Kaisri Umprayn scite author profile

The purpose of this study was to investigate the effects of vehicles, enhancers, and polymer membranes on 3'-azido-3'-deoxythymidine (AZT) permeation across cadaver pig skin. Four binary vehicles (ethanol/water, isopropyl alcohol/water, polyethylene glycol 400/water, and ethanol/isopropyl myristate [IPM]) were tested for AZT solubility and permeability across pig skin; ethanol/IPM (50/50, vol/vol) demonstrated the highest AZT flux (185.23 microg/cm2/h). Next, the addition of various concentrations of different enhancers (N-methyl-2-pyrrolidone [NMP], oleic acid, and lauric acid) to different volume ratios of ethanol/IPM was investigated for their effect on AZT solubility and permeability across pig skin. The use of 2 combinations (ethanol/IPM [20/80] plus 10% NMP and ethanol/IPM [30/70] plus 10% NMP) resulted in increased AZT solubility (42.6 and 56.27 mg/mL, respectively) and also high AZT flux values (284.92 and 460.34 microg/cm2/h, respectively) without appreciable changes in lag times (6.25 and 7.49 hours, respectively) when compared with formulations using only ethanol/IPM at 20/80 and 30/70 volume ratios without addition of the enhancer NMP. Finally, AZT permeation across pig skin covered with a microporous polyethylene (PE) membrane was investigated. The addition of the PE membrane to the pig skin reduced AZT flux values to 50% of that seen with pig skin alone. However, the AZT flux value attained with ethanol/IPM (30/70) plus 10% NMP was 215.31 microg/cm2/h, which was greater than the target flux (208 mug/cm2/h) needed to maintain the steady-state plasma concentration in humans. The results obtained from this study will be helpful in the development of an AZT transdermal drug delivery system.

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Development of parenteral formulations of experimental cytotoxic agents. I. Rhizoxin (NSC-332598)

Stella

Umprayn

Waugh

1988

International Journal of Pharmaceutics

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Development of Terbutaline Sulfate Sustained-Release Coated Pellets

Umprayn

Chitropas

Amarekajorn³

1999

Drug Development and Industrial Pharmacy

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Sustained-release coated pellets containing terbutaline sulfate (TS) 1.8% w/w were prepared. The suitable core formulation that gave round-shape TS pellets was preformulated and was composed of microcrystalline cellulose:lactose 38.61%:57.92%, hydroxypropyl cellulose (HPC-M) 1.67%, and water 40%, respectively. The core pellets containing active drug were coated with various amounts of ethylcellulose (EC) and a combination of EC/HPC-M polymers. The effects of fluidized bed polymeric film coats on drug release were studied in vitro. The dissolution characteristics were also investigated. The release of the active drug decreased as the amount of EC increased. This may be due to water-insoluble EC film, leading to decreased permeability in water. In the case of the combination of EC/HPC-M, the release of the active drug increased as the amount of HPC-M in the coating solution increased. Since HPC-M is a water-soluble polymer, it may be suggested that formation of pores were increased in the coating layer. Among five coating formulas in this study, formulation 1 (F1) (at 1.1% EC concentration) shows a similar dissolution profile to Bricanyl Durules; however, lag time for the release occurred. In conclusion, the formulation that gave an insignificant release profile (p < .01) when compared with commercial product was the capsule containing F1 (at 1.1% EC concentration) mixed with uncoated pellets at a ratio of 7:1, and the release was found to be reproducible.

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Hygroscopicity and Moisture Adsorption Kinetics of Pharmaceutical Solids: A Review

Umprayn¹,

Mendes²

1987

Drug Development and Industrial Pharmacy

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Influence of Process Variables on Physical Properties of the Pellets Using Extruder and Spheronizer

Umprayn

Chitropas

Amarekajorn³

1999

Drug Development and Industrial Pharmacy

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Placebo pellets containing lactose and microcrystalline cellulose (Avicel PH101) ratio 60:40 were prepared by the extrusion-spheronization process. The influence of processing variables, including the spheronizer speed, the spheronization time, the binder type, and the concentration and amount of water content on physical properties of the pellets, were studied. The sphericity of pellets was increased with increasing spheronizer speed during wet mass process. When spheronization time was increased, sphericity, smooth surface, and particle size of pellets were increased. Increasing binder concentration will increase particle size. Pellets using HPC-M as a binder at high spheronizer speeds showed spherical shape, narrow size distribution, and good flow properties when compared with Methocel E-15LV, HPC-L, and Methocel A4M. In addition, increasing HPC-M concentration had no effect on shape and particle size of pellets. The amount of water content was found to affect shape, flow rate, and density. In summary, suitable conditions consisted of 2% w/w of HPC-M, 40% w/w of water, and 15 min of spheronization time at 951 rpm of spheronizer speed.

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Kaisri Umprayn

Transdermal delivery of zidovudine (AZT): The effects of vehicles, enhancers, and polymer membranes on permeation across cadaver pig skin

Development of parenteral formulations of experimental cytotoxic agents. I. Rhizoxin (NSC-332598)

Development of Terbutaline Sulfate Sustained-Release Coated Pellets

Hygroscopicity and Moisture Adsorption Kinetics of Pharmaceutical Solids: A Review

Influence of Process Variables on Physical Properties of the Pellets Using Extruder and Spheronizer

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