• 제목/요약/키워드: 'Fluid' liposome

검색결과 6건 처리시간 0.016초

In Vitro and In Vivo Studies of Different Liposomes Containing Topotecan

  • Hao, Yan-Li;Deng, Ying-Jie;Chen, Yan;Wang, Xiu-Min;Zhong, Hai-Jun;Suo, Xu-Bin
    • Archives of Pharmacal Research
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    • 제28권5호
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    • pp.626-635
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    • 2005
  • Liposome as a carrier of topotecan (TPT), a promising anticancer drug, has been reported in attempt to improve the stability and antitumor activity of TPT. However, the biodistr ibution pattern of TPT liposome in vivo and PEG-modified liposome containing TPT have not been studied systemically. In this paper, the in vitro stability and in vivo biodistribution behavior of several liposomes containing TPT with different lipid compositions and PEG-modification were studied. Compared with the 'fluid' liposome (S-Lip) composed of soybean phosphatidylcholine (SPC), the 'solid' liposome (H-Lip) composed of hydrogenated soybean phosphatidylcholine HSPC decreased the leaking efficiency of TPT from liposome and enhanced the stability of liposome in fetal bovine serum (FBS) or human blood plasma (HBP). The results of biodistribution studies in S$_{180}$ tumor-bearing mice showed that liposomal encapsulation increased the concentrations of total TPT and the ratio of lactone form in plasma. Compared with free TPT, S-Lip and H-Lip resulted in 5- and 19- fold increase in the area under the curve (AUC$_{0\rightarrow\propto}$), respectively. PEG- modified H-Lip (H-PEG) showed 3.7-fold increase in AUC$_{0\rightarrow\propto}$ compared with H-Lip, but there was no significant increase in t$_{1/2}$ and AUC$_{0\rightarrow\propto}$ for PEG-modified S-Lip (S-PEG) compared with S-Lip. Moreover, the liposomal encapsulation changed the biodistribution behavior, and H-Lip and H-PEG dramatically increased the accumulation of TPT in tumor, and the relative tumor uptake ratios were 3.4 and 4.3 compared with free drug, respectively. There was also a marked increase in the distribution of TPT in lung when the drug was encapsulated into H-Lip and H-PEG. Moreover, H-PEG decreased the accumulation of TPT in bore marrow compared with unmodified H-Lip. All these results indicated that the membrane fluidity of liposome has an important effect on in vitro stability and in vivo biodistribution pattern of liposomes containing TPT, and PEG-modified 'solid' liposome may be an efficient carrier of TPT.

Preparation and Stability Evaluation of Docetaxel-Loaded Oral Liposome

  • Chon, Chong-Run;Kim, Hyun-Mi;Lee, Pung-Sok;Oh, Eui-Chaul;Lee, Ma-Se
    • Journal of Pharmaceutical Investigation
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    • 제40권2호
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    • pp.85-90
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    • 2010
  • Docetaxel-loaded liposomes were prepared by emulsion-solvent evaporation method, then coated with chitosan at room temperature and lyophilized. This system was designed in order to improve solubility and stability of docetaxel in the GI tract for oral drug delivery. The solubilizing effect of some frequently used solubilizers and/or liposome was determined. Among the results docetaxel-loaded liposomes prepared with 0.5% TPGS as a solubilizer showed 100-fold higher solubility than docetaxel. In a stability test, mean particle size of different liposome formulations was measured by a particle size analyzer in simulated gastric fluid (SGF) and in simulated intestinal fluid (SIF). The particle size of uncoated liposomes was significantly increased compared with that of chitosan-coated liposomes in SGF, however, there was no significant difference between coated and uncoated liposome in SIF. It is evident that chitosan-coated liposomes were more stable in GI conditions. The release characteristics of docetaxel-loaded liposomes were also investigated in three buffer solutions (pH 1.2, 4.0, 6.8). Docetaxel release did not occur in pH 1.2 for 4 hrs. However, in pH 4.0 and 6.8 conditions, docetaxel was gradually released over 24 hrs as a sustained release. It seems that aggregation and precipitation of particles by electrostatic interaction might protect docetaxel from being released. In Conclusion, the results from this study show that the chitosan-coated liposomes may be useful in enhancing solubility and GI stability of docetaxel.

Controlled Release of Cyclosporin A from Liposomes-in-Microspheres as an Oral Delivery System

  • Park, Hee-Jung;Lee, Chang-Moon;Lee, Yong-Bok;Lee, Ki-Young
    • Biotechnology and Bioprocess Engineering:BBE
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    • 제11권6호
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    • pp.526-529
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    • 2006
  • The aim of this study was to prepare cyclosporin A-loaded liposome (CyA-Lip) as an oral delivery carrier, with their encapsulation into microspheres based on alginate or extracellular polysaccharide (EPS) p-m10356. The main advantage of liposomes in the microspheres (LIMs) is to improve the restricted drug release property from liposomes and their stability in the stomach environment. Alginate microspheres containing CyA-Lip were prepared with a spray nozzle; CyA-Liploaded EPS microspheres were also prepared using a w/o emulsion method. The shape of the LIMs was spherical and uniform, and the particle size of the alginate-LIMs ranged from 5 to $10\;{\mu}m$, and that of the EPS-LIMs was about $100\;{\mu}m$. In a release test, release rate of CyA in simulated intestinal fluid (SIF) from the LIMs was significantly enhanced compared to that in simulated gastric fluid (SGF). In addition, the CyA release rates were slower from formulations containing the liposomes compared to the microspheres without the liposome. Therefore, alginate-and EPS-LIMs have the potential for the controlled release of CyA and as an oral delivery system.

