Principles and Technologies for Electromagnetic Energy Based Therapies
Editat de Punit Prakash, Govindarajan Srimathveeravallien Limba Engleză Paperback – 9 dec 2021
Readers can access information on incorporation of preclinical testing, clinical studies and IP protection in this book, along with in-depth technical background for engineers on electromagnetic phenomena within the human body and selected therapies. It covers both engineering and biological/medical materials and gives a full perspective on electromagnetics therapies. Unique features include content on tumor treating fields and the development and translation of biomedical devices.
- Provides in-depth technical background on electromagnetic energy-based therapies, along with real world examples on how to design devices and systems for delivering electromagnetic energy-based therapies
- Includes guidance on issues that are relevant for translating the technology to the market, such as intellectual property, regulatory issues, and preclinical testing
- Companion site includes COMSOL models, MATLAB code, and lab protocols
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Specificații
ISBN-13: 9780128205945
ISBN-10: 0128205946
Pagini: 422
Ilustrații: Approx. 300 illustrations (300 in full color)
Dimensiuni: 191 x 235 mm
Greutate: 0.73 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128205946
Pagini: 422
Ilustrații: Approx. 300 illustrations (300 in full color)
Dimensiuni: 191 x 235 mm
Greutate: 0.73 kg
Editura: ELSEVIER SCIENCE
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Public țintă
The target audience for this book is readers who seek an introduction to electromagnetic energy-based treatments, with emphasis on ablation therapy. The reader should have a background in engineering, have taken an undergraduate course in electromagnetics, and have an interest in the development and use of medical devices. Knowledge in physiology and anatomy is helpful, but not required. The book is primarily intended for use as a textbook for upper level undergraduate and/or graduate level courses teaching the principles of electromagnetic field based therapeutic technologies. The book may also be of interest to persons in the industry, particularly medical device engineers and clinical support specialists, and clinicians who seeking to learn more about the technical foundations of electromagnetic field-based therapy.Cuprins
Section 1: Introduction and Theoretical Foundations
1. History, development and application of electromagnetic fields in medicine
2. Biophysical principles of electromagnetic field interactions with biological tissues
3. Computational methods for the modeling of electromagnetic fields in biological
tissues
3a. Low frequency, electrical spectrum (pulsed electric fields, TTF, RF)
3b. High frequency, electromagnetic spectrum (MW)
4. Thermal effects of electromagnetic fields
5. Tissue property determinants of electromagnetic therapies
Section 2: Pulsed Electric Fields
6. Introduction to PEF therapy and its applications
7. Working principles of PEF therapy
8. Instrumentation for PEF therapy
9. In vitro and in vivo testing of PEF therapy
10. Clinical application of PEF: Oncology
11. Clinical application of PEF: Other
Section 3: Radiofrequency Energy
12. Introduction to RF energy and its applications
13. Working principles of RF therapy
14. Instrumentation for RF therapy
15. In vitro and in vivo testing of RF therapy
16. Clinical application of PEF: Oncology
17. Clinical application of PEF: Other
Section 3: Tumor Treating Fields
18. Introduction to TTF and its applications
19. Working principles of TTF therapy
20. Instrumentation for TTF therapy
21. In vitro and in vivo testing of TTF therapy
22. Clinical application of TTF: Oncology
Section 4: Microwave Energy
23. Introduction to MW energy and its applications
24. Working principles of MW therapy
25. Instrumentation for MW therapy
26. In vitro and in vivo testing of MW therapy
27. Clinical application of MW: Oncology
28. Clinical application of MW: Other
Section 5: Non-Ablative Applications
29. Brain stimulation
30. Peripheral nerve stimulation
31. Cardiac pacemaker and defibrillators
32. Pain control
33. Emerging topics
Section 6: Development and Translation
34. Regulatory and approvals
35. Preclinical testing
36. Clinical trials and design
37 IP protection
38. Case study 1
39. Case study 2
1. History, development and application of electromagnetic fields in medicine
2. Biophysical principles of electromagnetic field interactions with biological tissues
3. Computational methods for the modeling of electromagnetic fields in biological
tissues
3a. Low frequency, electrical spectrum (pulsed electric fields, TTF, RF)
3b. High frequency, electromagnetic spectrum (MW)
4. Thermal effects of electromagnetic fields
5. Tissue property determinants of electromagnetic therapies
Section 2: Pulsed Electric Fields
6. Introduction to PEF therapy and its applications
7. Working principles of PEF therapy
8. Instrumentation for PEF therapy
9. In vitro and in vivo testing of PEF therapy
10. Clinical application of PEF: Oncology
11. Clinical application of PEF: Other
Section 3: Radiofrequency Energy
12. Introduction to RF energy and its applications
13. Working principles of RF therapy
14. Instrumentation for RF therapy
15. In vitro and in vivo testing of RF therapy
16. Clinical application of PEF: Oncology
17. Clinical application of PEF: Other
Section 3: Tumor Treating Fields
18. Introduction to TTF and its applications
19. Working principles of TTF therapy
20. Instrumentation for TTF therapy
21. In vitro and in vivo testing of TTF therapy
22. Clinical application of TTF: Oncology
Section 4: Microwave Energy
23. Introduction to MW energy and its applications
24. Working principles of MW therapy
25. Instrumentation for MW therapy
26. In vitro and in vivo testing of MW therapy
27. Clinical application of MW: Oncology
28. Clinical application of MW: Other
Section 5: Non-Ablative Applications
29. Brain stimulation
30. Peripheral nerve stimulation
31. Cardiac pacemaker and defibrillators
32. Pain control
33. Emerging topics
Section 6: Development and Translation
34. Regulatory and approvals
35. Preclinical testing
36. Clinical trials and design
37 IP protection
38. Case study 1
39. Case study 2