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Nanoparticles in translational science and medicine

  1. Title statementNanoparticles in translational science and medicine / A. Villaverde
    Personal name Villaverde, A. (author)
    PublicationSan Diego : Elsevier Science, 2011
    Phys.des.1 online zdroj (649 stran)
    ISBN9780123914637 (online ; pdf)
    0123914639
    NoteIII. Metallic Carbohydrate-Based Nanoparticles for In Vivo Diagnosis by Magnetic Resonance Imaging.
    ContentsFront Cover; Nanoparticles in Translational Science and Medicine; Copyright; Contents; Contributors; Preface; Liposomes and Other Vesicular Systems ... ; I. Introduction; A. Molecular Self-assembly: Principles; B. Vesicles: Supramolecular Structures from Self-assembled Amphiphilic Molecules; II. Description and Classification of Vesicles; III. Techniques for Vesicle Structural Characterization; A. Size, Size Distribution, and Concentration; B. Zeta Potential; C. Morphology; D. Membrane Supramolecular Organization; E. Interaction Strength of Biomolecules with Vesicles; F. Drug Content Analysis.
    Content noteIV. Vesicles as Carriers for the Delivery of Bioactive MoleculesV. Methods of Preparation; A. Conventional Methods for the Preparation of Drug-Loaded Vesicles; B. Compressed Fluid-Based Methods for the Preparation of Drug-Loaded Vesicles; VI. Conclusions and Future Challenges; References; Luminescent Quantum Dots, Making Invisibles Visible in Bioimaging; I. Introduction; A. QDs, Go-Between Nanotechnology, and Biotechnology; B. Advantages of QDs Over Fluorescent Dyes in Bioimaging; II. Preparation of QDs for Bioconjugation; A. Synthesis of Core QDs; B. Formation of Shells for Bioconjugation.. III. Labeling Cell Surfaces with QDsA. Nonspecific Labeling of Cell Surfaces; B. Specific Labeling of Cell Surfaces; IV. Delivery of QDs in Living Cells; A. Nonspecific Delivery; a. Arginine-Rich Peptides; b. Nuclear Localization Signals; c. Insect Neuropeptides; B. Specific Delivery; V. Photodynamic Therapy by Quantum Dots; A. ROS, Key to PDT; B. QDs for PDT of Cancer; C. QDs Versus Conventional PS Drugs for PDT; D. QD and Photosensitizer Hybrids as Drugs for PDT; VI. Concluding Remarks; References; Fabrication of Dendrimers Toward Biological Application; I. Introduction.. II. Are Dendrimers Attractive in Biomedical Sciences?A. In Vitro Cytotoxicity of Dendrimers; B. In Vivo Toxicity of Dendrimers; C. How to Solve the Problems of Biomedical Toxicity; III. Drug Delivery Systems of Dendrimers; A. Load of Drugs by Physical Doping in Dendrimers; B. Release of Drugs Loaded by Physical Doping in Dendrimers; C. Delivery of Drugs Loaded by Chemical Binding in Dendrimers; IV. Targeting Delivery of Dendrimers; A. Folic Acid Dendrimers for Cancer Targeting; B. Antibody-Dendrimer for Cancer Targeting; C. Glycodendrimer for Cancer Targeting; V. Dendrimers for Therapy.. A. Dendrimers for Boron-Neutron TherapyB. Dendrimers for Photodynamic Therapy; C. Dendrimers for Photothermal Therapy; D. Dendrimers for Gene Therapy; VI. Dendrimers as Imaging Agents for Inspection; A. Molecular Probes; B. Magnetic Resonance Imaging; C. X-ray Imaging and CT; D. Optical Fluorescence Imaging; VII. Conclusions; References; Carbohydrate-Based Nanoparticles for Potential Applications in Medicine; I. Introduction; II. Metallic Carbohydrate-Based Nanoparticles for In Vitro Detection of Cells and Pathogens; A. Detection of Cells; B. Detection of Pathogens.
    Notes to AvailabilityPřístup pouze pro oprávněné uživatele
    NoteZpůsob přístupu: World Wide Web
    DefektyeBooks on EBSCOhost
    Subj. Headings lékařství medicine * nanomedicína nanomedicine * nanomateriály nanomaterials
    Form, Genre elektronické knihy electronic books
    Conspect61 - Lékařské vědy. Lékařství
    UDC 61 , 61-022.532 , 620.2-022.532 , (0.034.2:08)
    CountryKalifornie
    Languageangličtina
    Document kindElectronic sources
    URLhttp://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=453704
    book

