Plasma Cancer Therapy, 1st ed. 2020 Springer Series on Atomic, Optical, and Plasma Physics Series, Vol. 115
Langue : Anglais
Coordonnateur : Keidar Michael
This book, written by key researchers in the field, provides a comprehensive analysis and overview of the state of the art of plasma-based cancer therapy. Recent progress in atmospheric plasmas has led to non-thermal or cold atmospheric plasma (CAP) devices with ion temperatures close to room temperature. In contrast to many existing anti-cancer approaches, CAP is a selective anti-cancer modality which has demonstrated significant potential in cancer therapy.
Written by a global, cross-disciplinary group of leading researchers, this book covers basic theory, generation, diagnostics, and simulation of cold atmospheric plasma, as well as their clinical application in cancer therapy, immunotherapy, and future outlook, giving a complete picture of the field.
It is meant for a broad audience, from students to engineers and scientists, who are interested in the emerging world of plasma medical applications. It presents recent advances, primary challenges, and future directions of this exciting, cutting-edge field.
Chapter 1 : Introduction. Plasma Fundamentals for Cancer Therapy. - Chapter 2 : Cold atmospheric plasma sources for cancer applications. - Chapter 3: Plasma diagnostics. - Chapter 4: Cancer applications overview. - Chapter 5: BioChemistry and microbiology of plasma in cancer therapy. - Chapter 6. Plasma Activated Media. - Chapter 7. Plasma and plasma-cell interaction simulations. - Chapter 8. Plasma based immunotherapy. - Chapter 9. Adaptive plasma and machine learning. - Chapter 10: Fundamental Studies of the effect of Plasma on Plasmid DNA, Cancer Cells, and Virus. - Chapter 11: Mechanism of cancer therapy and recent advances. - Chapter 12: Clinical application. - Chapter 13. Summary and Outlook.
Michael Keidar is the A. James Clark Professor of Engineering at the George Washington University. His research concerns plasma medicine, advanced spacecraft propulsion, and plasma-based nanotechnology. He has authored over 280 journal articles, over 290 papers in refereed conference proceedings, 3 books, 2 book chapters, and 12 patents. He received the 2017 Davidson Award in Plasma Physics, and in 2016 he received the American Institute of Astronautics and Aeronautics (AIAA) Engineer of the Year Award for his work on micropropulsion, which resulted in the successful launch of a nanosatellite with plasma thrusters developed by his laboratory.
The first book dedicated to plasma applications in cancer therapy A comprehensive overview of this promising, cutting-edge treatment Appeals to students and researchers in physics, engineering, and biomedical sciences
Date de parution : 08-2021
Ouvrage de 310 p.
15.5x23.5 cm
Date de parution : 08-2020
Ouvrage de 310 p.
15.5x23.5 cm
Thèmes de Plasma Cancer Therapy :
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