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KMID : 0370219980420030275
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Yakhak Hoeji
1998 Volume.42 No. 3 p.275 ~ p.283
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Pharmacokinetics , Cell Toxicity , Antitumor Activity and Spleen / Blood Cell Toxicity of Aclarubicin-Entrapped Liposomes
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¹Ú¸ñ¼ø/Park MS
¹ÚÁø±Ô/ÀÌ°è¿ø/¸íÆò±Ù/¼®´ëÀº/Ȳ¼ºÁÖ/Áö¿õ±æ/Park JK/Lee GW/Myung PK/Sok DE/Hwang SJ/Jee UK
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Abstract
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Aclarubicin(ACL)-entrapped freeze dried liposomes were prepared using Microfludizer to attain a sustained release at targeted organs in a prolonged time so that it can reduce th e side effect and maximize the therapeutic effect. The freeze-dried liposomes were evaluated for pharmacokinetics, antitumor activity against Sarcoma 180, cytotoxicity against L1210 and A549 tumor cells, spleen toxicity and myelosuppressive action. The AUC0->8hr values were 122+/-42, 382+/-140, 419+/-171, 835+/-206 and 443+/-309mcg min/ml for free ACL. ACL-liposome formulation I, II, III and IV, respectively. Cytotoidcity of ACL-entrapped liposomes against L1210 and A549 tumor cells was 2-4 times higher than that of free aclarubicin. ACL-liposome formulation I(PC/CHOL/TA) showed the most potent antitumor activity against Sarcoma 180 in mice. The loss of body weight was much smaller with ACL-entrapped liposomes than free ACL after I.p. injection at a dose of 2 mg/kg/day. Compared to free ACL, ACL-entrapped liposomes expressed a lower and delayed spleen toxicity up to 5th day after I.v. administration. Myelosupperssion seemed to be lower with ACL-entrapped liposome of PC/PC-hydrate/CHOL/TA (formulation III) than free aclarubicin.
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