ABSTRACT
Citalopram is an antidepressant used for treating major depressive disorder. In the current work Citalopram HBr is formulated as mouth dissolving film with enhanced drug dissolution. The Central Composite Design (CCD), employed to examine the effects of amount of HPMC E50 (A), amount of maltodextrin (B) and amount of glycerol (C) on response variables tensile strength, disintegration time and cumulative % drug release. 27 formulations prepared according to CCD and evaluated for physicochemical parameters and in vitro dissolution studies. Citalopram HBr mouth dissolving films formulated by employing solvent-casting method using HPMC E50, maltodextrin and glycerol, optimized for the effective dosage of superdisintegrants. The formulation CF21 with maximum tensile strength of 67.21±1.31 gm, least disintegration time of 9±1.60 sec and highest drug release of 98.41±1.81% is chosen optimal formulation with maximum content uniformity and folding endurance. It is evident from the above results that the developed formulation can be an innovative dosage form to improve the drug delivery, quick onset of action as well as improve patient compliance in the effective management of depression.
ABSTRACT
The present investigation was undertaken with an objective of formulating mouth dissolving films (MDFs) of an anti-migraine drug, Sumatriptan Succinate (SUM) to enhance convenience and compliance to the elderly and pediatric patients for better therapeutic efficacy. Film former, Hydroxy Propyl Methyl Cellulose along with film modifier/solubilizing agents, Polyvinyl pyrrolidone K30 (PVP K30) and Sodium Lauryl Sulphate (SLS) were used to formulate MDFs. The MDFs were prepared by wet film applicator technique and were evaluated for in vitro dissolution characteristics, in vitro disintegration time, and their physico-mechanical properties. MDFs with 13% (w/w) of HPMC E5 gave better dissolution properties when compared to HPMC E15. MDFs with PVP K30 and SLS gave superior dissolution properties when compared to MDFs without PVP K30 and SLS. The dissolution properties of MDFs with PVP K30 were superior when compared to MDFs with SLS. Overall, SUM MDFs showed good mechanical properties like tensile strength, folding endurance and % elongation and dissolution properties. These results suggest that the HPMC is an excellent film former which gives rapid drug release.