Magnetic Materials and Technologies for Medical Applications
portes grátis
Magnetic Materials and Technologies for Medical Applications
Tishin, Alexander
Elsevier Science Publishing Co Inc
11/2021
662
Mole
Inglês
9780128225325
15 a 20 dias
1000
Descrição não disponível.
Section 1 - Introduction to magnetism
1. Short history overview of magnetism and magnetic technologies for medical applications
Alexander Pyatakov, Zoya Pyatakova and Alexander M. Tishin
2. Basics of magnetism and magnetic materials
Nikolay V. Mushnikov
Section 2 - Well-established technologies-development and perspectives
3. Magnetic nanoparticles and nanoobjects used for medical applications
Garret Dee and Yurii K. Gun'ko
4. Advances in magnetic resonance tomography
Yury A. Pirogov, Nikolay V. Anisimov, Olga S. Pavlova, Galina E. Pavlovskaya, Elnur Sadykhov, Mikhail V. Gulyaev, Dmitry V. Volkov, Natalia Semenova, Anna V. Naumova, Thomas Meersmann, Carlos Cabal-Mirabal and Lev L. Gervits
5. High-sensitive magnetometric measuring systems for biomagnetic imaging, recording and diagnostics
Yuri Maslennikov
6. Magnetic navigation systems
Gurjit Singh
7. Magnetic cell separation
Jun Zhang and Nam-Trung Nguyen
8. Noninvasive electrical and magnetic brain stimulation (with insights on the effects of cellular phones emissions): basic principles and procedures for clinical application
Paolo Maria Rossini, Francesca Miraglia, Bianca Orlando, Francesco Iodice, Florinda Ferreri, Maria Cotelli, Elda Judica and Fabrizio Vecchio
Section 3 - Recently released to the market technologies
9. The role of magnetic hyperthermia in heating-based oncological therapies
Ingrid Hilger
10. Magnetic tracking and positioning in endoscopy
Xiaodong Duan
11. Magnetic particle imaging
Jochen Franke and Jorge Chacon-Caldera
Section 4 - Technologies under development
12. Magnetic field interpolation for remote magnetic navigation in minimally invasive surgery
Samuel L. Charreyron and Bradley J. Nelson
13. Composite magnetic/polymer delivery systems for medical applications
Maria V. Lomova and Gleb B. Sukhorukov
14. Magnetocaloric effect for medical applications
Aleksei S. Komlev and Vladimir I. Zverev
15. Multiferroic, magnetic, and magnetoelectric nanomaterials for medical applications
Abdulkarim Amirov
16. Medical applications of magnetorheological fluids-a review
Jong-Seok Oh and Seung-Bok Choi
17. Magnetorheological composites for biomedical applications
Iuliia Alekhina, Elena Kramarenko, Liudmila Makarova and Nikolai Perov
18. Advanced functional magnetic microwires for magnetic sensors suitable for biomedical applications
Arcady Zhukov, Mihail Ipatov, Paula Corte-Leon, Juan Maria Blanco and Valentina Zhukova
19. The effect of natural as well as artificial magnetic fields on the cardiovascular system of healthy volunteers and patients with cardiovascular pathology
Yury I. Gurfinkel, Roman Y. Pishchalnikov and Alexander M. Tishin
Section 5 - Commercial aspects of the use of magnetic technology in medicine
20. The global market for "magnetic? medicine: commercial opportunities
Alexander Kritskiy
1. Short history overview of magnetism and magnetic technologies for medical applications
Alexander Pyatakov, Zoya Pyatakova and Alexander M. Tishin
2. Basics of magnetism and magnetic materials
Nikolay V. Mushnikov
Section 2 - Well-established technologies-development and perspectives
3. Magnetic nanoparticles and nanoobjects used for medical applications
Garret Dee and Yurii K. Gun'ko
4. Advances in magnetic resonance tomography
Yury A. Pirogov, Nikolay V. Anisimov, Olga S. Pavlova, Galina E. Pavlovskaya, Elnur Sadykhov, Mikhail V. Gulyaev, Dmitry V. Volkov, Natalia Semenova, Anna V. Naumova, Thomas Meersmann, Carlos Cabal-Mirabal and Lev L. Gervits
5. High-sensitive magnetometric measuring systems for biomagnetic imaging, recording and diagnostics
Yuri Maslennikov
6. Magnetic navigation systems
Gurjit Singh
7. Magnetic cell separation
Jun Zhang and Nam-Trung Nguyen
8. Noninvasive electrical and magnetic brain stimulation (with insights on the effects of cellular phones emissions): basic principles and procedures for clinical application
