In vitro intestinal permeability of factor Xa inhibitors: influence of chemical structure on passive transport and susceptibility to efflux.

Purpose: To study the in vitro intestinal permeability of a number of newly synthesised factor Xa inhibitors to better understand the poor oral absorption of these compounds.

Methods: The bidirectional transport of the fXa inhibitors was studied in the Caco-2 cell model and isolated rat ileal tissue. An attempt was made to characterize efflux mechanisms with the help of commonly used substrates and inhibitors of various transport proteins.

Cyclodextrins in nasal drug delivery.

Nasal drug delivery is an attractive approach for the systemic delivery of high potency drugs with a low oral bioavailability due to extensive gastrointestinal breakdown and high hepatic first-pass effect. For lipophilic drugs nasal delivery is possible if they can be dissolved in the dosage form. Peptide and protein drugs often have a low nasal bioavailability because of their large size and hydrophilicity, resulting in poor transport properties across the nasal mucosa.

Nasal mucociliary clearance as a factor in nasal drug delivery.

The nasal mucociliary clearance system transports the mucus layer that covers the nasal epithelium towards the nasopharynx by ciliary beating. Its function is to protect the respiratory system from damage by inhaled substances. Impairment of nasal mucociliary clearance can result in diseases of the upper airways.

Chitosans as absorption enhancers of poorly absorbable drugs. 3: Influence of mucus on absorption enhancement.

Chitosans are potent nontoxic absorption enhancers after nasal administration but their effects on the intestinal epithelium in vivo has not been studied in detail. In this study, the effects of chitosans with varying molecular weights and degrees of acetylation on the absorption of a poorly absorbed model drug (atenolol) were studied in intestinal epithelial cell layers with or without a mucus layer and in an in situ perfusion model of rat ileum. The effects of the chitosans on epithelial morphology and release of lactate dehydrogenase (LDH) into the perfusate were investigated in the in situ model.

Chitosans as absorption enhancers for poorly absorbable drugs 2: mechanism of absorption enhancement.

Purpose: It has recently been shown that the absorption enhancing and toxic effects of chitosans are dependent on their chemical composition. In this study, the mechanisms underlying these effects were investigated at the cellular level.

Methods: The effects on epithelial cells of chitosans with different chemical composition, absorption enhancing properties and toxicities were studied in Caco-2 monolayers.

Intestinal safety of water-soluble beta-cyclodextrins in paediatric oral solutions of spironolactone: effects on human intestinal epithelial Caco-2 cells.

Effects of water-soluble beta-cyclodextrins (beta CDs) on intestinal epithelial integrity were investigated, to establish the safe use of these beta CDs as solubilizers of spironolactone in paediatric enteral solutions. Mannitol permeability and transepithelial resistance (TER) of human intestinal epithelial Caco-2 cell monolayers during exposure to dimethyl-beta-cyclodextrin (DM beta CD), hydroxypropyl-beta-cyclodextrin (HP beta CD) and sulphobutyl ether beta-cyclodextrin (SBE beta CD) were followed. Staining methods were used to discern cells with damaged membranes and to study the integrity of cytoskeletal actin and tight junctions.

Chitosans as absorption enhancers for poorly absorbable drugs. 1: Influence of molecular weight and degree of acetylation on drug transport across human intestinal epithelial (Caco-2) cells.

Purpose: Chitosan has recently been demonstrated to effectively enhance the absorption of hydrophilic drugs such as peptides and proteins across nasal and intestinal epithelia (1-3). In this study, the effect of the chemical composition and molecular weight of chitosans on epithelial permeability and toxicity was investigated using monolayers of human intestinal epithelial Caco-2 cells as a model epithelium.

Methods: Eight chitosans varying in degree of acetylation (DA) and molecular weight were studied.

Methylated beta-cyclodextrins are able to improve the nasal absorption of salmon calcitonin.

The absorption enhancing effect of methylated beta-cyclodextrins on the nasal absorption of salmon calcitonin (sCT) was studied in rats and rabbits. The nasal absorption of sCT following administration without additives was low in both species. The absorption in rats could be largely improved by coadministration of cyclodextrins as apparent from the effect on serum calcium concentrations.

Hypocalcemic effect of salmon calcitonin following single and repeated nasal and intravenous administration in young rabbits.

The effect of the polypeptide salmon calcitonin (sCT) on serum calcium concentrations following intranasal and intravenous administration was studied in young rabbits. A small, hypocalcemic effect was observed after nasal administration of sCT without additives, indicating that the nasal sCT absorption was low. The absorption could be improved by addition of an absorption-enhancing adjuvant to the nasal preparation.

Nasal administration of an ACTH(4-9) peptide analogue with dimethyl-beta-cyclodextrin as an absorption enhancer: pharmacokinetics and dynamics.

1. The systemic absorption and the neurotrophic effect of the metabolically stabilized ACTH (4-9) analogue, Org2766, were investigated following intranasal (i.n.

Nasal insulin delivery with dimethyl-beta-cyclodextrin as an absorption enhancer in rabbits: powder more effective than liquid formulations.

The nasal absorption of insulin using dimethyl-beta-cyclodextrin (DM beta CD) as an absorption enhancer in rabbits was studied. The nasal administration of insulin/DM beta CD liquid formulations did not result in significant changes in serum insulin and blood glucose concentrations. In contrast, previous experiments in rats showed that the addition of DM beta CD to the liquid nasal formulation resulted in an almost-complete insulin absorption, with a concomitant strong hypoglycaemic response.

The nasal mucociliary clearance: relevance to nasal drug delivery.

Mucociliary clearance is an important physiological defense mechanism of the respiratory tract to protect the body against noxious inhaled materials. This process is responsible for the rapid clearance of nasally administered drugs from the nasal cavity to the nasopharynx, thereby interfering with the absorption of drugs following intranasal application. This review describes the mucociliary system and the methods used for its characterization.

Absorption enhancing effect of cyclodextrins on intranasally administered insulin in rats.

The absorption enhancing effect of alpha-, beta-, and gamma-cyclodextrin (CD), dimethyl-beta-cyclodextrin (DM beta CD), and hydroxypropyl-beta-cyclodextrin (HP beta CD) on intranasally administered insulin was investigated in rats. Coadministration of 5% (w/v) DM beta CD to the insulin solution resulted in a high bioavailability, 108.9 +/- 36.