Plasma medical science /

Plasma Medical Science describes the progress that has been made in the field over the past five years, illustrating what readers must know to be successful. As non-thermal, atmospheric pressure plasma has been applied for a wide variety of medical fields, including wound healing, blood coagulation,...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Toyokuni, Shinya (Editor ), Ikehara, Yuzuru (Editor ), Kikkawa, Fumitaka (Editor ), Hori, Masaru, 1958- (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Academic Press, [2018]
Temas:
Low temperature plasmas > Therapeutic use.
Blood plasma.
Plasma
Plasmas froids > Emploi en th�erapeutique.
Plasma.
HEALTH & FITNESS > Holism.
HEALTH & FITNESS > Reference.
MEDICAL > Alternative Medicine.
MEDICAL > Atlases.
MEDICAL > Essays.
MEDICAL > Family & General Practice.
MEDICAL > Holistic Medicine.
MEDICAL > Osteopathy.
Blood plasma
Internet Resources.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title page; Copyright page; Contents; List of Contributors; Preface; Acknowledgments; Chapter General Introduction; Chapter 2
  • Physical and Chemical Basis of Nonthermal Plasma; Chapter 2.1 Introduction; 2.1.1
  • Preface; 2.1.2
  • Physical Basis of NTP; 2.1.3
  • Background to the Hazards of Physical Stress; 2.1.4
  • How to Measure the Strength of NTP Stress; References; Chapter 2.2 Atmospheric-Pressure Plasma Sources for Plasma Medicine Yuichi Setsuhara, Giichiro Uchida, Kosuke Takenaka Jo ... ; 2.2.1
  • Introduction; 2.2.2
  • Fundamentals of Atmospheric-Pressure Plasma Generation.
  • 2.2.3
  • Categories of Plasma Sources in Terms of Irradiation Schemes for Biomedical Applications2.2.4
  • Plasma Sources for Plasma-Jet Type; 2.2.5
  • Plasma Sources for Plasma-Effluent Downstream Type; References; Chapter 2.3 Active Laser Spectroscopy; 2.3.1
  • Introduction; 2.3.2
  • Fundamentals of Laser-Induced Fluorescence (LIF); 2.3.3
  • Humidity Distribution; 2.3.4
  • Correlation Between Reactive Species Densities and Cell Deactivation Rate; 2.3.5
  • Reactive Species Densities in APPJ; References; Chapter 2.4 Optical Diagnostics of Atmospheric Pressure Plasma; 2.4.1
  • Absorption Spectroscopy.
  • 2.5.1
  • Introduction2.5.2
  • Displacement Current and Conduction Current Defined Using Maxwell's Equations; 2.5.3
  • Relationship Between Power and the Poynting Vector; 2.5.4
  • Measurements of the Current and Voltage; References; Chapter 2.6 Plasma chemistry of reactive species in gaseous phase; 2.6.1
  • Introduction; 2.6.2
  • Fluid Mechanics-Air Entrainment in the Effluent; 2.6.3
  • Energy Dissipation Mechanisms; 2.6.4
  • Electric Field and Current Phenomena; 2.6.5
  • Overview of Gaseous Reactions-O, N, OH, and NO Generation; 2.6.6
  • Conclusion; References.
  • Chapter 2.7 Production control of reactive oxygen and nitrogen species2.7.1
  • Introduction; 2.7.2
  • Control of Rons Production by a Low-Frequency Plasma Jet With a Shielding Gas Flow; 2.7.3
  • Control of Rons Production by a Low-Frequency Plasma Jet With/Without Contact to the Liquid Surface; 2.7.4
  • A Large Amount of RNS Production by a High-Frequency Plasma Jet with High Plasma Density; 2.7.5
  • Conclusions; References; Chapter 2.8 Plasma-Liquid and Plasma-Biological Matter Interactions; 2.8.1
  • Introduction; 2.8.2
  • Chemistry-Basics of Reactive Species.
  • 2.8.3
  • Methods for Detecting Aqueous Reactive Species.

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