Paolo Maria Rossini, Francesca Miraglia, Bianca Orlando, Francesco Iodice, Florinda Ferreri, Maria Cotelli, Elda Judica and Fabrizio Vecchio
Section 3 - Recently released to the market technologies
9. The role of magnetic hyperthermia in heating-based oncological therapies
Ingrid Hilger
10. Magnetic tracking and positioning in endoscopy
Xiaodong Duan
11. Magnetic particle imaging
Jochen Franke and Jorge Chacon-Caldera
Section 4 - Technologies under development
12. Magnetic field interpolation for remote magnetic navigation in minimally invasive surgery
Samuel L. Charreyron and Bradley J. Nelson
13. Composite magnetic/polymer delivery systems for medical applications
Maria V. Lomova and Gleb B. Sukhorukov
14. Magnetocaloric effect for medical applications
Aleksei S. Komlev and Vladimir I. Zverev
15. Multiferroic, magnetic, and magnetoelectric nanomaterials for medical applications
Abdulkarim Amirov
16. Medical applications of magnetorheological fluids-a review
Jong-Seok Oh and Seung-Bok Choi
17. Magnetorheological composites for biomedical applications
Iuliia Alekhina, Elena Kramarenko, Liudmila Makarova and Nikolai Perov
18. Advanced functional magnetic microwires for magnetic sensors suitable for biomedical applications
Arcady Zhukov, Mihail Ipatov, Paula Corte-Leon, Juan Maria Blanco and Valentina Zhukova
19. The effect of natural as well as artificial magnetic fields on the cardiovascular system of healthy volunteers and patients with cardiovascular pathology
Yury I. Gurfinkel, Roman Y. Pishchalnikov and Alexander M. Tishin
Section 5 - Commercial aspects of the use of magnetic technology in medicine
20. The global market for "magnetic? medicine: commercial opportunities
Alexander Kritskiy
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Magnetism; magnetic materials; magnetic nanoparticles; magnetic drug delivery; magnetic biosensors; magnetorheological fluids; magnetic resonance tomography; magnetic cell separation; regenerative medicine; magnetotherapy; magnetic brain stimulation; ?Animal magnetism; Arterial blood pressure; Artificial electromagnetic fields; Atrial fibrillation; Biocompatibility; Biomagnetism; Biomedical imaging; Biomedical investigations; Biomedicine; Cancer; Capillary blood velocity; Capsule endoscope localization; Capsules; Cardiac arrhythmia; Cardio intervals; Cardiovascular pathology; Cardiovascular system; Catheter ablation; Cell separation; Cell-tracking technique; Cells; Coated implants; Column-based MACS; Column-free MACS; Comparison with manual ablation; Core@shell structures; DC-SQUID; DC-SQUID-based magnetometers; Direct current stimulation; Drug delivery; Drug delivery systems; Electroanatomic mapping; Electromagnetic hyperthermia; Electromagnetic navigation; Electromagnetic tracking; FeRh; Ferrofluid; Ferrofluids; Fluorine-19; Functional MRI; Functionalization; Gels; Geomagnetic fields; Geomagnetic storm; Haptic interface; Haptic master; History of magnetic therapy; Hyperpolarization; Hyperthermia; Image integration; Internal stresses; Interpolation; Iron oxide; Krypton-83; Lab on a chip; Long-term outcomes; Low-field MRI; MR fluid; MRI diagnostic; Magnetic actuation; Magnetic anisotropy; Magnetic capsule endoscope; Magnetic cell separation; Magnetic drug delivery; Magnetic elastomers; Magnetic field; Magnetic fluid hyperthermia; Magnetic fluid hyperthermia (MFH); Magnetic hyperthermia; Magnetic medicine; Magnetic micro/nanobeads; Magnetic microcapsules; Magnetic microwires; Magnetic moment; Magnetic nanomarkers; Magnetic nanoparticles; Magnetic nanoparticles (MNPs); Magnetic navigation system; Magnetic navigation; Magnetic positioning; Magnetic resonance; Magnetic resonance imaging; Magnetic sensors; Magnetic soft matter; Magnetic targeting; Magnetic tracking; Magnetic treatment modalities; Magnetic-activated cell sorting (MACS); Magnetic-based; Magnetism; Magnetization transfer; Magnetocaloric effect; Magnetocalorics; Magnetodeformation; Magnetoelectric heterostructures; Magnetoelectric nanocomposites; Magnetoelectric nanoparticles (MENs); Magnetofluidics; Magnetoimpedance; Magnetophoresis
