Encapsulation and sustained release from biodegradable microcapsules made by emulsification/freeze drying and spray/freeze drying

Drug content in PLA microcapsules versus the amount of a plasticizing solvent used for closing pores in hollow PLA shell wall. Hollow biodegradable poly( dl-lactide) (PLA) particles with porous shell walls were prepared by freeze drying small droplets of PLA solution formed by emulsification or spra...

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Veröffentlicht in:	Journal of colloid and interface science 2009-08, Vol.336 (1), p.155-161
Hauptverfasser:	Yin, Weisi, Yates, M.Z.
Format:	Artikel
Sprache:	eng
Schlagworte:	Anesthetics, Local - chemistry Capsules - chemistry Carbon Dioxide - chemistry Chemistry Coaxial spray Colloidal state and disperse state Diffusion Drug Compounding - methods Drug release Emulsification Emulsifying Agents Exact sciences and technology Freeze Drying General and physical chemistry Methylene Chloride - chemistry Microencapsulation Plasticizers - chemistry Poly( dl-lactide) Polyesters - chemistry Porosity Porous materials Porous particles Procaine - chemistry Procaine hydrochloride Solvents - chemistry Surface physical chemistry Time Factors
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container_title	Journal of colloid and interface science
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creator	Yin, Weisi Yates, M.Z.
description	Drug content in PLA microcapsules versus the amount of a plasticizing solvent used for closing pores in hollow PLA shell wall. Hollow biodegradable poly( dl-lactide) (PLA) particles with porous shell walls were prepared by freeze drying small droplets of PLA solution formed by emulsification or spraying. The hollow freeze-dried particles were dispersed in water, and the resulting aqueous suspensions were exposed to plasticizing solvents, either dichloromethane or compressed carbon dioxide. The plasticizing solvent causes the pores in the shell wall to close, forming microcapsules surrounding an aqueous core. A water soluble drug, procaine hydrochloride, was successfully encapsulated in the microcapsule core. The encapsulation efficiency is affected by the hollow particle morphology, amount of solvent used, solvent exposure time, surfactant, and method of dispersing the freeze-dried particles in water. The encapsulation process is explained in terms of interfacial free energy of the hollow particles and mobility of the plasticized polymer. Controlled release of procaine hydrochloride from the microcapsules into phosphate buffer solution was observed. The microcapsules had a small burst release, with the remainder of encapsulated drug slowly released over 9 days. The novel hollow PLA particles produced by emulsification/freeze drying and spray/freeze drying can potentially be used as vehicles for controlled release.
doi_str_mv	10.1016/j.jcis.2009.03.065
format	Article
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Controlled release of procaine hydrochloride from the microcapsules into phosphate buffer solution was observed. The microcapsules had a small burst release, with the remainder of encapsulated drug slowly released over 9 days. 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Hollow biodegradable poly( dl-lactide) (PLA) particles with porous shell walls were prepared by freeze drying small droplets of PLA solution formed by emulsification or spraying. The hollow freeze-dried particles were dispersed in water, and the resulting aqueous suspensions were exposed to plasticizing solvents, either dichloromethane or compressed carbon dioxide. The plasticizing solvent causes the pores in the shell wall to close, forming microcapsules surrounding an aqueous core. A water soluble drug, procaine hydrochloride, was successfully encapsulated in the microcapsule core. The encapsulation efficiency is affected by the hollow particle morphology, amount of solvent used, solvent exposure time, surfactant, and method of dispersing the freeze-dried particles in water. The encapsulation process is explained in terms of interfacial free energy of the hollow particles and mobility of the plasticized polymer. Controlled release of procaine hydrochloride from the microcapsules into phosphate buffer solution was observed. The microcapsules had a small burst release, with the remainder of encapsulated drug slowly released over 9 days. 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source	MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects	Anesthetics, Local - chemistry Capsules - chemistry Carbon Dioxide - chemistry Chemistry Coaxial spray Colloidal state and disperse state Diffusion Drug Compounding - methods Drug release Emulsification Emulsifying Agents Exact sciences and technology Freeze Drying General and physical chemistry Methylene Chloride - chemistry Microencapsulation Plasticizers - chemistry Poly( dl-lactide) Polyesters - chemistry Porosity Porous materials Porous particles Procaine - chemistry Procaine hydrochloride Solvents - chemistry Surface physical chemistry Time Factors
title	Encapsulation and sustained release from biodegradable microcapsules made by emulsification/freeze drying and spray/freeze drying
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