Production and characterization of alginate-starch-chitosan microparticles containing stigmasterol through the external ionic gelation technique

Fujiwara, Gislene Mari; Campos, Ranieri; Costa, Camila Klocker; Dias, Josiane de Fátima Gaspari; Miguel, Obdulio Gomes; Miguel, Marilis Dallarmi; Marques, Francisco de Assis; Zanin, Sandra Maria Warumby

Fujiwara, Gislene Mari; Campos, Ranieri; Costa, Camila Klocker; Dias, Josiane de Fátima Gaspari; Miguel, Obdulio Gomes; Miguel, Marilis Dallarmi; Marques, Francisco de Assis; Zanin, Sandra Maria Warumby.

Fujiwara, Gislene Mari; Federal University of Paraná. Department of Pharmacy. Curitiba. BR
Campos, Ranieri; Federal University of Paraná. Department of Pharmacy. Curitiba. BR
Costa, Camila Klocker; Federal University of Paraná. Department of Pharmacy. Curitiba. BR
Dias, Josiane de Fátima Gaspari; Federal University of Paraná. Department of Pharmacy. Curitiba. BR
Miguel, Obdulio Gomes; Federal University of Paraná. Department of Pharmacy. Curitiba. BR
Miguel, Marilis Dallarmi; Federal University of Paraná. Department of Pharmacy. Curitiba. BR
Marques, Francisco de Assis; Federal University of Paraná. Department of Pharmacy. Curitiba. BR
Zanin, Sandra Maria Warumby; Federal University of Paraná. Department of Pharmacy. Curitiba. BR

Braz. j. pharm. sci ; 49(3): 537-547, July-Sept. 2013. ilus

Article in English | LILACS | ID: lil-689907

ABSTRACT
RESUMO

ABSTRACT

Stigmasterol - a plant sterol with several pharmacological activities - is susceptible to oxidation when exposed to air, a process enhanced by heat and humidity. In this context, microencapsulation is a way of preventing oxidation, allowing stigmasterol to be incorporated into various pharmaceutical forms while increasing its absorption. Microparticles were obtained using a blend of polymers of sodium alginate, starch and chitosan as the coating material through a one-stage process using the external gelation technique. Resultant microparticles were spherical, averaging 1.4 mm in size. Encapsulation efficiency was 90.42% and method yield 94.87%. The amount of stigmasterol in the oil recovered from microparticles was 9.97 mg/g. This technique proved feasible for the microencapsulation of stigmasterol.

RESUMO

O estigmasterol, um fitoesterol com diversas atividades farmacológicas, é suscetível à oxidação quando exposto ao ar, calor e umidade. Neste contexto, a microencapsulação é uma forma de proteção contra oxidação, permitindo a incorporação do estigmasterol em diversas formas farmacêuticas e aumentar sua absorção. As micropartículas foram obtidas por gelificação iônica externa, em uma etapa, utilizando como revestimento polímeros naturais de alginato de sódio, amido de milho e quitosana. As micropartículas apresentaram formato esférico com tamanho aproximado de 1,4 mm. O rendimento foi de 94,87% e a eficiência média de encapsulação de 90,42%. A quantidade de estigmasterol no óleo recuperado das micropartículas foi de 9,97 mg/g. O método mostrou-se viável para a microencapsulação do estigmasterol.

Subject(s)

Stigmasterol/analysis; Alginates/classification; Gelling Agents; Starch; Chitosan; Drug Compounding/classification; /classification

Alginato de sódio; Amido; Chitosan; Estigmasterol; Microencapsulamento; Microencapsulation; Natural polymers; Polímeros naturais; Quitosana; Sodium alginate; Starch; Stigmasterol

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Full text: Available Index: LILACS (Americas) Main subject: Stigmasterol / Alginates / Gelling Agents Language: English Journal: Braz. j. pharm. sci Year: 2013 Type: Article Affiliation country: Brazil Institution/Affiliation country: Federal University of Paraná/BR

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