TY - JOUR
T1 - Heterogeneous FDG-guided dose-escalation for locally advanced NSCLC (the NARLAL2 trial)
T2 - Design and early dosimetric results of a randomized, multi-centre phase-III study
AU - Møller, Ditte Sloth
AU - Nielsen, Tine Bjørn
AU - Brink, Carsten
AU - Hoffmann, Lone
AU - Lutz, Christina Maria
AU - Drøgemüller Lund, Mikkel
AU - Hansen, Olfred
AU - Schytte, Tine
AU - Khalil, Azza Ahmed
AU - Knap, Marianne Marquard
AU - Nyhus, Christa Haugaard
AU - Ottosson, Wiviann
AU - Sibolt, Patrik
AU - Borissova, Svetlana
AU - Josipovic, Mirjana
AU - Persson, Gitte
AU - Appelt, Ane Lindegaard
N1 - Copyright © 2017. Published by Elsevier B.V.
PY - 2017
Y1 - 2017
N2 - BACKGROUND AND PURPOSE: Local recurrence is frequent in locally advanced NSCLC and is primarily located in FDG-avid parts of tumour and lymph nodes. Aiming at improving local control without increasing toxicity, we designed a multi-centre phase-III trial delivering inhomogeneous dose-escalation driven by FDG-avid volumes, while respecting normal tissue constraints and requiring no increase in mean lung dose. Dose-escalation driven by FDG-avid volumes, delivering mean doses of 95Gy (tumour) and 74Gy (lymph nodes), was pursued and compared to standard 66Gy/33F plans.MATERIAL AND METHODS: Dose plans for the first thirty patients enroled were analysed. Standard and escalated plans were created for all patients, blinded to randomization, and compared for each patient in terms of the ability to escalate while protecting normal tissue.RESULTS: The median dose-escalation in FDG-avid areas was 93.9Gy (tumour) and 73.0Gy (lymph nodes). Escalation drove the GTV and CTV to mean doses for the tumour of 87.5Gy (GTV-T) and 81.3Gy (CTV-T) in median. No significant differences in mean dose to lung and heart between standard and escalated were found, but small volumes of e.g. the bronchi received doses between 66 and 74Gy due to escalation.CONCLUSIONS: FDG-driven inhomogeneous dose-escalation achieves large increment in tumour and lymph node dose, while delivering similar doses to normal tissue as homogenous standard plans.
AB - BACKGROUND AND PURPOSE: Local recurrence is frequent in locally advanced NSCLC and is primarily located in FDG-avid parts of tumour and lymph nodes. Aiming at improving local control without increasing toxicity, we designed a multi-centre phase-III trial delivering inhomogeneous dose-escalation driven by FDG-avid volumes, while respecting normal tissue constraints and requiring no increase in mean lung dose. Dose-escalation driven by FDG-avid volumes, delivering mean doses of 95Gy (tumour) and 74Gy (lymph nodes), was pursued and compared to standard 66Gy/33F plans.MATERIAL AND METHODS: Dose plans for the first thirty patients enroled were analysed. Standard and escalated plans were created for all patients, blinded to randomization, and compared for each patient in terms of the ability to escalate while protecting normal tissue.RESULTS: The median dose-escalation in FDG-avid areas was 93.9Gy (tumour) and 73.0Gy (lymph nodes). Escalation drove the GTV and CTV to mean doses for the tumour of 87.5Gy (GTV-T) and 81.3Gy (CTV-T) in median. No significant differences in mean dose to lung and heart between standard and escalated were found, but small volumes of e.g. the bronchi received doses between 66 and 74Gy due to escalation.CONCLUSIONS: FDG-driven inhomogeneous dose-escalation achieves large increment in tumour and lymph node dose, while delivering similar doses to normal tissue as homogenous standard plans.
U2 - 10.1016/j.radonc.2017.06.022
DO - 10.1016/j.radonc.2017.06.022
M3 - Journal article
C2 - 28688525
SN - 0167-8140
VL - 124
SP - 311
EP - 317
JO - Radiotherapy & Oncology
JF - Radiotherapy & Oncology
IS - 2
ER -