    book


    This volume explores some of the most exciting recent advances in basic research on nanoparticles in translational science and medicine and how this knowledge is leading to advances in the various fields.* This series provides a forum for discussion of new discoveries, approaches, and ideas * Contributions from leading scholars and industry experts * Reference guide for researchers involved in molecular biology and related fields.

    Front Cover; Nanoparticles in Translational Science and Medicine; Copyright; Contents; Contributors; Preface; Liposomes and Other Vesicular Systems ... ; I. Introduction; A. Molecular Self-assembly: Principles; B. Vesicles: Supramolecular Structures from Self-assembled Amphiphilic Molecules; II. Description and Classification of Vesicles; III. Techniques for Vesicle Structural Characterization; A. Size, Size Distribution, and Concentration; B. Zeta Potential; C. Morphology; D. Membrane Supramolecular Organization; E. Interaction Strength of Biomolecules with Vesicles; F. Drug Content Analysis.IV. Vesicles as Carriers for the Delivery of Bioactive MoleculesV. Methods of Preparation; A. Conventional Methods for the Preparation of Drug-Loaded Vesicles; B. Compressed Fluid-Based Methods for the Preparation of Drug-Loaded Vesicles; VI. Conclusions and Future Challenges; References; Luminescent Quantum Dots, Making Invisibles Visible in Bioimaging; I. Introduction; A. QDs, Go-Between Nanotechnology, and Biotechnology; B. Advantages of QDs Over Fluorescent Dyes in Bioimaging; II. Preparation of QDs for Bioconjugation; A. Synthesis of Core QDs; B. Formation of Shells for Bioconjugation.III. Labeling Cell Surfaces with QDsA. Nonspecific Labeling of Cell Surfaces; B. Specific Labeling of Cell Surfaces; IV. Delivery of QDs in Living Cells; A. Nonspecific Delivery; a. Arginine-Rich Peptides; b. Nuclear Localization Signals; c. Insect Neuropeptides; B. Specific Delivery; V. Photodynamic Therapy by Quantum Dots; A. ROS, Key to PDT; B. QDs for PDT of Cancer; C. QDs Versus Conventional PS Drugs for PDT; D. QD and Photosensitizer Hybrids as Drugs for PDT; VI. Concluding Remarks; References; Fabrication of Dendrimers Toward Biological Application; I. Introduction.II. Are Dendrimers Attractive in Biomedical Sciences?A. In Vitro Cytotoxicity of Dendrimers; B. In Vivo Toxicity of Dendrimers; C. How to Solve the Problems of Biomedical Toxicity; III. Drug Delivery Systems of Dendrimers; A. Load of Drugs by Physical Doping in Dendrimers; B. Release of Drugs Loaded by Physical Doping in Dendrimers; C. Delivery of Drugs Loaded by Chemical Binding in Dendrimers; IV. Targeting Delivery of Dendrimers; A. Folic Acid Dendrimers for Cancer Targeting; B. Antibody-Dendrimer for Cancer Targeting; C. Glycodendrimer for Cancer Targeting; V. Dendrimers for Therapy.A. Dendrimers for Boron-Neutron TherapyB. Dendrimers for Photodynamic Therapy; C. Dendrimers for Photothermal Therapy; D. Dendrimers for Gene Therapy; VI. Dendrimers as Imaging Agents for Inspection; A. Molecular Probes; B. Magnetic Resonance Imaging; C. X-ray Imaging and CT; D. Optical Fluorescence Imaging; VII. Conclusions; References; Carbohydrate-Based Nanoparticles for Potential Applications in Medicine; I. Introduction; II. Metallic Carbohydrate-Based Nanoparticles for In Vitro Detection of Cells and Pathogens; A. Detection of Cells; B. Detection of Pathogens.

Number of the records: 1  

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