Fabrication, optimization, and evaluation of lyophilized lacidipine-loaded fatty-based nanovesicles as orally fast disintegrating sponge delivery system.

Lacidipine (LCD) is a potent antihypertensive agent. Fatty-based nanovesicles (FNVs) were designed to improve LCD low solubility and bioavailability. LCD-FNVs were formulated according to different proportions of cetyl alcohol, cremophor®RH40, and oleic acid adopting Box-Behnken Design. The optimized LCD-FNVs, composed of cetyl alcohol 48.4 mg, cremophor®RH40 120 mg, and oleic acid 40 mg, showed minimum vesicle size (124.8 nm), maximum entrapment efficiency % (91.04 %) and zeta potential (-36.3 mV). The optimized FNVs were then used to formulate the lyophilized orally fast-disintegrating sponge (LY-OFDS). The LY-OFDS had a very short disintegration time (58 sec), remarkably high % drug release (100 % after 15 mins), and increased the drug transbuccal permeation by over 9.5-fold compared to the drug suspension. In-vivo evaluation of antihypertensive activity in rats showed that the LY-OFDS reduced blood pressure immediately after 5 min and reached normal blood pressure 4.5-fold faster than the marketed oral tablets. In the In-vivo pharmacokinetic study in rabbits, the LY-OFDS showed 4.7-fold higher bioavailability compared with the marketed oral tablet. In conclusion, the LY-OFDS loaded with LCD-FNVs is a safe, and non-invasive approach that can deliver LCD effectively to the blood circulation via the buccal mucosa giving superior immediate capabilities of lowering high blood pressure and increasing the drug bioavailability.

A novel oral medicated jelly for enhancement of etilefrine hydrochloride bioavailability: In vitro characterization and pharmacokinetic evaluation in healthy human volunteers.

Etilefrine hydrochloride (ET) is a water-soluble drug that is used to treat hypotension, but it has a bitter taste and low bioavailability due to undergoing the first-pass effect. Thus, this study aimed to develop and evaluate oral medicated jelly (OMJ) containing ET that could offer an easily taken palatable dosage form with higher bioavailability. OMJ is a novel palatable drug delivery system that can easily be taken by pediatric and geriatric patients, as well as those with dysphagia. Moreover, OMJs offer rapid disintegration in saliva and rapid drug absorption through the buccal mucosa, avoiding the first-pass effect and increasing the drug bioavailability. Natural polymers such as pectin, guar gum, xanthan gum, tragacanth gum, and sodium alginate were used as jellifying agents, with the addition of calcium chloride as a crosslinking agent, to prepare OMJs using the heat and congealing method. The prepared OMJs were investigated by testing their viscosity, in vitro release, and texture analysis of firmness, consistency, stickiness, cohesiveness, springiness, gumminess, and chewiness using a texture analyzer. A full factorial design (21 × 51) was utilized to select the optimized OMJ. The optimized OMJ (J2), containing 4 % pectin, had a 7563 ± 55 cps viscosity, 8.32 ± 0.21 N firmness, 5.72 ± 0.18 µJ consistency, 1.30 ± 0.04 mJ stickiness, and 96.02 ± 3.74 % ET dissolved after 10 min. ET release was significantly increased (greater than4-fold) from the optimized OMJ compared with the market tablet. Moreover, the obtained results clarified the stability and the acceptable palatability of the optimized OMJ. The clinical investigation on healthy human volunteers revealed that the optimized OMJ (J2) had significantly higher Cmax (1.7 folds) when compared with the market tablet with a relative bioavailability of 154.55 %. Therefore, OMJs can be considered as promising, palatable, and easily swallowed dosage form that could enhance the bioavailability of drugs undergoing the first-pass effect.

Design and development of novel lipid based gastroretentive delivery system: response surface analysis, in-vivo imaging and pharmacokinetic study.

Famotidine HCl has low bioavailability (40-45%) due to its narrow absorption window and low solubility in intestinal pH. Lipids were utilized in the formulation of novel gastroretentive dosage forms to increase the availability of famotidine HCl at its absorption site. Novel non-swellable gastroretentive lipid disks (D) and swellable compression coated tablets with a lipid core (T) were prepared. Formulae were characterized by friability testing, in-vitro buoyancy, in-vitro drug release and scanning electron microscopy (SEM). Factorial designs of 2(2 )× 3(1) and 3(2) were planned for the optimization of disks and tablets, respectively, using Design-Expert® software. X-ray imaging was used for the in-vivo visualization of the selected formula in human gastrointestinal tract (GIT). Moreover, a bioavailability study was performed in healthy human volunteers using the optimized disk formula (D10). Results showed that formulae D10 (containing stearyl alcohol and polyethylene glycol in a ratio of 9:1 w/w) and T7 (containing polyethylene oxide only) had highest desirability values (0.684 and 0.842, respectively). Lipids achieved instantaneous floating and sustained the release of famotidine HCl over a prolonged period of time with significant bioavailability enhancement.