Magnetic nanoparticles in human health and medicine : current medical applications and alternative therapy of cancer /
edited by Costica Caizer, Mahendra Rai.
- 1 online resource
Includes bibliographical references and index.
An introduction to magnetic nanoparticles : from bulk to nanoscale magnetism and their applicative potential in human health and medicine / Costica Caizer, Shital Bonde, and Mahendra Rai -- Magnetic nanoparticles in nanomedicine / Gabriela Fabiola Stiufiuc, Cristian Iacovita, Valentin Toma, Rares Ionuț Stiufiuc, Romulus Tetean and Constantin Mihai Lucaciu -- Clustering of magnetic nanoparticles for nanomedicine / Giacomo Mandriota, Riccardo Di Corato -- Multifunctional bioactive magnetic scaffolds with tailored features for bone tissue engineering / Teresa Russo, Roberto De Santis, Valentina Peluso, Antonio Gloria -- Magnetic nanoparticles in the development of polymer scaffolds for medical applications / Larissa Stieven Montagna, Ana Paula da Silva, Amanda de Sousa Martinez de Freitas, Ana Paula Lemes -- Magnetic polymer colloids for ultrasensitive molecular imaging / Sundas Riaz, Sumera Khizar, Nasir M. Ahmad, Gul Shahnaz, Noureddine Lebaz, Abdelhamid Elaissari -- Iron oxide nanoparticles in anticancer drug delivery and imaging diagnostics / Miroslava Nedyalkova, Boyan Todorov, Haruna L. Barazorda-Ccahuanac, Sergio Madurga -- Functional addressable magnetic domains and their potential applications in theranostics / Sihomara Patricia García-Zepeda, Jaime Santoyo-Salazar -- Nuclear/MR magnetic nanoparticle-based probes for multimodal biomedical imaging / Eirini Fragogeorgi, Sophia Sarpaki, Maritina Rouchota, Panagiotis Papadimitroulas and Maria Georgiou -- Magnetic nanoparticles hyperthermia : the past, the present and the future / Dawn Blazer, Yohannes Getahun, Ahmed A. El-Gendy -- Drug delivery and magnetic hyperthermia based on surface engineering of magnetic nanoparticles / Guilherme N. Lucena, Caio C. dos Santos, Gabriel C. Pinto, Bruno E. Amantéa, Rodolfo D. Piazza, Miguel Jafelicci Jr, Rodrigo Fernando C. Marques -- Improving magneto-thermal energy conversion efficiency of magnetic fluids through external DC magnetic field induced orientational ordering / B.B. Lahiri, Surojit Ranoo, Fouzia Khan, John Philip -- Classical magnetoliposomes vs current magnetociclodextrins with ferrimagnetic nanoparticle for high efficiency and low toxicity in alternative therapy of cancer by magnetic / Superparamagnetic Hyperthermia / Costica Caizer, Cristina Dehelean, Codruta Soica -- Efficiency of energy dissipation in nanomagnets : a theoretical study of AC susceptibility / F. Vernay, J.-L. Déjardin, H. Kachkachi -- Magnetic nanoparticle relaxation in biomedical application : focus on simulating nanoparticle heating / Ulrich M. Engelmann, Carolyn Shasha, and Ioana Slabu -- Magnetic nanoparticles in alternative tumors therapy : biocompatibility, toxicity and safety compared with classical methods / Costica Caizer and Mahendra Rai -- The size, shape and composition design of iron oxide nanoparticles to combine MRI, magnetic hyperthermia and photothermia / Barbara Freis, Geoffrey Cotin, Francis Perton, Damien Mertz, Sylvie Begin-Colin, Sophie Laurent, Sebastien Boutry -- Magnetic/Superparamagnetic hyperthermia in clinical trials for non-invasive alternative cancer therapy / Costica Caizer.
"The magnetism of magnetic nanoparticles is different from that of the corresponding bulk magnetic material having the same chemical composition. The different magnetic properties of magnetic nanoparticles are mainly due to their small size, in the field of nanometers - tens of nanometers, which lead to a different magnetic structure from the bulk, and the presence of surface effects regarding the noncollinear arrangement of spins that is pronounced. At the same time, at the sizes of magnetic nanoparticles of the order of nanometers, an additional effect appears: superparamagnetism. As a result the magnetization of small nanoparticles is no longer stable, but fluctuating at 180 degrees under the action of thermal activation. This behavior leads to the lack of hysteresis loop in the magnetization of nanoparticles in the external magnetic field and their magnetization is similar to paramagnetics, according to the Langevin function. All these aspects regarding the magnetism of nanoparticles, with multiple applications in nano- and bio-nanotechnology, are presented and discussed in these chapter compared with the magnetism of bulk magnetic material. Also, in the chapter are presented the most important current biomedical applications of magnetic nanoparticles: diagnosis and detection of diseases, smart drug delivery system, therapeutic applications, theranostic applications of multifunctional magnetic nanoparticles"--