Different tablet dosage forms were prepared to be administered for patients with dysphagia (swallowing difficulties) like buccal, sublingual and orodispersible tablets, however, they possesses certain constrains like taste masking difficulties, limitations in drug and dose selection and friability. Hence, in an attempt to overcome these constrains, a new easily swallowed immediate release tablets containing (160mg) Valsartan were prepared, and designed to be slippery upon contact with saliva giving an easy swallowing of the intact tablet (without water) with efficient taste masking effect, thus, they called Oroslippery tablets (OSTs). Core tablets were prepared by direct compression using different superdisintegrants, followed by dipping in special coating dispersion containing different proportion of kollicoat IR (film former) and xanthan gum (slipperiness inducer) at different coating levels. These OSTs were optimized for their physical properties, in-vitro disintegration and release in addition to in-vivo slipperiness and taste masking effect. It was found that F12 containing 6% crosscarmellose sodium double coated with 15% kollicoat IR and 0.3% xanthan gum possessed a good mechanical strength (hardness=5.69±0.58 Kg/cm 2 , friability=0.09%±0.79), suitable in-vivo slipperiness and taste masking times (8±1.45 and 58±2.18 seconds) respectively, with longer disintegration time (5.57±1.36 minutes) but similar release profile to the commercial conventional tablet Diovan ® with similarity factor (f2= 68.4±1.07) and difference factor (f1= 1.39± 0.95). Therefore, this study developed a new easily swallowed tablet with an efficient taste masking property, high loading capacity and adequate mechanical strength that can be used as an alternative to buccal, sublingual and orodispersible tablets.
Objective: Oral nanoemulsion (NE) represent one of the newest technology to enhance intestinal drug permeability, bioavailability and facilitate swallowing of the oral dosage form.Methods: In this study, montelukast sodium (MS) nanoemulsions (NEs) were formulated by ultra-sonication using different surfactants (tween 20, tween 60 and tween 80) in different surfactant: co-surfactant (ethanol) ratios (Smix). The prepared NEs were evaluated for different parameters including droplet size (DS) using zetasizer as a function of ultra-sonication time, dispersibility, phase separation, conductivity, percent transmittance, optical transparency, in vitro release in addition to morphology using transmission electron microscopic (TEM).Results: The results revealed that F3 was the optimum formula having an average DS 32.95±2.8 nm after 5 min ultra-sonication assured by zetasizer and TEM, furthermore, a clear to bluish NE was formed after aqueous dilution with high conductivity (59.2±1.76 μs/cm) which indicated the formation of O/W NE. In addition, an optically clear NE was formed with (88.6±2.1) % transmittance with no sedimentation, creaming or separation after centrifugation signifying the formation of a stable NE. Finally, F3 showed faster dissolution rate (92.45%±1.66) after 30 min compared to other formulas.Conclusion: The net result of this study is the formulation of a stable oral NE containing MS which presents new easily swallowed dosage form that may enhance drug permeability as well as it may reduce drug metabolism leading to improving bioavailability for asthmatic patients.
Solubility can be defined as the amount of solute dissolved in a solvent at certain conditions to yield a single-phase system. Solubility of active pharmaceutical ingredients is considered the main parameter to get the most desired drug concentration in general circulation in order to achieve the desired therapeutic effect. Poor aqueous solubility considered the main problem occurs in the formulation progress of new chemical entities; in addition to the standard improvement; solubility is the main dispute for formulation scientists. The drug must appear as solution at the site of absorption in order to be absorbed. Many physical or chemical modification techniques are used to improve the solubility of low aqueous soluble drugs, in addition to other techniques such as particle size reduction, crystal engineering, salt formation, solid dispersion, use of surfactant and complexation. The selection of the solubility improvement methods depends on drug characteristics, location of absorption and the features of the administered dosage form.
Objective: Oral drug delivery is the most desired route for drug administration for its well-known features. Therefore, many attempts were implemented to improve the poor solubility of many active ingredients in order to enhance their dissolution and absorption via the oral route. From these, the liquisolid system is a very promising technology for enhancing solubility and bioavailability of poorly soluble drugs.Methods: In this research, oral capsules of cefixime were prepared by liquisolid technique after mixing different concentrations of the drug with propylene glycol (non-volatile solvent), followed by their addition to different proportions of microcrystalline cellulose and aerosil i.e. different carrier: coating (R-value). The liquisolid capsules were evaluated for In vitro disintegration and dissolution in addition to content uniformity and weight variations. Furthermore, solubility studies, scanning electron microscope (SEM) were performed to the optimum formula. Finally, the release profile of the optimum formula was compared with the marketed cefixime capsules.Results: Liquisolid formula (F3) with 70% cefixime and R-value equals 10 was selected as the optimum formula having higher % release in 45 min (99.5%±0.53) compared to other formulas with faster release rate in the first 20 min than marketed capsules. It had an acceptable disintegration time (25 min±0.76), content uniformity (197.6±0.92) and weight variation (698.04±0.16). Results of solubility study, SEM assured enhancement in solubility and dispersibility of the drug.Conclusion: This research proved that liquisolid system is a promising technology in improving the solubility and dissolution of cefixime from its capsules and hence it may improve its absorption and oral bioavailability.
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