Article - Release of Cytarabine from Biodegradable Poly(γ-benzyl L-glutamate)/Poly(ethylene oxide)/Poly(γ-benzyl L-glutamate)Block Copolymer Microsphere
- Cho CS, Park JW, Kwom JK, Jo BW, Lee KC, Kim KY, Sung YK
- 생체분해성 Poly(γ-benzyl L-glutamate)/Poly(ethylene oxide)/Poly(γ-benzyl L-glutamate) 블록 공중합체 미립자에서 Cytarabine의 약물방출
- 조종수, 박정웅, 권중근, 조병욱, 이강춘, 김계용, 성용길
Abstract
GEG block copolymers consisting of poly(γ-benzyl L-glutamate) as the A component and poly(ethylene oxide) as the B component were investigated as drug delivery matrix. PBLG homopolymer and GEG block copolymer microspheres containing anticancer drug. cytarabine were prepared by a solvent evaporation process and the release patterns of cytarabine from the microspheres were investigated in vitro. The size of PBSG homopolymer and GEG block copolymer microspheres was ranged from 0.3 to 1 μm in diameter and the shape of the microspheres was almost round. The release pattern of cytarabine from the block copolymer microsphere was dependent on the hydrophilicity of the block copolymers. The more hydrophilic of the block copolymers, the faster release rate of cytarabine from the microspheres.
소수성 poly(γ-benzyl L-glutamate)와 친수성 poly(ethylene oxide)의 ABA형 블록 공중합체 (GEG)를 의약전달 matrix로 연구하였다. 항암제인 cytarabine을 함유한 PBLG동종중합체와 GEG블록 공중합체의 미립자가 용매 증발법(solvent evaporation method)에 의하여 제조되었고, 그들로부터 cytarabine의 방출실험이 행해졌다. 중합체들의 미립자 크기는 직경이 0.3에서 1μm의 크기로서 대체로 원형을 나타냈다. 블록 공중합체에서의 cytarabine의 방출거동은 블록 공중합체의 친수성인 폴리에칠렌옥사이드의 함량에 의존되었고, 친수성이 커질수록 방출량은 증가되었다.
소수성 poly(γ-benzyl L-glutamate)와 친수성 poly(ethylene oxide)의 ABA형 블록 공중합체 (GEG)를 의약전달 matrix로 연구하였다. 항암제인 cytarabine을 함유한 PBLG동종중합체와 GEG블록 공중합체의 미립자가 용매 증발법(solvent evaporation method)에 의하여 제조되었고, 그들로부터 cytarabine의 방출실험이 행해졌다. 중합체들의 미립자 크기는 직경이 0.3에서 1μm의 크기로서 대체로 원형을 나타냈다. 블록 공중합체에서의 cytarabine의 방출거동은 블록 공중합체의 친수성인 폴리에칠렌옥사이드의 함량에 의존되었고, 친수성이 커질수록 방출량은 증가되었다.
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This Article
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1991; 15(1): 27-33
Published online Feb 25, 1991
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