• 제목/요약/키워드: poly(L-lactide-to-glycolide)

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Non-isothermal Crystallization Behavior of Poly(glycolide-co-ε-caprolactone-co-L-lactide) Block Copolymer (생체분해성 Poly(glycolide-co-ε-caprolactone-co-L-lactide) 블록 공중합물의 비등온 결정화 거동에 관한 연구)

  • Choi, Sei-Young;Song, Seung-Ho
    • Elastomers and Composites
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    • v.49 no.1
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    • pp.13-23
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    • 2014
  • In this work, glycolide, L-lactide and ${\varepsilon}$-caprolactone monomers were polymerized into the triblock copolymers by two step polymerization method and their non-isothermal crystallization behaviors were studied by combination of modified Avrami and Ozawa formula for further analysis of their behaviors. The result showed that PGCLA21 gave the highest value for supercooling analysis and super cooling degree increased with L-lactide content. Crystallization velocity constant, however, showed no significant change. The result of cooling function in specific relative crystallization degree showed that the increase of L-lactide content made an effect on the more enhancement of crystallization velocity of the PGCLA than PGCL. The result of big logF(T) value with the L-lactide content above critical point for PGCLA41 and PGCLA21 showed that bigger cooling velocity needed to gain same crystal size compared with PGCL. This means that it gives negative effect in the increase of crystallization velocity.

Synthesis of Poly(DL-lactide-co-glycolide) Copolymers and Its Application (I). Release Characteristics of Clonazepam Using Poly(DL-lactide-co-glycolide) (80:20) Copolymers (Poly(DL-lactide-co-glycolide) 공중합체의 합성과 그 응용 (I). Poly(DL-lactide-co-glycolide)(80:20) 공중합체를 이용한 Clonazepam의 방출특성)

  • Nah, Jae Woon;Lee, Dong Byung;Cho, Chong Su;Jeong, Young Il;Kim, Sung Ho;Kim, Sung Hyun
    • Journal of the Korean Chemical Society
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    • v.42 no.1
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    • pp.92-98
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    • 1998
  • Poly(DL-lactide-co-glycolide) (80:20) was synthesized from DL-lactide and glycolide, and the copolymers was made to micelles containing clonazepam for drug delivery system. The release experiments of the drug from micelles were operated at pH 7.4 phosphate buffer solution $37.0{\pm}0.05^{\circ}C$. The linearly-releasing time ranges of the drug from micelles prepared with the copolymer/drug weight ratio of 20:40, 20:20, and 40:20 (mg) were 50, 41, and 29 days, respectively. So the linearly-releasing time of drug showed the order of micelles 20/40 > micelles 20/20 > micelles 40/20. In short, the formulation allows polymeric micelles to suppress the burst effect of the drug release mechanism, which led to the controlled release pattern and the possibility of drug delivery system for veinous injection.

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poly(D,L-lactide-co-glycolide) nanoparticles제조와 약물방출 거동 및 생분해도

  • Yu, Jeong-Jun;Jeong, Yeong-Il;O, Dong-Seok;Im, Gyun-Taek
    • 한국생물공학회:학술대회논문집
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    • 2000.04a
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    • pp.550-553
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    • 2000
  • The polymeric matrices made with poly(D,L-lactide-co-glycolide) were prepared using copolymer of poly(D,L-lactide) and poly(ethylene glycol) for application of drug delivery systems. Catalyst made use of stannous actoate. Particle size were differ greatly$(435.3{\pm}11.2{\sim}2284.1{\pm}188.5)$ that nanoparticle made use of according to solvent of various kinds. Polymer could a sharp distinction with copolymerized among LE-1, LE-2 and LE-3 of PLA and PEG of content that to examine $^1H-NMR$ of copolymer make refine and reprecipitation. Drug delivery effect at PLGA nanoparticle : PLA amount more then proved highly drug delivery amount that each LE-1, LE-2, LE-3, drug and solvent was 40mg, 20mg and 10mg. Drug delivery effect proved higher 20mg that change(10mg, 20mg, 40mg) at drug feeding amount with LE-2. The first a lot of drug proved delivery. LE-3 most lactide content proved much delivery since biodegradable on PLGA copolymer result from lactide. Also biodegradable rate was highest at LE-3 much of lactide content, because influence at biodegradable effect of lactide by inclusive of soft PEG.

