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J Pharm Sci


Title:Preparation and characterization of a customized cellulose acetate butyrate dispersion for controlled drug delivery
Author(s):Vaithiyalingam S; Nutan M; Reddy I; Khan M;
Address:"Department of Pharmaceutical Sciences, School of Pharmacy, Texas Tech University Health Sciences Center, Amarillo 79106, USA"
Journal Title:J Pharm Sci
Year:2002
Volume:91
Issue:6
Page Number:1512 - 1522
DOI: 10.1002/jps.10155
ISSN/ISBN:0022-3549 (Print) 0022-3549 (Linking)
Abstract:"The purpose of the present experiment was to prepare and characterize the aqueous-based pseudolatex system of cellulose acetate butyrate (CAB) for controlled drug delivery. Aqueous pseudolatex systems are advantageous over organic-based coating systems because these systems are devoid of criteria pollutants such as carbon monoxide, nitrogen oxides, nonmethane volatile organic compounds, and sulfur dioxide. Pseudolatex was prepared with CAB and polyvinyl alcohol (stabilizer) by a polymer emulsification technique. The stability of pseudolatex was evaluated. Particle size was measured and rheological experiments were conducted. The glass transition temperature, microscopic free volume, permeation coefficient, and mechanical properties of plasticized pseudolatex films were estimated. Surface roughness of coating on inert Nu-Pareil beads (Ingredient Technology Corp., Mahwah, NJ) was measured as a function of coating weight gain. The CAB Pseudolatex was found to be stabilized by steric forces. From intrinsic viscosity, the thickness of the stabilization layer was estimated. An increase in polymeric particles proportionately decreased the thickness of the stabilization layer. All the essential properties of a coating membrane such as microscopic free-volume fraction, permeability coefficient, mechanical properties, and glass transition temperature were fairly controllable as a function of plasticizer concentration. The pseudolatex dispersion of CAB was stable with negligible sedimentation volume and a particle size of 300 nm. Because CAB is water insoluble and non-ionizable, this pseudolatex can be used for pH-independent coating. The films obtained were strong and flexible for controlled drug delivery applications. Coating with the CAB dispersion reduced the surface roughness of beads but it remained stable as a function of increase in coating weight gain"
Keywords:Cellulose/*administration & dosage/*analogs & derivatives Diffusion *Drug Delivery Systems Drug Stability Electrons Particle Size Viscosity;
Notes:"MedlineVaithiyalingam, Siva Nutan, Mohammad Reddy, Indra Khan, Mansoor eng Research Support, Non-U.S. Gov't 2002/07/13 J Pharm Sci. 2002 Jun; 91(6):1512-22. doi: 10.1002/jps.10155"

 
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