Section 1 - Introduction to magnetism
1. Short history overview of magnetism and magnetic technologies for medical applications
Alexander Pyatakov, Zoya Pyatakova and Alexander M. Tishin
2. Basics of magnetism and magnetic materials
Nikolay V. Mushnikov
Section 2 - Well-established technologies-development and perspectives
3. Magnetic nanoparticles and nanoobjects used for medical applications
Garret Dee and Yurii K. Gun'ko
4. Advances in magnetic resonance tomography
Yury A. Pirogov, Nikolay V. Anisimov, Olga S. Pavlova, Galina E. Pavlovskaya, Elnur Sadykhov, Mikhail V. Gulyaev, Dmitry V. Volkov, Natalia Semenova, Anna V. Naumova, Thomas Meersmann, Carlos Cabal-Mirabal and Lev L. Gervits
5. High-sensitive magnetometric measuring systems for biomagnetic imaging, recording and diagnostics
Yuri Maslennikov
6. Magnetic navigation systems
Gurjit Singh
7. Magnetic cell separation
Jun Zhang and Nam-Trung Nguyen
8. Noninvasive electrical and magnetic brain stimulation (with insights on the effects of cellular phones emissions): basic principles and procedures for clinical application
Paolo Maria Rossini, Francesca Miraglia, Bianca Orlando, Francesco Iodice, Florinda Ferreri, Maria Cotelli, Elda Judica and Fabrizio Vecchio
Section 3 - Recently released to the market technologies
9. The role of magnetic hyperthermia in heating-based oncological therapies
Ingrid Hilger
10. Magnetic tracking and positioning in endoscopy
Xiaodong Duan
11. Magnetic particle imaging
Jochen Franke and Jorge Chacon-Caldera
Section 4 - Technologies under development
12. Magnetic field interpolation for remote magnetic navigation in minimally invasive surgery
Samuel L. Charreyron and Bradley J. Nelson
13. Composite magnetic/polymer delivery systems for medical applications
Maria V. Lomova and Gleb B. Sukhorukov
14. Magnetocaloric effect for medical applications
Aleksei S. Komlev and Vladimir I. Zverev
15. Multiferroic, magnetic, and magnetoelectric nanomaterials for medical applications
Abdulkarim Amirov
16. Medical applications of magnetorheological fluids-a review
Jong-Seok Oh and Seung-Bok Choi
17. Magnetorheological composites for biomedical applications
Iuliia Alekhina, Elena Kramarenko, Liudmila Makarova and Nikolai Perov
18. Advanced functional magnetic microwires for magnetic sensors suitable for biomedical applications
Arcady Zhukov, Mihail Ipatov, Paula Corte-Leon, Juan Maria Blanco and Valentina Zhukova
19. The effect of natural as well as artificial magnetic fields on the cardiovascular system of healthy volunteers and patients with cardiovascular pathology
Yury I. Gurfinkel, Roman Y. Pishchalnikov and Alexander M. Tishin
Section 5 - Commercial aspects of the use of magnetic technology in medicine
20. The global market for "magnetic? medicine: commercial opportunities
Alexander Kritskiy
1. Short history overview of magnetism and magnetic technologies for medical applications
Alexander Pyatakov, Zoya Pyatakova and Alexander M. Tishin
2. Basics of magnetism and magnetic materials
Nikolay V. Mushnikov
Section 2 - Well-established technologies-development and perspectives
3. Magnetic nanoparticles and nanoobjects used for medical applications
Garret Dee and Yurii K. Gun'ko
4. Advances in magnetic resonance tomography
Yury A. Pirogov, Nikolay V. Anisimov, Olga S. Pavlova, Galina E. Pavlovskaya, Elnur Sadykhov, Mikhail V. Gulyaev, Dmitry V. Volkov, Natalia Semenova, Anna V. Naumova, Thomas Meersmann, Carlos Cabal-Mirabal and Lev L. Gervits
5. High-sensitive magnetometric measuring systems for biomagnetic imaging, recording and diagnostics
Yuri Maslennikov
6. Magnetic navigation systems
Gurjit Singh
7. Magnetic cell separation
Jun Zhang and Nam-Trung Nguyen
8. Noninvasive electrical and magnetic brain stimulation (with insights on the effects of cellular phones emissions): basic principles and procedures for clinical application
