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Investigations into the chemical mechanisms of biological activity by heterocyclic di-N-oxides and 1,2 benzodithiolan-3-one 1-oxides /Ganley, Brian Christopher, January 2000 (has links)
Thesis (Ph. D.)--University of Missouri--Columbia, 2000. / "December 2000." Typescript. Vita. Includes bibliographical references. Also available on the Internet.
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Design and biological evaluation of novel antitumor agents with mechanisms of action against topoisomerase II and/or G-quadruplexesKim, Mu-yong 28 August 2008 (has links)
Not available / text
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In vivo and in vitro analyses of tumour-associated microvascular endothelial cells as a target for the actions of TNF-a /Nilsson, Tina Mary Unknown Date (has links)
Thesis (PhD)--University of South Australia, 2000
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Drug design (STAT5 modulators), development (Glyceollin I) and improvement (Esmolol Plus) /Reese, Michael. January 2009 (has links)
Thesis (M.S.)--University of Toledo, 2009. / Typescript. "Submitted as partial fulfillment of the requirements for the Master of Science Degree in Medicinal Chemistry." "A thesis entitled"--at head of title. Bibliography: leaves 45-48.
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Studies on the effect of palmitylcarnitine chloride on the solubility of etoposide : thesis ...Kashyap, Lola 01 January 1988 (has links)
No description available.
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Macromolecular platinum-based anticancer agentsDiainabo, Kayembe Jacques 07 August 2013 (has links)
A thesis submitted to the faculty of Science, University of the Witwatersrand, in fulfillment of the degree of Doctor of Philosophy in Science
Johannesburg, 2012 / Platinum is nowadays one of the best and widely used antitumor agents in cancer chemotherapy. The numerous performances reported by many previous researchers for this metal in the fight against several malignancies led to the synthesis of many platinum complexes. However, the clinical responses related to these complexes led to the development of non-platinum compounds with metal ions which exhibit antitumor activity. Ferrocene is one of them, owing the high consideration inter alia to its environmental oxidore-ductive behavior. Methotrexate is another clinically used anticancer drug worthy to be mentioned. With a structure very close to that of folic acid, differing from it by an amine function and a methyl group, respectively, instead of an hydrogen and an hydroxyl group on the folate, methotrexate has been considered as an antagonist of folic acid by its mechanism of action in the biological environment. It has, together with platinum and non-platinum complexes, shown notorious side-effects by fighting both normal and abnormal cells despite their antineoplastic potency. This is the reason why a drug delivery system is considered as a tool to improve metal complexes and other drugs selectivity for cancer cells. The strategy of enhancing the potency of non-polymeric chemically, physically, or biologically active compounds through the expediency of binding such compounds to a polymeric carrier has revolutioned numerous technologies. In the present thesis is demonstrated the synthesis of several water-soluble macromolecular drug carriers intended for biomedical applications, and the anchoring of platinum to ferrocene-containing antineoplastic agents on one side, then to methotrexate-containing antineoplastic agents on the other side, resulting in a co-conjugate or a conjugate bearing two different drugs on a single carrier. This multidrug anchoring offers the advantage to exploit the potency of two different drugs on a single polymeric structure, each drug having its own pharmacokinetic path. Platinum is the common drug, while ferrocene and
methotrexate are the various co-drugs. This order of having the platinum imparted to the polymeric carrier after the two drugs above mentioned were adopted in obedience to the strategy of having the most synthetically demanding drug incorporated in the carrier before the least one. Anchoring of the three drugs to polymeric structures was achieved in aqueous environment. Methotrexate (MTX) and ferrocene (Fc) binding were achieved via HBTU as coupling agent. In all cases, more or less, but very close to, 100% drug loading could be achieved under careful control of experimental conditions. The water-soluble polymeric carriers used are copolyaspartamides, prepared by an aminolytic ring-opening process of polysuccinimide, and copoly(amidoamines) obtained by Michael polyaddition of methylenebisacrylamide (MBA). These polymers were designed to bear amine, hydroxyl or carboxylic acid functional groups in their structure, either as part of the main chain or side chain. The functional groups herein mentioned are important for the coupling of the chemically modified drug species. Exploratory in-vitro biological studies are discussed, as the co-conjugation of the metallic antineoplastic drug, ferrocene and the antifolate methotrexate, each with the metallic drug platinum, is performed. The results of these preliminary tests show that polymer-drug conjugates and co-conjugates can play a role in future cancer therapy.
