Nasal solutions of Salbutamol Sulphate were prepared for sustaining its release and improving its bioavailability. Carbopol was used as a key ingredient to effect pH induced sol to gel conversion of the formulations. Different formulations were prepared by varying the concentrations of Carbopol 934 and Hydroxyl Propyl Methyl Cellulose. These formulations were evaluated for parameters like pH, drug content, viscosity, gel strength and drug release. Release profile of some formulations showed rapid phase while some showed slow phase. At extreme low concentrations of the polymers, the formulations drained out due to poor viscosity while at higher concentrations of the same the formulations formed stiff gel and showed slow release of drug. Finally optimized formulation with specific concentrations of carbopol 934 and Hydroxyl Propyl Methyl Cellulose showed pH induced sol-gel conversion, sustained release and higher bioavailability
The purpose of the present study was to explore the passive and electrically assisted transdermal transport of diphenhydramine hydrochloride (DPH) by iontophoresis. For better bioavailability, better patient compliance, and enhanced delivery of DPH, an iontophoretic drug delivery system of a thermosensitive DPH gel was formulated using Lutrol F-127. The study was conducted using silver-silver chloride electrodes across hairless pig skin. The effects of pH, polymer concentration, electrode design, and pulse rate on the DPH permeation were investigated. The relationship between temperature, viscosity, and conductance of DPH was correlated using conductometry. Iontophoretic transport of DPH was found to increase with a decrease in the pH of the medium and an increase in the surface area of the electrode. Viscosity measurements and flux calculations indicated the suitability of the Lutrol gel for transdermal iontophoretic delivery of DPH. Anodal pulsed iontophoresis with disc electrode significantly increased the DPH skin permeation as compared with the passive controls.
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