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Advances in Radiation Therapy


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SJ, et al: Awakening the immune system with radiation: optimal dose and fractionation. Cancer Lett 2015;368:185–190.

      Franziska Eckert, MD

      Department of Radiation Oncology, Eberhard Karls University of Tübingen

      Hoppe-Seyler-Strasse 3

      DE–2076 Tübingen (Germany)

      E-Mail [email protected]

      Guckenberger M, Combs SE, Zips D (eds): Advances in Radiotherapy.

      Prog Tumor Res. Basel, Karger, 2018, vol 44, pp 11–24 (DOI: 10.1159/000486985)

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      W. Woliner-van der Weg · P.N. Span · P.M. Braam · J. Bussink

      Department of Radiation Oncology, Radboud University Medical Center, Nijmegen, The Netherlands

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      Abstract

      Ideally, each patient with a malignancy who is eligible for radiation therapy should receive the most tumoricidal form of this this treatment with the lowest possible risk of toxicity. To overcome radiotherapy resistance, some patients would benefit from a more aggressive approach. This could be treatment intensification, for example by acceleration of the treatment to prevent the negative effects of accelerated tumor cell proliferation, or by boosting certain areas to specifically address intrinsic radioresistance, or a combination of radiotherapy with, for example, a hypoxic cell sensitizer or chemotherapy to reduce the radiotherapy resistance caused by hypoxia. For some patients, one of these approaches can be beneficial but for others could lead to unacceptable side effects. Therefore, it is highly desirable to make the selection upfront. The use of imageable biomarkers could be the key to a more patient-tailored treatment. Different biomarkers for hypoxia and proliferation that could be valuable for radiotherapy are discussed here, including their mechanism, the imaging procedure, quantification, and the value of the results.

      © 2018 S. Karger AG, Basel

      In contrast to biopsies and characteristics derived from blood samples, imaging provides 3-dimensional (3D) information about tumor characteristics. At the cost of a relatively low resolution – that is relative to the microscopic or even molecular level at which resistance takes place – information is obtained for the whole tumor. In general, imaging can be performed repetitively and, apart from the additional radiation burden or administration of contrast fluid or radioactive compounds, it is noninvasive. Another advantage of imaging is its already defined role in diagnosis and patient management [1].