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Core-shell Poly(D,L-lactide-co-glycolide )/Poly(ethyl 2-cyanoacrylate) Microparticles with Doxorubicin to Reduce Initial Burst Release

  • Lee, Sang-Hyuk;Baek, Hyon-Ho;Kim, Jung-Hyun;Choi, Sung--Wook
    • Macromolecular Research
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    • v.17 no.12
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    • pp.1010-1014
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    • 2009
  • Monodispersed microparticles with a poly(D,L-lactide-co-glycolide) (PLGA) core and a poly(ethyl 2-cyanoacrylate) (PE2CA) shell were prepared by Shirasu porous glass (SPG) membrane emulsification to reduce the initial burst release of doxorubicin (DOX). Solution mixtures with different weight ratios of PLGA polymer and E2CA monomer were permeated under pressure through an SPG membrane with $1.9\;{\mu}m$ pore size into a continuous water phase with sodium lauryl sulfate as a surfactant. Core-shell structured microparticles were formed by the mechanism of anionic interfacial polymerization of E2CA and precipitation of both polymers. The average diameter of the resulting microparticles with various PLGA:E2CA ratios ranged from 1.42 to $2.73\;{\mu}m$. The morphology and core-shell structure of the microparticles were observed by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The DOX release profiles revealed that the microparticles with an equivalent PLGA:E2CA weight ratio of 1:1 exhibited the optimal condition to reduce the initial burst of DOX. The initial release rate of DOX was dependent on the PLGA:E2CA ratio, and was minimized at a 1:1 ratio.

Characteristics of Nifedipine Loaded PLGA Wafer (니페디핀을 함유한 생분해성 PLGA 웨이퍼의 제조와 특성분석)

  • 서선아;최학수;이동헌;강길선;이해방
    • Polymer(Korea)
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    • v.25 no.6
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    • pp.884-892
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    • 2001
  • Biodegradable wafers were prepared with poly (L-lactide-co-glycolide) (50 : 50 mole ratio of lactide to glycolide, molecular weight:5000 g/mole) by direct compression method for the sustained release of nifedipine to investigate the possibility of the treatment of hypertension. PLGA wafers were prepared by altering initial drug/polymer loading ratio, wafer thickness, and hydroxypropyl methylcellulose (HPMC) content. These wafers showed new zero-order release patterns for 11 days, and various biphasic release patterns could be obtained by altering the composition of wafers such as addition of matrix binder as HPMC to the PLGA wafer to reduce release rate of initial phase. The onset of polymer mass loss only occured after 4 days and about 40% of mass loss was observed after 11 days nifedipine release. This system had advantages in terms of simplicity in design and obviousness of drug release rate and may be useful as an implantable dosage form.

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Assessment of Biodegradability of Polymeric Microspheres in vivo: Poly(DL-lactic acid), poly(L-lactic acid) and poly(DL-lactide-co-glycolid) microspheres

  • Oh, In-Joon;Oh, Jhin-Yee;Lee, Kang-Choon
    • Archives of Pharmacal Research
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    • v.16 no.4
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    • pp.312-317
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    • 1993
  • To confirm a new evaluation tedhnique for biodegradability of biopolymer microsphers in vivo condition, magnetic microsphere sytem was adopted for tracing the microspheres injected and lodged in micr. Microsphers of poly(DL-lactic acid), poly(L-alctic acid) and poly(DL-lactide-coglycolide)(PLGA) were prepared by solvent-extraction method and their organ distribution and biodegradation in mice was examined. Magnetic microspheres lodged in mice organs were recollected from the homogenates of mice organs with a constant flow magnetic separation apparatus. Recollected microspheres were observed by scanning electron microscopy and also were assayed for their magnetite ocntent by atomic absorption spectrophotometry to evaluate the biodegradability of polymeric microspheres. This method seems to be practical and simple to estimate the biodegradability of biopolymers over the conventional methods.

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Interaction of Fibroblast Cell onto Physicochemically Treated PLGA Surfaces (물리화학적 처리된 PLGA 표면의 섬유아세포와의 상호작용)

  • 강길선;이상진;전주형;이진호;이배방
    • Polymer(Korea)
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    • v.24 no.6
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    • pp.869-876
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    • 2000
  • In order to improve the cell-compatability of poly(L-lactide-co-glycolide) (75 : 25 by mole ratio of lactide to glycolide, PLGA) surfaces, the physicochemical treatments have been demonstrated. Chemical treatments were 70% perchloric acid. 50% sulfuric acid and 0.5 N sodium hydroxide solution and physical methods were corona and plasma treatment. The water contact angle of surface treated PLGA decreased from 73$^{\circ}$ to 50~60$^{\circ}$, i.e., increased hydrophilicity, due to the introduction of oxygen-containing functional group onto PLGA backbone by the measurement of an electron spectroscopy for chemical analysis. It could be observed that the adhesion and growth of fibroblast cell on physicochemically treated PLGA surfaces, especially perchloric acid treated PLGA surface, were more active than on the controt. In conclusion, it seems that surface wettability as hydrophilicity of PLGA plays an important role in cell adhesion, spreading and growth.

