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Improved chemotherapy by hydrophobic...

Feng, Lixin.

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Improved chemotherapy by hydrophobic ion pairing and localized delivery.

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Improved chemotherapy by hydrophobic ion pairing and localized delivery./
作者:	Feng, Lixin.
面頁冊數:	154 p.
附註:	Director: Mark C. Manning.
Contained By:	Dissertation Abstracts International64-03B.
標題:	Chemistry, Pharmaceutical. -
電子資源:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3086276

Improved chemotherapy by hydrophobic ion pairing and localized delivery.
Feng, Lixin.

Improved chemotherapy by hydrophobic ion pairing and localized delivery. - 154 p.

Director: Mark C. Manning.

Thesis (Ph.D.)--University of Colorado Health Sciences Center, 2003.

The overall purpose of this thesis is to develop methods for optimizing the administration of cisplatin and paclitaxel, both anticancer chemotherapeutic agents, and vancomycin, an antibiotic, using either hydrophobic ion-pairing (HIP) or a controlled release system for localized delivery, or a combination of the two. Besides generally introducing the needs for developing alternative methods for the formulation and delivery of chemotherapy other than the conventional methods, chapter I gives the rationales for using HIP and localized delivery via a controlled release system. There has been tremendous effort in developing new platinum (Pt)-based anticancer drugs with the purpose of developing less toxic and/or more effective Pt-based agents. Chapter II of this thesis demonstrates that, using HIP, it is possible to obtain a Pt-based complex with improved hydrophobicity, increased intracellular uptake, and enhanced <italic>in vitro </italic> potency. Chapter III evaluates the <italic>in vivo</italic> toxicity, pharmacokinetics, and efficacy of the HIP complex of cisplatin in a mouse mammary carcinoma model. This study indicates that the HIP complex of cisplatin is effective in preventing tumor from recurrence in the tested mouse model after surgery. Vancomycin is commonly used in treating deep bone infections in diabetic patients. However, its limited clinical efficacy in poorly vascularized body sites during parenteral use and the risks of toxicity associated with high serum concentrations warrant the search for new approaches to deliver this agent. In chapter IV, it is proposed to use HIP to form a hydrophobic complex of vancomycin and formulate this HIP complex into an aqueous poloxamer gel. A slow dissolution process of the HIP complex of vancomycin in physiochemical solution was observed. A prolonged release of the HIP complex from an aqueous poloxamer gel has been demonstrated, suggesting a potential clinical application. Paclitaxel is an important anticancer agent, but its delivery has been challenging. In this thesis, paclitaxel is formulated in two different types of polymeric systems and locally delivered by subcutaneous injection. One formulation uses the aqueous poloxamer 407 gel and the other one uses Atrigel<super>®</super>. In chapters V and VI, the pharmacokinetic profiles and toxicity are determined and the efficacy is evaluated in a mouse mammary carcinoma model in combination with surgery for the two formulations, respectively. It is demonstrated that no or low toxicity and improved therapeutic effects are associated with the localized delivery of paclitaxel via polymeric controlled release systems.Subjects--Topical Terms:

550957
Chemistry, Pharmaceutical.

Improved chemotherapy by hydrophobic ion pairing and localized delivery.
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500 $a Source: Dissertation Abstracts International, Volume: 64-03, Section: B, page: 1256.
502 $a Thesis (Ph.D.)--University of Colorado Health Sciences Center, 2003.
520 $a The overall purpose of this thesis is to develop methods for optimizing the administration of cisplatin and paclitaxel, both anticancer chemotherapeutic agents, and vancomycin, an antibiotic, using either hydrophobic ion-pairing (HIP) or a controlled release system for localized delivery, or a combination of the two. Besides generally introducing the needs for developing alternative methods for the formulation and delivery of chemotherapy other than the conventional methods, chapter I gives the rationales for using HIP and localized delivery via a controlled release system. There has been tremendous effort in developing new platinum (Pt)-based anticancer drugs with the purpose of developing less toxic and/or more effective Pt-based agents. Chapter II of this thesis demonstrates that, using HIP, it is possible to obtain a Pt-based complex with improved hydrophobicity, increased intracellular uptake, and enhanced <italic>in vitro </italic> potency. Chapter III evaluates the <italic>in vivo</italic> toxicity, pharmacokinetics, and efficacy of the HIP complex of cisplatin in a mouse mammary carcinoma model. This study indicates that the HIP complex of cisplatin is effective in preventing tumor from recurrence in the tested mouse model after surgery. Vancomycin is commonly used in treating deep bone infections in diabetic patients. However, its limited clinical efficacy in poorly vascularized body sites during parenteral use and the risks of toxicity associated with high serum concentrations warrant the search for new approaches to deliver this agent. In chapter IV, it is proposed to use HIP to form a hydrophobic complex of vancomycin and formulate this HIP complex into an aqueous poloxamer gel. A slow dissolution process of the HIP complex of vancomycin in physiochemical solution was observed. A prolonged release of the HIP complex from an aqueous poloxamer gel has been demonstrated, suggesting a potential clinical application. Paclitaxel is an important anticancer agent, but its delivery has been challenging. In this thesis, paclitaxel is formulated in two different types of polymeric systems and locally delivered by subcutaneous injection. One formulation uses the aqueous poloxamer 407 gel and the other one uses Atrigel<super>®</super>. In chapters V and VI, the pharmacokinetic profiles and toxicity are determined and the efficacy is evaluated in a mouse mammary carcinoma model in combination with surgery for the two formulations, respectively. It is demonstrated that no or low toxicity and improved therapeutic effects are associated with the localized delivery of paclitaxel via polymeric controlled release systems.
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