오레가노 초임계추출물의 황색포도상구균 바이오필름 형성 억제능을 이용한 기능성 화장품 소재의 개발 (Anti-Biofilm Activity of Origanum Vulgare Supercritical Fluid Extracts and Cosmetic Active Ingredients Development)

  • 박신성;이광원;박수인;신문삼
    • 문화기술의 융합
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    • 제8권6호
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    • pp.605-614
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    • 2022
  • 본 연구에서는 오레가노를 초임계유체추출법과 열수추출법으로 추출하여 항균, 항산화 in vitro 실험을 수행하였다. 항균실험인 Disc diffusion method 결과, 초임계추출물에 대해서만 clear zone이 나타났다. S. aureus에 대한MIC는 초임계추출물에서만 관찰되었으며, 1000 ㎍/mL로 확인되었다. 열수추출물은 C. acnes에 대한 MIC가 125 ㎍/mL로 여드름균에 대한 항균력이 뛰어났다. 나아가 우리는 Biofilm inhibition assay를 통해 오레가노 초임계추출물이 125 ㎍/mL의 저농도에서도 S. aureus의 바이오필름을 70%이상 억제한다는 것을 발견하였다. DPPH radical 소거능, ABTS+ radical 소거능, SOD 유사활성능과 총 폴리페놀 함량 측정에서 열수추출물의 항산화력이 초임계추출물보다 우수하게 측정되었다. 나아가, 앞서 확인된 오레가노 초임계추출물의 S. aureus 바이오필름 억제능을 활용하여 아토피 피부에 적합한 소재를 개발하고자 하였다. 오레가노 초임계추출물의 낮은 용해도를 극복하고 안정성을 증가시키기 위하여 리포좀을 이용하였다.

Stabilization of Retinol through Incorporation into Liposomes

  • 이승철;육현균;이동훈;이경은;황용일;Richard D. Ludescher
    • BMB Reports
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    • 제35권4호
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    • pp.358-363
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    • 2002
  • Chemical and photochemical processes during storage and preparation rapidly degrade retinol, the most active form of vitamin A. therefore, the efficacy of incorporation into liposomes in order to modulate the kinetics of retinol degradation was investigated. Retinol was readily incorporated into multilamellar liposomes that were prepared form soybean phosphatidylcholine; the extent of the incorporation was 98.14±0.93% at pH 9.0 at a ratio of 0.01 : 1 (wt:wt) retinol : phospholipid. It was only marginally lower at higher retinol concentrations. The pH of the hydration buffer had a small effect. The incorporation efficiency ranged from 99.25±0.47% at pH 3 to 97.45±1.13% at pH 11. The time course of the retinol degradation in the aqueous solution in liposomes was compared to that of free retinol and free retinol with α-tocopherol under a variety of conditions of pH(3, 7, and 11), temperature(4, 25, 37, and 50℃), and light exposure(dark, visible, and UV). The retinol that was incorporated into the liposomes degraded significantly slower than the free retinol or retinol with α-tocopherol at pH 7 and 11. At pH 3, where the free retinol degrades rapidly, the degradation kinetics were similar in liposomes and the presence of α-tocopherol. At pH 7.0 and 4℃ in the light, for example, free aqueous retinol was completely degraded within 2 days, while only 20% of the retinol in the liposomes were degraded after 8 days. In general, the protective effect of the liposome incorporation was greater at low temperatures, at neutral and high pH, and in the dark. The results suggest that protection is greater in the solid, gel phase than in the fluid liquid crystalline phase lipids. These results indicate that the incorporation into liposomes can extend the shelf-life of retinol under a variety of conditions of temperature, pH, and ambient light conditions.

Effects of Chitosan Coating for Liposomes as an Oral Carrier

  • Lee, Chang-Moon;Kim, Dong-Woon;Lee, Ki-Young
    • 대한의생명과학회지
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    • 제17권3호
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    • pp.211-216
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    • 2011
  • The chitosan-coated liposomes (chitosomes) were designed to improve the stability in the gastrointestinal (GI) tract and to enhance the efficacy for oral drug delivery of liposomes. The phosphatic acid (PA)-incorporated anionic liposomes were surface-coated with water soluble chitosan (WSC) by electro-ionic interaction. The shape of the chitosomes observed by transmission electron microscopy (TEM) was spherical in all the formulations and the coating layer by WSC could be founded through TEM images. The mean size and the zeta potential values of the chitosomes increased significantly with depending on the content of WSC added for coating the liposomes. The stability of the chitosomes in the GI tract was confirmed through the change of relative turbidity of the liposomal suspension. The plain liposomes (plasomes) suspension without adding WSC clearly showed the change of relatively turbidity in simulated gastric fluid (SGF), while the change degree of turbidity of the chitosomes in the SGF decreased as increasing of WSC content added for coating liposome. In the 5-CF release study from the plasomes and chitosomes, the plasomes released >90% of the initial 5-CF content at 4 h of release measurement. In contrast, the chitosomes released below 40% of initial content of 5-CF. In conclusion, these results indicate that the chitosomes can be used as a potential carrier for effective oral drug delivery.