional behaviours as binder/ disintegrant/ mucoadhesive agent in ODT formulations; the investigation of a cost effective and easily reproducible cell culture based in vitro method for assessment of buccal delivery; and protein characterisation followed by an in vitro investigation of the effect of basic and acidic amino acids on the solubility, permeability, mechanism and transport route of insulin through TR146 buccal cell culture layers as safe and effective alternative permeation enhancers for proteins. D-mannitol based tablets containing 7% low-substituted hydroxypropyl cellulose (LHPC) with 1.3 % Polyox™ polymers compacted at 30 kN were able to maintain high mechanical properties with fast disaggregation of tablets and mucoadhesive properties. Addition of 1.2 to 1.5 mM Ca2+ to cell culture media was found to increase culture stratification, forming a tighter barrier to paracellular transport of macromolecules, to mimic in vivo barriers. Amino acids were able to significantly enhance insulin solubility in water, and exhibited a concentration-dependent enhancement of insulin permeability (over 400% enhancement) in vitro. Interestingly, results revealed that insulin was transported by an active transcellular process, probably provided by the presence of insulin receptors and amino acid nutrient transporters on the cell membrane. This result obtained for insulin is the first indication of a possible amino acid mediated transport of insulin via formation of insulin-amino acid neutral complexes by ion pairing.

Divisions: Life & Health Sciences > Pharmacy
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Institution: Aston University
Uncontrolled Keywords: buccal drug delivery,insulin,amino acid,facilitated transport,ion pairs,permeability
Completed Date: 2016-11-07
Authors: Iyire, Affiong

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