H. J. Park scite author profile

The aim of this study was to investigate the effect of alginate microparticles coated with three kinds of chitosans of different molecular weights on the survival of Lactobacillus bulgaricus KFRI 673 in simulated gastric (SGJ) and intestinal juices (SIJ) and on their stability during storage at 4 and 22 degrees C. L. bulgaricus KFRI 673 loaded in alginate microparticles was prepared by spraying the mixture of sodium alginate and cell culture into the calcium chloride solution using an air-atomizing device. When L. bulgaricus KFRI 673 was exposed to SGJ of pH 2.0 for 60 min, none of the microorganism survived. Contrary to this result, microbiological analysis indicated that microencapsulation in alginate microparticles improved the survival of acid-sensitive L. bulgaricus KFRI 673 in SGJ and that high molecular weight chitosan coating resulted in the highest survival in SGJ. To study storage stability of free and microencapsulated cells, in vitro studies were conducted at 4 and 22 degrees C during a 4 week period. Both free and microencapsulated cells showed similar stabilities during 4 weeks of storage at 4 degrees C. However, the stability of Lactobacillus at 22 degrees C was appreciably improved when loaded in high molecular weight chitosan-coated alginate microparticles. In conclusion, microencapsulation of lactic acid bacteria with alginate and chitosan coating offers an effective way of delivering viable bacterial cells to the colon and maintaining their survival during refrigerated storage.

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Genetic association study of adiponectin polymorphisms with risk of Type 2 diabetes mellitus in Korean population

Lee

Cho

et al. 2005

Diabetic Medicine

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Preparation and release characteristics of polymer-coated and blended alginate microspheres

Lee

Hwang

Park

et al. 2003

Journal of Microencapsulation

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To prevent a rapid drug release from alginate microspheres in simulated intestinal media, alginate microspheres were coated or blended with polymers. Three polymers were selected and evaluated such as HPMC, Eudragit RS 30D and chitosan, as both coating materials and additive polymers for controlling the drug release. This study focused on the release characteristics of polymer-coated and blended alginate microspheres, varying the type of polymer and its concentration. The alginate microspheres were prepared by dropping the mixture of drug and sodium alginate into CaCl(2) solution using a spray-gun. Polymer-coated microspheres were prepared by adding alginate microspheres into polymer solution with mild stirring. Polymer-blended microspheres were prepared by dropping the mixture of drug, sodium alginate and additive polymer with plasticizer into CaCl(2) solution. In vitro release test was carried out to investigate the release profiles in 500 ml of phosphate buffered saline (PBS, pH 7.4). As the amount of polymer in sodium alginate or coating solution increase, the drug release generally decreased. HPMC-blended microspheres swelled but withstood the disintegration, showing an ideal linear release profiles. Chitosan-coated microspheres showed smooth and round surface and extended the release of drug. In comparison with chitosan-coated microspheres, HPMC-blended alginate microspheres can be easily made and used for controlled drug delivery systems due to convenient process and controlled drug release.

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H. J. Park

Survival of Freeze-DriedLactobacillus bulgaricusKFRI 673 in Chitosan-Coated Calcium Alginate Microparticles

Genetic association study of adiponectin polymorphisms with risk of Type 2 diabetes mellitus in Korean population

Preparation and release characteristics of polymer-coated and blended alginate microspheres

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