Zhang Can, Qu Guowei, Sun Yingji, Yang Tao, Yao Zhong, Shen Wenbin, Shen Zilong, Ding Qilong, Zhou Huiping, Ping Qineng
College of Pharmacy, China Pharmaceutical University, Nanjing 210009, PR China.
Eur J Pharm Sci. 2008 Apr 23;33(4-5):415-23. doi: 10.1016/j.ejps.2008.01.012. Epub 2008 Feb 7.
An amphiphilic chitosan derivate, N-octyl-O-sulfate chitosan (NOSC) was prepared by octylation of amino group at C-2 position and sulfonylation at C-6 position. Micelle formed by NOSC has great capability in solubilization of water-insoluble drug paclitaxel. Enormous attention was attracted by the potential application of NOSC as a new drug delivery system. Tritium labeled NOSC ((3)H NOSC) was injected by tail vein at dose of 13.44 mg/kg in mice; kidney retained the maximum amount of NOSC all the time even after 24h following the injection. Pharmacokinetic parameters (the area under the plasma concentration-time curve, maximum plasma concentration, apparent plasma half-life of distribution phase and elimination phase, mean residence time, apparent volume of distribution, total body clearance) were obtained by fluorometric method in rats. The results showed a linear pharmacokinetics proceeding of FITC-NOSC in vivo. 75.4+/-11.6% (3)H NOSC of dose was excreted in urine over a 7-day period, urinary excretion was the predominant way of excretion of NOSC compared with bilary or fecal pathway. A series of safety studies consisted of acute toxicity study, intravenous stimulation study, injection anaphylaxis study, hemolysis study and cell viability assay were performed to warrant the biocompatibility of the NOSC as intravenous materials. The LD(50) value of NOSC administrated by i.v. and i.p. were calculated as 102.59 and 130.53 mg/kg, respectively. No intravenous stimulation, injection anaphylaxis, hemolysis and cytotoxicity were observed in the safety studies. The tissue distribution, pharmacokinetics, excretion and safety study were persuasive for the potential application of NOSC as a new drug carrier.
一种两亲性壳聚糖衍生物,N-辛基-O-硫酸壳聚糖(NOSC)是通过在C-2位氨基进行辛基化和在C-6位进行磺酰化制备的。由NOSC形成的胶束在增溶水不溶性药物紫杉醇方面具有很强的能力。NOSC作为一种新型药物递送系统的潜在应用引起了极大关注。将氚标记的NOSC(³H NOSC)以13.44 mg/kg的剂量经尾静脉注射到小鼠体内;即使在注射后24小时,肾脏始终保留最大量的NOSC。通过荧光法在大鼠中获得药代动力学参数(血浆浓度-时间曲线下面积、最大血浆浓度、分布相和消除相的表观血浆半衰期、平均驻留时间、表观分布容积、全身清除率)。结果表明FITC-NOSC在体内呈线性药代动力学过程。在7天的时间内,剂量的75.4±11.6%的³H NOSC通过尿液排出,与胆汁或粪便途径相比,尿液排泄是NOSC排泄的主要方式。进行了一系列安全性研究,包括急性毒性研究、静脉刺激研究、注射过敏反应研究、溶血研究和细胞活力测定,以确保NOSC作为静脉注射材料的生物相容性。静脉注射和腹腔注射NOSC的LD₅₀值分别计算为102.59和130.53 mg/kg。在安全性研究中未观察到静脉刺激、注射过敏反应、溶血和细胞毒性。组织分布、药代动力学、排泄和安全性研究对于NOSC作为新型药物载体的潜在应用具有说服力。
