Photosensitizers : types, uses, and selected research /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Whitmire, Cody (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, Inc., [2016]
Colección:Chemistry research and applications series.
Temas:
Photosensitizing compounds.
Photosensitizing Agents
Photosensibilisants.
MEDICAL / Pharmacology
Photosensitizing compounds
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface; Chapter 1; Type I Photosensitizers for Cancer Therapy; Abstract; 1. Introduction; 2. Protein Oxidation Photosensitized by Phosphorus(V)porphyrins; 2.1. Determination of the Contribution of the Type I Mechanism by Phosphorus(V)porphyrins; 2.2. Simulation of the PDT Effect under Hypoxic Condition; 2.3. The Axial Fluorination Effect of Phosphorus(V)porphyrin; 2.4. Tetranaphtylporphyrin Phosphorus(V) Complex; 3. Other Type I Photosensitizers: The Dye-sensitized Oxidation of Biomolecules; 3.1. Riboflavin; 3.2. Rhodamine-6G; 3.3. Nile Blue; Summary; References
  • Biographical SketchChapter 2; Photosensitizers as Antibacterial Agents in Polymer Science; 1. Introduction; 2. General Features of the Antibacterial Photodynamic Inactivation of Bacteria; 3. Generation and Characterization of Reactive Oxygen Species (ROS) via Photosensitizer Agents; 3.1. Photosensitizer Agent: Conditions for Being Used as an Antimicrobial Agent in aPDT; 3.2. Mechanism of Photosensitization; 3.2.1. Type I Photosensitization Processes; 3.2.2. Type II Photosensitization Processes; 3.2.3. Methods for Detecting the Involved ROS Species
  • 4. Different Chemical Structures of the Antibacterial Photosensitizer Agents4.1. Porphyrins; 4.2. Phthalocyanines; 4.3. Ruthenium Complexes; 4.4. Phenothiazinium Derivative Groups; 4.5. Rose Benghal; 4.6. Other Photosensitizers; Conclusion; References; Chapter 3; Rose Bengal and Its Biomedical Applications; Abstract; Introduction; Chemical Structure of Rose Bengal, Its Spectral Properties in Water Solutions and Polymers; Spectral-Kinetic Properties of Rose Bengal and Their Biomedical Applications; Long-Term Luminescence of Rose Bengal in Biological Media
  • Phosphorescence of Rose Bengal in Biological MediaPhotodynamic Effect of Rose Bengal; Sensors; Triplet Probe; Conclusion; Acknowledgments; References; Chapter 4; Multi-Phototherapy Based on Combined Use of Photosensitizers and Photothermal Agents; Abstract; 1. Introduction; 2. Various Types of Nanoparticles as Carriers of Photosensitizer; 2.1. Traditional Organic Nanoparticles as Nanocarriers of Photosensitizer; 2.2. Photothermal Agents as Nanocarriers of Photosensitizer; 2.2.1. Gold Nanomaterials as Nanocarriers of Photosensitizer
  • 2.2.2. Other Inorganic Photothermal Agents as Nanocarriers of Photosensitizer2.2.3. Organic Photothermal Agents as Nanocarriers of Photosensitizer; 3. Various Measures-Assisted Targeting Photodynamic Therapy; 3.1. Nanocarrier-Assisted Targeting Delivery; 3.2. Ligand-Assisted Targeting Delivery; 3.3. Site-Activated Targeting Delivery; 4. Nanocarrier-Assisted Enhanced Photodynamic Therapy; 4.1. Synergistic Application of Photo-Activated Nanocarrier for Enhanced Photodynamic Therapy; 4.2. Synergistic Application of Photothermal Agents and Photosensitizers for Phototherapy

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