Fratila / De La Fuente | Nanomaterials for Magnetic and Optical Hyperthermia Applicat | Buch | 978-0-12-813928-8 | sack.de

Buch, Englisch, 384 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 854 g

Fratila / De La Fuente

Nanomaterials for Magnetic and Optical Hyperthermia Applicat


Erscheinungsjahr 2018
ISBN: 978-0-12-813928-8
Verlag: Elsevier Science & Technology

Buch, Englisch, 384 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 854 g

ISBN: 978-0-12-813928-8
Verlag: Elsevier Science & Technology

Nanomaterials for Magnetic and Optical Hyperthermia Applications focuses on the design, fabrication and characterization of nanomaterials (magnetic, gold and hybrid magnetic-gold nanoparticles) for in vitro and in vivo hyperthermia applications, both as standalone and adjuvant therapy in combination with chemotherapy. The book explores the potential for more effective cancer therapy solutions through the synergistic use of nanostructured materials as magnetic and optical hyperthermia agents and targeted drug delivery vehicles, while also discussing the challenges related to their toxicity, regulatory and translational aspects. In particular, the book focuses on the design, synthesis, biofunctionalization and characterization of nanomaterials employed for magnetic and optical hyperthermia.

This book will be an important reference resource for scientists working in the areas of biomaterials and biomedicine seeking to learn about the potential of nanomaterials to provide hyperthermia solutions.

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Zielgruppe

<p>Materials Scientists and Biomedical Scientists.</p>

Autoren/Hrsg.

Fratila, Raluca Maria
De La Fuente, Jesús Martínez

Fachgebiete

Weitere Infos & Material

Part 1. Introduction to hyperthermia 1. Basic concepts of hyperthermia 2. Cellular response to heat stress 3. Hyperthermia for combined cancer therapy 4. Current status of clinical trials in hyperthermia 5. Hyperthermia at the nanoscale - why nanomaterials? 6. Fundamentals of magnetic and optical hyperthermia

Part 2. Magnetic hyperthermia 1. Interaction of magnetic nanoparticles with alternating magnetic fields (Q. Pankhurst) 2. Mechanisms of magnetic heat generation (Q. Pankhurst, T. Pellegrino) 3. Design and synthesis of MNPs for hyperthermia applications 4. In vitro magnetic hyperthermia: influence of subcellular localization of magnetic nanoparticles on their heating efficiency 5. Sub-lethal magnetic hyperthermia: cellular response to mild heat stress 6. Current status of in vivo application of magnetic hyperthermia for cancer treatment

Part 3. Optical hyperthermia 1. Principles of optical hyperthermia (J. C. Bischof) 2. Gold plasmonic nanoparticles as photothermal therapy agents 3. Graphene - based nanomaterials for optical hyperthermia applications 4. Novel nanomaterials for photothermal therapy 5. In vitro applications: mechanism of cell death induced by optical hyperthermia 6. Current status of in vivo photothermal therapy applications

Part 4. Synergistic modalities 1. Synergistic effect of dual magnetic/optical heating 2. Hybrid magnetic-plasmonic nanomaterials for bimodal hyperthermia 3. Smart multifunctional magnetic nanoparticles for combined drug delivery and magnetic hyperthermia

De La Fuente, Jesús Martínez
Prof. Jesús Martínez de la Fuente is a Research Professor affiliated to the Institute of Nanoscience and Materials of Aragon, CSIC-University of Zaragoza and CIBER-BBN, in Spain. He created his own research group (BIONANOSURF Group) at the University of Zaragoza in 2007, becoming internationally recognized in nanomaterials and biofunctionalization. The multidisciplinary nature of the group facilitates research and development in numerous areas, including biosensors, gene therapy, magnetism, photochemistry, surface chemistry and molecular metal oxides, among others. Prof. Martínez de la Fuente has extensive experience in the synthesis and characterization of novel nanomaterials and their biofunctionalization for the use and development of the next generation of nanobiosensors and nanotherapeutics. In 2009, he founded the spin-off Nanoimmunotech SL. He has also been a pioneer in the application of gold nanoparticles in gene therapy and he has developed a methodology for the use of gold nanoparticles functionalized with carbohydrates (glyconanoparticles) for the study of biological processes (embryogenesis, cancer, inflammation, etc.). In 2010, he was awarded the Aragón Investiga "Young Researchers" prize, and in 2013, he was rewarded by the Shanghai Administration with the 1000 Talent Plan program to be a Visiting Professor at the Jiao Tong University of Shanghai. Since 2014, he is a permanent researcher at the Institute of Nanoscience and Materials of Aragon-CSIC and member of CIBER-BBN.

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