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Radiation Damage in Biomolecular Systems

  • Book
  • © 2012

Overview

Editors:
  1. Gustavo García Gómez-Tejedor

    1. , Consejo Superior de Investigaciones Cien, Instituto de Física Fundamental (IFF), Madrid, Spain

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  2. Martina Christina Fuss

    1. Consejo Superior de Investigaciones Cien, Instituto de Física Fundamental (IFF), Madrid, Spain

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    You can also search for this editor in PubMed   Google Scholar

Part of the book series: Biological and Medical Physics, Biomedical Engineering (BIOMEDICAL)

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Table of contents (30 chapters)

  1. Front Matter

    Pages i-xiii
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  2. Radiation Induced Damage at the Molecular Level

    1. Front Matter

      Pages 1-1
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    2. Nanoscale Dynamics of Radiosensitivity: Role of Low Energy Electrons

      • Léon Sanche
      Pages 3-43

    3. The Role of Secondary Electrons in Radiation Damage

      • Stephan Denifl, Tilmann D. Märk, Paul Scheier
      Pages 45-58

    4. Electron Transfer-Induced Fragmentation in (Bio)Molecules by Atom-Molecule Collisions

      • Paulo Limão-Vieira, Filipe Ferreira da Silva, Gustavo García Gómez-Tejedor
      Pages 59-70

    5. Following Resonant Compound States after Electron Attachment

      • Ana G. Sanz, Francesco Sebastianelli, Francesco A. Gianturco
      Pages 71-86

    6. Electron–Biomolecule Collision Studies Using the Schwinger Multichannel Method

      • Carl Winstead, Vincent McKoy
      Pages 87-113

    7. Resonances in Electron Collisions with Small Biomolecules Using the R-Matrix Method

      • Lilianna Bryjko, Amar Dora, Tanja van Mourik, Jonathan Tennyson
      Pages 115-126

    8. A Multiple-Scattering Approach to Electron Collisions with Small Molecular Clusters

      • Jimena D. Gorfinkiel, Stefano Caprasecca
      Pages 127-142

    9. Positronium Formation and Scattering from Biologically Relevant Molecules

      • G. Laricchia, D. A. Cooke, S. J. Brawley
      Pages 143-153

    10. Total Cross Sections for Positron Scattering from Bio-Molecules

      • Luca Chiari, Michael J. Brunger, Antonio Zecca
      Pages 155-163

    11. Soft X-ray Interaction with Organic Molecules of Biological Interest

      • P. Bolognesi, P. O’Keeffe, L. Avaldi
      Pages 165-176

    12. Ion-Induced Radiation Damage in Biomolecular Systems

      • Thomas Schlathölter
      Pages 177-190

    13. Theory and Calculation of Stopping Cross Sections of Nucleobases for Swift Ions

      • Stephan P. A. Sauer, Jens Oddershede, John R. Sabin
      Pages 191-200

  3. Modelling Radiation Damage

    1. Front Matter

      Pages 201-201
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    2. Monte Carlo Methods to Model Radiation Interactions and Induced Damage

      • Antonio Muñoz, Martina C. Fuss, M. A. Cortés-Giraldo, Sébastien Incerti, Vladimir Ivanchenko, Anton Ivanchenko et al.
      Pages 203-225

    3. Positron and Electron Interactions and Transport in Biological Media

      • Ronald White, James Sullivan, Ana Bankovic, Sasa Dujko, Robert Robson, Zoran Lj. Petrovic et al.
      Pages 227-238

    4. Energy Loss of Swift Protons in Liquid Water: Role of Optical Data Input and Extension Algorithms

      • Rafael Garcia-Molina, Isabel Abril, Ioanna Kyriakou, Dimitris Emfietzoglou
      Pages 239-261

    5. Quantum-Mechanical Contributions to Numerical Simulations of Charged Particle Transport at the DNA Scale

      • Christophe Champion, Mariel E. Galassi, Philippe F. Weck, Omar Fojón, Jocelyn Hanssen, Roberto D. Rivarola
      Pages 263-289

    6. Multiscale Approach to Radiation Damage Induced by Ions

      • Andrey V. Solov’yov, Eugene Surdutovich
      Pages 291-299
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Keywords

About this book

Since the discovery of X-rays and radioactivity, ionizing radiations have been widely applied in medicine both for diagnostic and therapeutic purposes. The risks associated with radiation exposure and handling led to the parallel development of the field of radiation protection.
Pioneering experiments done by Sanche and co-workers in 2000 showed that low-energy secondary electrons, which are abundantly generated along radiation tracks, are primarily responsible for radiation damage through successive interactions with the molecular constituents of the medium. Apart from ionizing processes, which are usually related to radiation damage, below the ionization level low-energy electrons can induce molecular fragmentation via dissociative processes such as internal excitation and electron attachment. This prompted collaborative projects between different research groups from European countries together with other specialists from Canada,  the USA and Australia.
This book summarizes the advances achieved by these research groups after more than ten years of studies on radiation damage in biomolecular systems.

An extensive Part I deals with recent experimental and theoretical findings on radiation induced damage at the molecular level. It includes many contributions on electron and positron collisions with biologically relevant molecules. X-ray and ion interactions are also covered. Part II addresses different approaches to radiation damage modelling. In Part III biomedical aspects of radiation effects are treated on different scales. After the physics-oriented focus of the previous parts, there is a gradual transition to biology and medicine with the increasing size of the object studied. Finally, Part IV is dedicated to current trends and novel techniques in radiation reserach and the applications hence arising. It includes new developments in radiotherapy and related cancer therapies, as well as technical optimizations of accelerators and totally new equipment designs, giving a glimpse of the near future of radiation-based medical treatments.

Editors and Affiliations

  • , Consejo Superior de Investigaciones Cien, Instituto de Física Fundamental (IFF), Madrid, Spain

    Gustavo García Gómez-Tejedor

  • Consejo Superior de Investigaciones Cien, Instituto de Física Fundamental (IFF), Madrid, Spain

    Martina Christina Fuss

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