PEG 4000

Depressive Disorder medications are pharmacological agents that are used to treat Major Depressive Disorder disease. The intention of the present study is to design and characterization of fast dissolving buccal films of Paroxetin.  Films were prepared by using different polymers like HPMC E15, PVA, PVP and Glycerol as plasticizer and saccharin as a sweetening agent and vanillin as a flavoring agent. Buccal films were prepared using solvent casting technique. The major problem with Paroxetine was it belongs to class ? in BCS classification and have low solubility in biological fluids. In order to enhance the solubility of Paroxetine solid dispersion of Paroxetine   were prepared by melting technique at different drug carrier (PEG 4000) weight ratios and evaluated. No interaction was found between the drug and the polymers which was obtained by FTIR studies. The buccal films were evaluated for Folding endurance, weight variation, Drug content, Thickness, permeation study and in-vitro drug release study. Dissolution profile were studied by using USP dissolution apparatus type I, pH 6.8 simulated saliva were used as dissolution media. The influence of variable like polymer type, and their concentration, on Paroxetine release profile was studied. The formulation was optimized on the basis of various evaluation parameters like drug content and In-vitro drug release. Formulation F3 successfully gave the fast release of drug within 12 minutes. Stability studies were as per ICH guide lines and result indicated that the selected formulation was stable.

In the present study, Solid Dispersion of Propranolol Hydrochloride were prepared using solvent evaporation technique using PEG 4000, PVP K-30 and PVA. However absolute bioavailability of Propranololo Hydrochloride is about 30% . To increase the solubility, solid dispersion was prepared. Preliminary solubility analysis was carried out for the selection of carriers and solid dispersion was prepared with PVA, PEG 4000, PVP-K30. These solid dispersions were analyzed for the solubility and In-vitro dissolution profile, solid dispersion of drug with PEG 4000 had shown enhanced solubility with improved dissolution rate. Further FTIR, DSC, SEM studies were carried out. Solid dispersion prepared with PEG 4000 shows the presence of amorphous form confirmed by the characterization study .The study also shows that dissolution rate of Propranolol Hydrochloride can be enhanced to considerable extent by solid dispersion technique with PEG 4000.

There is a vast interest in the scientific community and drug industry to exploit various mucosal routes of delivering drugs, which are poorly absorbed after oral administration. Human rectum remains to be a relatively unexplored route of drug delivery despite its potential as a non- invasive route of drug administration. The presence of dense network of blood vessels has made the rectum an excellent route of drug delivery for both systemic and local effect. The present investigation was aimed to evaluating the possibility of using different surfactant i.e. Span 60 and 80, Tween 60 and 80 on the release rate of formulation for the development of rectal drug delivery system of paracetamol, an NSAIDs, to minimize the gastric irritation of the drug upon oral administration. Suppositories were formulated by fusion method & evaluated for their physicochemical characterization followed by in vitro evaluation through spectrophotometrically. Suppositories containing PEG 4000 with Tween 80 showed a better permeation of drug with faster dissolution rate in vitro than other formulations. The formulations were designed to overcome the risk of upper gastrointestinal complications such as stomach bleeding, and may cause kidney or liver damage. Suppositories are dosage forms for use in the unavoidable circumstances such as comatose, nauseous or vomiting.

The purpose of this research work was to prepare an extended release formulation of metoprolol succinate using Ion exchange resin. Metoprolol succinate has short half life of 3-7 hours. So it needs to be administered 3-4 times a day. Hence an extended release preparation is desired. Drug-resin complex (DRC) was obtained by loading metoprolol succinate onto a strong cation exchange resin, Indion 244 in the ratio 1.5:1 using batch method. The molecular properties of the complex were investigated by differential scanning calorimetry, X-ray powder diffraction and Infra red spectroscopy which revealed interaction of drug with resin. To achieve the desired release rate, the DRC was initially treated with an impregnating agent, polyethylene glycol (PEG) 4000 and was further treated with hydrophobic polymer ethyl cellulose. Various formulations of tablets using resinate were prepared to achieve desired drug release profile. The formulations were evaluated for hardness, friability, weight variation, in vitro release and assay using HPLC. Formulation (V) shows optimum results in terms of release profile, which were in accordance with the USP specifications. The in vitro release profile showed that complexation of drug with ion exchange resin and use of hydrophobic polymer matrix could retard the initial burst and extend the release of drug up to 24 hours.

  Solid dispersion is a widely accepted technique for enhancing the dissolution rate of poorly soluble BCS class II drugs. In the present study starch phosphate- a new modified starch, PVP and PEG 4000 were evaluated as a carriers in solid dispersions for enhancing the dissolution rate and efficiency of nimesulide, a BCS class II drug. Their individual and combined (interaction) effects in enhancing the dissolution rate and dissolution efficiency of nimesulide were evaluated in a 23- factorial study. Among the individual effects PEG 4000 gave highest enhancement in the dissolution rate of nimesulide (14.23 fold), followed by starch phosphate (11.34 fold). Addition of PVP and PEG 4000 to the solid dispersions in starch phosphate has further enhanced the dissolution rate upto 75.70 fold and dissolution efficiency upto 26.67 fold.   Key words: Solid dispersions, Nimesulide, Starch Phosphate, PVP, PEG 4000, Factorial Study.