Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models

Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models

<p>Abstract</p> <p>Docetaxel (DTX) is a very important member of taxoid family. Despite several alternative delivery systems reported recently, DTX formulated by Polysorbate 80 and alcohol (Taxotere<sup>&#174;</sup>) is still the most frequent administration in clin...

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Main Authors: Geng Hongquan, Wang Juan, Peng Xia, Song Hua, Ruan Jing, Wang Kan, Bao Chenchen, Zhang Xueqing, Cui Daxiang
Format: Article
Language:English
Published: SpringerOpen 2011-01-01
Series:Nanoscale Research Letters
Online Access:http://www.nanoscalereslett.com/content/6/1/354
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spelling doaj-8917dcaf8e334ad2acaf2bec26eb023c2020-11-24T21:51:16ZengSpringerOpenNanoscale Research Letters1931-75731556-276X2011-01-0161354Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal modelsGeng HongquanWang JuanPeng XiaSong HuaRuan JingWang KanBao ChenchenZhang XueqingCui Daxiang<p>Abstract</p> <p>Docetaxel (DTX) is a very important member of taxoid family. Despite several alternative delivery systems reported recently, DTX formulated by Polysorbate 80 and alcohol (Taxotere<sup>&#174;</sup>) is still the most frequent administration in clinical practice. In this study, we incorporated DTX into Polysorbate 80/Phospholipid mixed micelles and compared its structural characteristics, pharmacokinetics, biodistribution, and blood compatibility with its conventional counterparts. Results showed that the mixed micelles loaded DTX possessed a mean size of approximately 13 nm with narrow size distribution and a rod-like micelle shape. In the pharmacokinetics assessment, there was no significant difference between the two preparations (<it>P </it>&gt; 0.05), which demonstrated that the DTX in the two preparations may share a similar pharmacokinetic process. However, the Polysorbate 80/Phospholipid mixed micelles can increase the drug residence amount of DTX in kidney, spleen, ovary and uterus, heart, and liver. The blood compatibility assessment study revealed that the mixed micelles were safe for intravenous injection. In conclusion, Polysorbate 80/Phospholipid mixed micelle is safe, can improve the tumor therapeutic effects of DTX in the chosen organs, and may be a potential alternative dosage form for clinical intravenous administration of DTX.</p> http://www.nanoscalereslett.com/content/6/1/354
collection DOAJ
language English
format Article
sources DOAJ
author Geng Hongquan
Wang Juan
Peng Xia
Song Hua
Ruan Jing
Wang Kan
Bao Chenchen
Zhang Xueqing
Cui Daxiang
spellingShingle Geng Hongquan
Wang Juan
Peng Xia
Song Hua
Ruan Jing
Wang Kan
Bao Chenchen
Zhang Xueqing
Cui Daxiang
Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models
Nanoscale Research Letters
author_facet Geng Hongquan
Wang Juan
Peng Xia
Song Hua
Ruan Jing
Wang Kan
Bao Chenchen
Zhang Xueqing
Cui Daxiang
author_sort Geng Hongquan
title Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models
title_short Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models
title_full Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models
title_fullStr Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models
title_full_unstemmed Development of Polysorbate 80/Phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models
title_sort development of polysorbate 80/phospholipid mixed micellar formation for docetaxel and assessment of its <it>in vivo </it>distribution in animal models
publisher SpringerOpen
series Nanoscale Research Letters
issn 1931-7573
1556-276X
publishDate 2011-01-01
description <p>Abstract</p> <p>Docetaxel (DTX) is a very important member of taxoid family. Despite several alternative delivery systems reported recently, DTX formulated by Polysorbate 80 and alcohol (Taxotere<sup>&#174;</sup>) is still the most frequent administration in clinical practice. In this study, we incorporated DTX into Polysorbate 80/Phospholipid mixed micelles and compared its structural characteristics, pharmacokinetics, biodistribution, and blood compatibility with its conventional counterparts. Results showed that the mixed micelles loaded DTX possessed a mean size of approximately 13 nm with narrow size distribution and a rod-like micelle shape. In the pharmacokinetics assessment, there was no significant difference between the two preparations (<it>P </it>&gt; 0.05), which demonstrated that the DTX in the two preparations may share a similar pharmacokinetic process. However, the Polysorbate 80/Phospholipid mixed micelles can increase the drug residence amount of DTX in kidney, spleen, ovary and uterus, heart, and liver. The blood compatibility assessment study revealed that the mixed micelles were safe for intravenous injection. In conclusion, Polysorbate 80/Phospholipid mixed micelle is safe, can improve the tumor therapeutic effects of DTX in the chosen organs, and may be a potential alternative dosage form for clinical intravenous administration of DTX.</p>
url http://www.nanoscalereslett.com/content/6/1/354
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