Global ETD Search

91	Topical Photodynamic Therapy Generates Microvesicle Particles Oyebanji, Oladayo Ayobami 08 June 2020 (has links) No description available. Pharmacology Biomedical Research Medicine Photodynamic therapy Microvesicle particles Extracellular vesicles
92	EGFR-Targeted Polymeric Micelles For Targeted Pc 4-PDT Of Oropharyngeal Tumors Master, Alyssa M. 23 August 2013 (has links) No description available. Biomedical Engineering nanoparticles photodynamic therapy targeted drug delivery
93	Application of Two-Photon Absorbing Fluorene-Containing Compounds in Bioimaging and Photodyanimc Therapy Yue, Xiling 01 January 2014 (has links) Two-photon absorbing (2PA) materials has been widely studied for their highly localized excitation and nonlinear excitation efficiency. Application of 2PA materials includes fluorescence imaging, microfabrication, 3D data storage, photodynamic therapy, etc. Many materials have good 2PA photophysical properties, among which, the fluorenyl structure and its derivatives have attracted attention with their high 2PA cross-section and high fluorescence quantum yield. Herein, several compounds with 2PA properties are discussed. All of these compounds contain one or two fluorenyl core units as part of the conjugated system. The aim of this dissertation is to discuss the application of these compounds according to their photophysical properties. In chapters 2 to 4, compounds were investigated for cell imaging and tissue imaging. In chapter 5, compounds were evaluated for photodynamic therapy effects on cancer cells. Chapters 2 and 3 detail compounds with quinolizinium and pyran as core structures, respectively. Fluorene was introduced into structures as substituents. Quinolizinium structures exhibited a large increase in fluorescence when binding with Bovine Serum Albumin (BSA). Further experiments in cell imaging demonstrated a fluorescence turn-on effect in cell membranes, indicating the possibility for these novel compounds to be promising membrane probes. Pyran structures were conjugated with arginylglycylaspartic acid peptide (RGD) to recognize integrin and introduced in cells and an animal model with tumors. Both probes showed specific targeting of tumor vasculature. Imaging reached penetration as deep as 350 µm in solid tumors and exhibited good resolution. These results suggest the RGD-conjugated pyran structure should be a good candidate probe for live tissue imaging. Chapter 4 applied a fluorene core structure conjugated with RGD as well. Application of this fluorenyl probe compound is in wound healing animal models. Fluorescence was collected from vasculature and fibroblasts up to ≈ 1600 µm within wound tissue in lesions made on the skin of mice. The resolution of images is also high enough to recognize cell types by immunohistochemical staining. This technology can be applied for reliable quantification and illustration of key biological processes taking place during tissue regeneration in the skin. Chapter 5 describes three fluorenyl core structures with photoacid generation properties. One of the structures showed excellent photo-induced toxicity. Cancer cells underwent necrotic cell death due to pH decrease in lysosomes and endosomes, suggesting a new mechanism for photodynamic therapy. Two photon absorption fluorescence imaging photodynamic therapy Chemistry
94	Method For Determination Of Singlet Oxygen Quantum Yields For New Fluorene-based Photosensitizers In Aqueous Media For The Advancement Of Photodynamic Therapy Grabow, Wade William 01 January 2004 (has links) Photodynamic therapy (PDT) has been investigated over the past three decades and is currently an approved therapeutic modality for skin cancer, the treatment of superficial bladder, early lung and advanced esophageal cancers, and age-related macular degeneration in a number of countries. In PDT, the absorption of light by a chromophore generates cytotoxic species such as reactive singlet oxygen, leading to irreversible destruction of the treated tissue. The measurement of the singlet oxygen quantum yield is an important determinant used to evaluate the efficiency of new photodynamic therapy agents developed in the laboratory, to screen potential photosensitizers in aqueous media.The singlet oxygen quantum yield is a quantitative measurement of the efficiency in which photosensitizers are able to use energy, in the form of light, to convert oxygen in the ground state to the reactive species singlet oxygen useful in photodynamic therapy. Singlet oxygen quantum yields of photosensitizers differ when measured in different solvents. The majority of the existing quantum yield values found in literature for various photosensitizers are documented with the sensitizers in organic solvents though values in aqueous media are more valuable for actual applications. Determination of accurate and precise quantum yield values in aqueous solution is a much more difficult problem than in organic media. Problems in aqueous solution arise primarily from the physicochemical properties of singlet oxygen in water. Singlet oxygen has a much shorter lifetime in water than it does in organic solvents, causing challenges with respect to quantitative detection of singlet oxygen.The ensuing pages are an attempt to explore the theory and document the procedures developed to provide the accurate measurement of singlet oxygen in aqueous media. Details of this experimental method and singlet oxygen quantum yield results of new compounds relative to established photosensitizers will be presented. Aqueous Photodynamic therapy Photosensitizer Singlet oxygen quantum yield Chemistry
95	The Application of Photoinduced Ligand Exchange and Dual Activity in Ru(II) Polypyridyl Complexes for Cancer Treatment Steinke, Sean James 08 December 2022 (has links) No description available. Chemistry Inorganic Chemistry Ruthenium Photochemistry Photodynamic therapy Photochemotherapy: Ligand exchange
96	Metronomic photodynamic therapy using an implantable LED device and orally administered 5-aminolevulinic acid / 留置型LEDデバイスと経口5-アミノレブリン酸を用いたメトロノミック光線力学療法 Kirino, Izumi 24 July 2023 (has links) 京都大学 / 新制・論文博士 / 博士(医学) / 乙第13565号 / 論医博第2292号 / 新制\|\|医\|\|1068(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授小林, 恭, 教授小濱, 和貴, 教授上杉, 志成 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM Metronomic photodynamic therapy PDT implantable device ALA aminolevulinic acid 490
97	Photoinduced Ligand Exchange of Ru(II) and Dirhodium(II,II) Complexes for Potential Use as Photochemotherapy Agents Palmer, Alycia M. 26 December 2014 (has links) No description available. Chemistry Biochemistry Photodynamic therapy photochemotherapy dirhodium ruthenium, photochemistry
98	Investigation of Rh<sub>2</sub>(II,II) complexes for applications in photochemotherapy and mismatch detection Akhimie, Regina Nicole January 2017 (has links) No description available. Chemistry Photodynamic therapy ,PDT photochemotherapy ,PCT dirhodium complexes
99	Development of Nanoparticle-based Platforms for Potential Applications in Biosensing and Therapeutics Wang, Peng January 2017 (has links) No description available. Nanotechnology upconversion nanoparticle DNA detection photodynamic therapy hybrid photosensitizer
100	Enhanced Singlet Oxygen Production from Metal Nanoparticle Based Hybrid Photosensitizers Ding, Rui 26 May 2016 (has links) No description available. Chemistry singlet oxygen metal nanoparticles photosensitizer photodynamic therapy

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