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1.
AAPS PharmSciTech ; 10(3): 951-9, 2009.
Article in English | MEDLINE | ID: mdl-19629707

ABSTRACT

The purpose of this work was to design and optimize a novel vaginal drug delivery system for more effective treatment against vaginal candidiasis. Itraconazole was formulated in bioadhesive film formulations that could be retained in the vagina for prolonged intervals. The polymeric films were prepared by solvent evaporation and optimized for various physicodynamic and aesthetic properties. In addition, percentage drug retained on vaginal mucosa was evaluated using a simulated dynamic vaginal system as function of time. A polymeric film containing 100 mg itraconazole per unit (2.5 cm x 2.5 cm) have been developed using generally regarded as safe listed excipients. The pH of vaginal film was found to be slightly acidic (4.90 +/- 0.04) in simulated vaginal fluid and alkaline (7.04 +/- 0.07) in water. The little moisture content (7.66 +/- 0.51% w/w) was present in the film, which helps them to remain stable and kept them from being completely dry and brittle. The mechanical properties, tensile strength, and percentage elongation at break (9.64 N/mm(2) and 67.56% for ITRF(65)) reveal that the formulations were found to be soft and tough. The films (ITRF(65)) contained solid dispersion of itraconazole (2.5)/hydroxypropyl cellulose (1)/polyethylene glycol 400 (0.5), which was found to be the optimal composition for a novel bioadhesive vaginal formulation, as they showed good peelability, relatively good swelling index, and moderate tensile strength and retained vaginal mucosa up to 8 h. Also, the film did not markedly affect normal vaginal flora (lactobacillus) and was noncytotoxic as indicated by the negligible decrease in cell viability.


Subject(s)
Antifungal Agents/administration & dosage , Itraconazole/administration & dosage , Adhesives , Administration, Intravaginal , Algorithms , Antifungal Agents/chemistry , Antifungal Agents/pharmacokinetics , Calorimetry, Differential Scanning , Cell Survival/drug effects , Chemistry, Pharmaceutical , Drug Design , Excipients , HeLa Cells , Humans , Humidity , Itraconazole/chemistry , Itraconazole/pharmacokinetics , Lactobacillus/drug effects , Particle Size , Tensile Strength
2.
AAPS PharmSciTech ; 10(2): 459-67, 2009.
Article in English | MEDLINE | ID: mdl-19381827

ABSTRACT

In the present work, sustained release gastroretentive minimatrices of amoxicillin have been designed and optimized using central composite design. Effect of amount of xanthan gum, rate controlling polymers (HPMC K100M CR/PEO coagulant (1:1)), carbopol 974P, and gas generating couple (sodium bicarbonate/citric acid (3:1)) was studied on dependent (response) variables, i.e., buoyancy lag time, drug release at 1 h, time required for 95% drug release, swelling index, and bioadhesive strength. Minimatrices were prepared by non aqueous granulation method using solution of PVP K30 in isopropyl alcohol. All the formulations were found to contain 99.2% to 100.9% of amoxicillin per minimatrix. Optimum formulation (Formulation number AGT09) containing high level of the independent variables was having buoyancy lag time of 7 min and drug release at 1 h was 32.5%. It required 9.39 h for 95% drug release while swelling index and bioadhesive strength were 341 and 17.9 dyn/cm(2), respectively. This formulation was said to be optimum because it has minimum buoyancy lag time, requires maximum time for 95% drug release, and has higher bioadhesive capabilities. In vitro results of an optimized formulation indicate its sustained drug release and gastric retention capability, which may be very useful for effective treatment of H. pylori infection.


Subject(s)
Amoxicillin/administration & dosage , Anti-Bacterial Agents/administration & dosage , Gastric Mucosa/metabolism , Helicobacter Infections/drug therapy , Helicobacter pylori , Amoxicillin/chemistry , Amoxicillin/pharmacokinetics , Animals , Delayed-Action Preparations , Goats , Polysaccharides, Bacterial/administration & dosage , Solubility
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