Paolo Maria Rossini, Francesca Miraglia, Bianca Orlando, Francesco Iodice, Florinda Ferreri, Maria Cotelli, Elda Judica and Fabrizio Vecchio
Section 3 - Recently released to the market technologies
9. The role of magnetic hyperthermia in heating-based oncological therapies
Ingrid Hilger
10. Magnetic tracking and positioning in endoscopy
Xiaodong Duan
11. Magnetic particle imaging
Jochen Franke and Jorge Chacon-Caldera
Section 4 - Technologies under development
12. Magnetic field interpolation for remote magnetic navigation in minimally invasive surgery
Samuel L. Charreyron and Bradley J. Nelson
13. Composite magnetic/polymer delivery systems for medical applications
Maria V. Lomova and Gleb B. Sukhorukov
14. Magnetocaloric effect for medical applications
Aleksei S. Komlev and Vladimir I. Zverev
15. Multiferroic, magnetic, and magnetoelectric nanomaterials for medical applications
Abdulkarim Amirov
16. Medical applications of magnetorheological fluids-a review
Jong-Seok Oh and Seung-Bok Choi
17. Magnetorheological composites for biomedical applications
Iuliia Alekhina, Elena Kramarenko, Liudmila Makarova and Nikolai Perov
18. Advanced functional magnetic microwires for magnetic sensors suitable for biomedical applications
Arcady Zhukov, Mihail Ipatov, Paula Corte-Leon, Juan Maria Blanco and Valentina Zhukova
19. The effect of natural as well as artificial magnetic fields on the cardiovascular system of healthy volunteers and patients with cardiovascular pathology
Yury I. Gurfinkel, Roman Y. Pishchalnikov and Alexander M. Tishin
Section 5 - Commercial aspects of the use of magnetic technology in medicine
20. The global market for "magnetic? medicine: commercial opportunities
Alexander Kritskiy
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Magnetism; magnetic materials; magnetic nanoparticles; magnetic drug delivery; magnetic biosensors; magnetorheological fluids; magnetic resonance tomography; magnetic cell separation; regenerative medicine; magnetotherapy; magnetic brain stimulation; ?Animal magnetism; Arterial blood pressure; Artificial electromagnetic fields; Atrial fibrillation; Biocompatibility; Biomagnetism; Biomedical imaging; Biomedical investigations; Biomedicine; Cancer; Capillary blood velocity; Capsule endoscope localization; Capsules; Cardiac arrhythmia; Cardio intervals; Cardiovascular pathology; Cardiovascular system; Catheter ablation; Cell separation; Cell-tracking technique; Cells; Coated implants; Column-based MACS; Column-free MACS; Comparison with manual ablation; Core@shell structures; DC-SQUID; DC-SQUID-based magnetometers; Direct current stimulation; Drug delivery; Drug delivery systems; Electroanatomic mapping; Electromagnetic hyperthermia; Electromagnetic navigation; Electromagnetic tracking; FeRh; Ferrofluid; Ferrofluids; Fluorine-19; Functional MRI; Functionalization; Gels; Geomagnetic fields; Geomagnetic storm; Haptic interface; Haptic master; History of magnetic therapy; Hyperpolarization; Hyperthermia; Image integration; Internal stresses; Interpolation; Iron oxide; Krypton-83; Lab on a chip; Long-term outcomes; Low-field MRI; MR fluid; MRI diagnostic; Magnetic actuation; Magnetic anisotropy; Magnetic capsule endoscope; Magnetic cell separation; Magnetic drug delivery; Magnetic elastomers; Magnetic field; Magnetic fluid hyperthermia; Magnetic fluid hyperthermia (MFH); Magnetic hyperthermia; Magnetic medicine; Magnetic micro/nanobeads; Magnetic microcapsules; Magnetic microwires; Magnetic moment; Magnetic nanomarkers; Magnetic nanoparticles; Magnetic nanoparticles (MNPs); Magnetic navigation system; Magnetic navigation; Magnetic positioning; Magnetic resonance; Magnetic resonance imaging; Magnetic sensors; Magnetic soft matter; Magnetic targeting; Magnetic tracking; Magnetic treatment modalities; Magnetic-activated cell sorting (MACS); Magnetic-based; Magnetism; Magnetization transfer; Magnetocaloric effect; Magnetocalorics; Magnetodeformation; Magnetoelectric heterostructures; Magnetoelectric nanocomposites; Magnetoelectric nanoparticles (MENs); Magnetofluidics; Magnetoimpedance; Magnetophoresis
