Chen Liang-Cheng, Chang Chih-Hsien, Yu Chia-Yu, Chang Ya-Jane, Hsu Wei-Chuan, Ho Chung-Li, Yeh Chung-Hsin, Luo Tsai-Yueh, Lee Te-Wei, Ting Gann
Institute of Nuclear Energy Research, Taoyuan, Taiwan.
Nucl Med Biol. 2007 May;34(4):415-23. doi: 10.1016/j.nucmedbio.2007.02.003.
Nanoliposomes are important carriers capable of packaging drugs for various delivery applications through passive targeting tumor sites by enhanced permeability and retention effect. Radiolabeled liposomes have potential applications in radiotherapy and diagnostic imaging. The purpose of this study was to investigate the biodistribution, pharmacokinetics and imaging of nanotargeted (188)Re-N,N-bis (2-mercaptoethyl)-N',N'-diethylethylenediamine (BMEDA)-labeled pegylated liposomes (RBLPL) and unencapsulated (188)Re-BMEDA after intraperitoneal (ip) injection in a C26 colon carcinoma ascites mouse model. The nanopegylated liposomes were labeled with (188)Re-BMEDA. The labeling efficiency of RBLPL was 82.3+/-4.5%. In vitro stability of RBLPL in normal saline at room temperature and in rat plasma at 37 degrees C for 72 h was 92.01+/-1.31% and 82.4+/-1.64%, respectively. The biodistribution studies indicated that the radioactivity in ascites was 69.96+/-14.08 percentage injected dose per gram (% ID/g) at 1h to 5.99+/-1.97% ID/g at 48 h after ip administration of RBLPL. The levels of radioactivity in tumor were progressive accumulation to a maximum of 6.57+/-1.7% ID/g at 24 h. The radioactivity of (188)Re-BMEDA in ascites reached the maximum level of 54.89+/-5.91% ID/g at 1 h and declined rapidly with time. Pharmacokinetic studies revealed that the terminal half-life, total body clearance and area under the curve of RBLPL were 5.3-, 9.5- and 9.4-fold higher than that of (188)Re-BMEDA in blood, respectively. These results suggested that the long circulation, bioavailability and localization of RBLPL in tumor and ascites sites, which also demonstrate that the ip administration of RBLPL is a potential multifunctional nanoradiotherapeutics and imaging agents on a C26 colon carcinoma ascites mouse model.
纳米脂质体是重要的载体,能够通过增强渗透和滞留效应被动靶向肿瘤部位,用于各种药物递送应用。放射性标记的脂质体在放射治疗和诊断成像方面具有潜在应用。本研究的目的是在C26结肠癌腹水小鼠模型中,研究纳米靶向的(188)Re-N,N-双(2-巯基乙基)-N',N'-二乙撑二胺(BMEDA)标记的聚乙二醇化脂质体(RBLPL)和未包裹的(188)Re-BMEDA腹腔注射后的生物分布、药代动力学和成像情况。纳米聚乙二醇化脂质体用(188)Re-BMEDA进行标记。RBLPL的标记效率为82.3±4.5%。RBLPL在室温生理盐水中以及37℃大鼠血浆中72小时的体外稳定性分别为92.01±1.31%和82.4±1.64%。生物分布研究表明,腹腔注射RBLPL后1小时腹水中的放射性为69.96±14.08注射剂量百分比每克(%ID/g),至48小时为5.99±1.97%ID/g。肿瘤中的放射性水平逐渐积累,在24小时达到最大值6.57±1.7%ID/g。(188)Re-BMEDA在腹水中的放射性在1小时达到最高水平54.89±5.91%ID/g,并随时间迅速下降。药代动力学研究显示,RBLPL在血液中的末端半衰期、全身清除率和曲线下面积分别比(188)Re-BMEDA高5.3倍、9.5倍和9.4倍。这些结果表明RBLPL在肿瘤和腹水部位具有长循环、生物利用度和定位特性,这也证明在C26结肠癌腹水小鼠模型中腹腔注射RBLPL是一种潜在的多功能纳米放射治疗和成像剂。