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Anti-tumour activity of trichosanthin and its mechanism of action.January 1990 (has links)
by Wong Yick Fu. / Thesis (Ph.D.)--Chinese University of Hong Kong, 1990. / Bibliography: leaves 201-224. / Acknowledgments --- p.V / Summary --- p.vi / Publications --- p.ix / Statement of Originality --- p.X / List of Abbreviations --- p.xi / Chapter Chapter 1 --- Introduction --- p.1 / Chapter 1.1 --- Preamble --- p.2 / Chapter 1.2 --- History of Trichosanthin --- p.6 / Chapter 1.3 --- Preparation of Trichosanthin --- p.8 / Chapter 1.4 --- Chemistry of Trichosanthin --- p.10 / Chapter 1.4.1 --- Primary structure --- p.10 / Chapter 1.4.2 --- Three dimensional structure --- p.12 / Chapter 1.5 --- Pharmacology of Trichosanthin --- p.14 / Chapter 1.5.1 --- Pharmacologic action --- p.14 / Chapter 1.5.2 --- Pharmacokinetics --- p.18 / Chapter 1.5.3 --- Toxicity --- p.21 / Chapter 1.6 --- Clinical Use of Trichosanthin --- p.24 / Chapter 1.6.1 --- Clinical application --- p.24 / Chapter 1.6.2 --- Mechanism of action --- p.29 / Chapter 1.6.3 --- Adverse reactions --- p.31 / Chapter 1.6.4 --- Contraindications --- p.33 / Chapter 1.7 --- Objectives of Project and Organization of Thesis --- p.35 / Chapter Chapter 2 --- Anti-tumour Activity of Trichosanthin In Vitro and In Vivo --- p.37 / Chapter 2.1 --- Cytotoxic Effects of Trichosanthin on Cultured Tumour Cells --- p.38 / Chapter 2.1.1 --- Introduction --- p.38 / Chapter 2.1.2 --- Materials and methods --- p.40 / Chapter 2.1.3 --- Results --- p.49 / Chapter 2.1.4 --- Discussion --- p.59 / Chapter 2.2 --- Effects of Trichosanthin on Co-cultured Cell Lines In Vitro --- p.64 / Chapter 2.2.1 --- Introduction --- p.64 / Chapter 2.2.2 --- Materials and methods --- p.65 / Chapter 2.2.3 --- Results --- p.66 / Chapter 2.2.4 --- Discussion --- p.77 / Chapter 2.3 --- Combination Effects of Trichosanthin with Adriamycin and Cisplatin on Cultured Tumour Cells --- p.80 / Chapter 2.3.1 --- Introduction --- p.80 / Chapter 2.3.2 --- Materials and methods --- p.81 / Chapter 2.3.3 --- Results --- p.84 / Chapter 2.3.4 --- Discussion --- p.93 / Chapter 2.4 --- Effects of Trichosanthin on Choriocarcinoma Cells In Vivo --- p.96 / Chapter 2.4.1 --- Introduction --- p.96 / Chapter 2.4.2 --- Materials and methods --- p.97 / Chapter 2.4.3 --- Results --- p.101 / Chapter 2.4.4 --- Discussion --- p.107 / Chapter 2.5 --- Effects of Trichosanthin Protein and Polysaccharide on Choriocarcinoma Cells In Vitro --- p.110 / Chapter 2.5.1 --- Introduction --- p.110 / Chapter 2.5.2 --- Materials and methods --- p.112 / Chapter 2.5.3 --- Results --- p.114 / Chapter 2.5.4 --- Discussion --- p.117 / Chapter Chapter 3 --- Mechanism of Action of Trichosanthin on Tumour Cells --- p.119 / Chapter 3.1 --- Morphological Study of Effects of Trichosanthin on Cultured Choriocarcinoma Cells --- p.120 / Chapter 3.1.1 --- Introduction --- p.120 / Chapter 3.1.2 --- Materials and methods --- p.121 / Chapter 3.1.3 --- Results --- p.124 / Chapter 3.1.4 --- Discussion --- p.133 / Chapter 3.2 --- Binding of Radiolabelled Trichosanthin with Tumour Cells In Vitro --- p.137 / Chapter 3.2.1 --- Introduction --- p.137 / Chapter 3.2.2 --- Materials and methods --- p.138 / Chapter 3.2.3 --- Results --- p.146 / Chapter 3.2.4 --- Discussion --- p.154 / Chapter 3.3 --- Effects of Trichosanthin on Macromolecule Synthesis of Choriocarcinoma Cells In vitro --- p.159 / Chapter 3.3.1 --- Introduction --- p.159 / Chapter 3.3.2 --- Materials and methods --- p.160 / Chapter 3.3.3 --- Results --- p.163 / Chapter 3.3.4 --- Discussion --- p.167 / Chapter Chapter 4 --- General Discussion --- p.169 / Chapter 4.1 --- Anti-tumour Activity of Trichosanthin --- p.170 / Chapter 4.2 --- Mechanism of Action of Trichosanthin --- p.180 / Chapter 4.3 --- Prospects of Research on Trichosanthin --- p.195 / References --- p.201 / Appendix 1 --- p.225 / Appendix 2 --- p.242
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Pharmaceutical studies of epirubicin emulsion.January 1991 (has links)
by Kenneth Kwing-chin Lee. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1991. / Includes bibliographical references. / ACKNOWLEDGEMENT / ABSTRACT / Chapter CHAPTER I : --- INTRODUCTION AND SOME DISPOSITION PRINCIPLES --- p.1-16 / Chapter CHAPTER II: --- DETERMINATION OF EPIRUBICIN IN BIOLOGICAL FLUIDS --- p.17-26 / Chapter CHAPTER III : --- DISPOSITION OF EPIRUBICIN IN PATIENTS WITH HEPATIC CARCINOMA --- p.27-44 / Chapter CHAPTER IV : --- DESIGN OF THE EMULSION FOR INJECTION --- p.45-85 / Chapter CHAPTER V : --- STUDIES ON THE ACUTE TOXICITY OF THE FORMULATED EMULSION --- p.86-113 / Chapter CHAPTER VI : --- PHARMACOKINETIC STUDIES OF THE FORMULATED EMULSION IN RABBITS --- p.114-123 / REFERENCES --- p.124-130 / APPENDICES
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中醫藥抗腫瘤復發轉移文獻研究陳志強, 01 January 2012 (has links)
No description available.
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S-allylcysteine (SAC) and S-allylmercaptocysteine (SAMC), water soluble garlic derivatives, suppress growth and invasion of androgen-independent prostate cancer, under in vitro and in vivo conditionsChu, Qingjun. January 2006 (has links)
Thesis (Ph. D.)--University of Hong Kong, 2007. / Title proper from title frame. Also available in printed format.
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