Biologically Optimized Radiation Therapy

Authors

  • Anders Brahme From the Department of Medical Radiation Physics, Karolinska Institutet and Stockholm University, Stockholm, Sweden
  • Johan Nilsson From the Department of Medical Radiation Physics, Karolinska Institutet and Stockholm University, Stockholm, Sweden
  • Dzevad Belkic From the Department of Medical Radiation Physics, Karolinska Institutet and Stockholm University, Stockholm, Sweden

DOI:

https://doi.org/10.1080/02841860152619142

Abstract

Advanced treatment optimization is possible using quantitative radiobiological dose response models. Although all present models are necessarily linked to a certain degree of uncertainty, this will only have a small influence on the relative shape of the resultant optimal dose distribution. However the exact dose level should perferably be determined clinically by dose escalation with the optimized dose plan as a control arm. It is shown that a large part of the biological effect of high linear energy transfer radiation is due to the spectrum of low-energy &#105 -electrons that can generate dense clusters of complex DNA damage. Such electrons are efficiently generated by low-energy photons or densely ionizing ion beams and to a considerably smaller degree by high-energy electrons, photons and protons. A new analytical expression is developed for the effective radiation resistance of heterogeneous tumors, making it possible to approximate the response of such tumors by the effective clonogen number N 0,eff and the effective D 0 value D 0,eff . It is shown that a relatively small number of resistant tumor cells may well be sufficient to dominate the response of hypoxic or otherwise heterogeneous tumors. Finally, several examples are given of intensity-modulated dose distributions generated by multiple radiation modalities, the total effect of which is biologically optimized.

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Published

2001-01-01

How to Cite

Brahme, A., Nilsson, J., & Belkic, D. (2001). Biologically Optimized Radiation Therapy. Acta Oncologica, 40(6), 725–734. https://doi.org/10.1080/02841860152619142