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Preparation and Characterization of BICND-loaded Multi-Layer PLGA Wafer Containing Glycolide Monomer (글리콜라이드 단량체를 함유한 BICNU 함유 다중층 PLGA웨이퍼의 제조 및 특성결정)

  • 채강수;이진수;정제교;조선행;이해방;강길선
    • Polymer(Korea)
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    • v.28 no.4
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    • pp.335-343
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    • 2004
  • Carmustine (l,3-bis(2-chloroethyI)-1-nitrosourea, BICNU) used as antineoplastic drug for the treatment of brain tumor is not appropriate for the long term delivery, because it has short biological half life. Therefore, poly(D,L-lactide-co-glycolide) (PLGA) is useful as drug carrier for the long term delivery due to bulk erosion property. Glycolide monomer is applied to release of BICNU owing to non-toxic and monomeric components after biodegradation of PLGA. In this study, BICNU-loaded PLGA wafers with or without glycolide monomer were fabricated by conventional direct compression method for the sustained release of BICNU. These wafers were observed for their release profiles of BICNU and degradation rates by SEM, NMR, and GPC. Furthermore, we make multi-layer wafers and compare them with release profiles of conventional wafer. From these results, drug release of BICNU-loaded PLGA wafers was increased with increasing the glycolid monomer contents. We confirmed that glycolide monomer and BICNU contents in barrier-layer influenced the drug release profiles and degradation rate.

Evaluation of In Vitro Release Profiles of Fentanyl-Loaded PLGA Oligomer Microspheres

  • Gilson Khang;Seo, Sun-Ah;Park, Hak-Soo;John M. Rhee;Lee, Hai-Bang
    • Macromolecular Research
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    • v.10 no.5
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    • pp.246-252
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    • 2002
  • In order to the development of the delivery device of long-acting local anesthetics for postoperative analgesia and control of chronic pain of cancer patient, fentnyl-loaded poly (L-lactide-co-glycolido) (PLGA, molecular weight, 5,000 g/mole; 50 : 50 mole ratio by lactide to glycolide) microspheres (FMS) were studied. FMS were prepared by an emulsion solvent-evaporation method. The influence of several preparation parameters such as initial drug loading, PLGA concentration, emulsifier concentration, oil phase volume, and fabrication temperature has been investigated on the fentanyl release profiles. Generally, the drug showed the biphasic release patterns, with an initial diffusion followed by a lag period before the onset of the degradation phase, but there was no lag time in our system. Fentanyl was slowly released from FMS over 10 days in vitro with a quasi-zero order property. The release rate increased with increasing drug loading as well as decreasing polymer concentration with relatively small initial burst effect. From the results, FMS may be a good formulation to deliver the anesthetic for the treatment of chronic pain.

Mixture Density Measurement of Biodegradable Poly(lactide-co-glycolide) Copolymer in Supercritical Solvents (초임계 용매내에서 생분해성 Poly(lactide-co-glycolide) 공중합체의 혼합물 밀도 측정)

  • 변헌수
    • Polymer(Korea)
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    • v.24 no.4
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    • pp.505-512
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    • 2000
  • The mixture density data for poly(lactide-co-glycolide) [PLGA] with supercritical $CO_2$, CHF$_3$ and CHClF$_2$ were obtained in the temperature range of 27 to 10$0^{\circ}C$ and at pressures as high as 3000 bar (PLGA$_{x}$, Where the molar concentration of glycolide in the backbone, x, range from 0 to 50 mol%). The PLA-$CO_2$, PLA-CHF$_3$, and PLA-CHClF$_2$ systems dissolve in the pressure less than 1430 below 700, and below 100 bar, respectively. The mixture density shows from 1.084 to 1.334 g/cm$^3$ at temperatures from 27 to 93$^{\circ}C$. The PLGA$_{15}$ -$CO_2$ mixture dissolves at pressures of below 1900 bar and the mixture density is in the range of 1.158 to 1.247 g/cm$^3$ at temperatures between 37 and 92$^{\circ}C$. The solubilities of the PLGA$_{25}$ for $CO_2$, CHF$_3$, and CHClF$_2$ are shown to pressure as high as 2390, 1470, and 118 bar, respectively, and the mixture density exhibits iron 1.154 to 1.535 g/cm$^3$ at temperatures from 29 to 81$^{\circ}C$. The PLGA$_{50}$-$CO_2$ system does not dissolve at 24$0^{\circ}C$ and 3000 bar while the PLGA$_{50}$-CHCIF$_2$ does easily at 5$0^{\circ}C$ and 100 bar. The mixture density for the PLGA-CHClF$_2$ system increases even at low pressures as the glycolide molar concentration increases.es.es.

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