Radiat Oncol J.  2011 Sep;29(3):135-146. 10.3857/roj.2011.29.3.135.

Basics of particle therapy I: physics

Affiliations
  • 1Department of Radiation Oncology, Kyung Hee University School of Medicine, Seoul, Korea. kangjino@paran.com

Abstract

With the advance of modern radiation therapy technique, radiation dose conformation and dose distribution have improved dramatically. However, the progress does not completely fulfill the goal of cancer treatment such as improved local control or survival. The discordances with the clinical results are from the biophysical nature of photon, which is the main source of radiation therapy in current field, with the lower linear energy transfer to the target. As part of a natural progression, there recently has been a resurgence of interest in particle therapy, specifically using heavy charged particles, because these kinds of radiations serve theoretical advantages in both biological and physical aspects. The Korean government is to set up a heavy charged particle facility in Korea Institute of Radiological & Medical Sciences. This review introduces some of the elementary physics of the various particles for the sake of Korean radiation oncologists' interest.

Keyword

Proton; Neutron; Carbon ion; Particle therapy

MeSH Terms

Korea
Linear Energy Transfer
Neutrons
Protons
Protons
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