Publication

Improving interinstitutional and intertechnology consistency of pulmonary SBRT by dose prescription to the mean internal target volume dose

Journal Paper/Review - Jul 1, 2021

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Citation
Wilke L, Moustakis C, Blanck O, Albers D, Albrecht C, Avcu Y, Boucenna R, Buchauer K, Etzelstorfer T, Henkenberens C, Jeller D, Jurianz K, Kornhuber C, Kretschmer M, Lotze S, Meier K, Pemler P, Riegler A, Röser A, Schmidhalter D, Spruijt K, Surber G, Vallet V, Wiehle R, Willner J, Winkler P, Wittig A, Guckenberger M, Tanadini-Lang S. Improving interinstitutional and intertechnology consistency of pulmonary SBRT by dose prescription to the mean internal target volume dose. Strahlenther Onkol 2021; 197:836-846.
Type
Journal Paper/Review (English)
Journal
Strahlenther Onkol 2021; 197
Publication Date
Jul 1, 2021
Issn Electronic
1439-099X
Pages
836-846
Brief description/objective

PURPOSE
Dose, fractionation, normalization and the dose profile inside the target volume vary substantially in pulmonary stereotactic body radiotherapy (SBRT) between different institutions and SBRT technologies. Published planning studies have shown large variations of the mean dose in planning target volume (PTV) and gross tumor volume (GTV) or internal target volume (ITV) when dose prescription is performed to the PTV covering isodose. This planning study investigated whether dose prescription to the mean dose of the ITV improves consistency in pulmonary SBRT dose distributions.

MATERIALS AND METHODS
This was a multi-institutional planning study by the German Society of Radiation Oncology (DEGRO) working group Radiosurgery and Stereotactic Radiotherapy. CT images and structures of ITV, PTV and all relevant organs at risk (OAR) for two patients with early stage non-small cell lung cancer (NSCLC) were distributed to all participating institutions. Each institute created a treatment plan with the technique commonly used in the institute for lung SBRT. The specified dose fractionation was 3 × 21.5 Gy normalized to the mean ITV dose. Additional dose objectives for target volumes and OAR were provided.

RESULTS
In all, 52 plans from 25 institutions were included in this analysis: 8 robotic radiosurgery (RRS), 34 intensity-modulated (MOD), and 10 3D-conformal (3D) radiation therapy plans. The distribution of the mean dose in the PTV did not differ significantly between the two patients (median 56.9 Gy vs 56.6 Gy). There was only a small difference between the techniques, with RRS having the lowest mean PTV dose with a median of 55.9 Gy followed by MOD plans with 56.7 Gy and 3D plans with 57.4 Gy having the highest. For the different organs at risk no significant difference between the techniques could be found.

CONCLUSIONS
This planning study pointed out that multiparameter dose prescription including normalization on the mean ITV dose in combination with detailed objectives for the PTV and ITV achieve consistent dose distributions for peripheral lung tumors in combination with an ITV concept between different delivery techniques and across institutions.