LungTech, an EORTC Phase II trial of stereotactic body radiotherapy for centrally located lung tumours: a clinical perspective

Stereotactic ablative body radiotherapy (SABR) describes a radiotherapy (RT) technique where high doses of radiation are precisely delivered to an extracranial target within the body, using either a single fraction of RT or using multiple small numbers of fractions. SABR has now become the standard of care treatment for patients with early-stage non-small-cell lung cancer (NSCLC) for whom surgery is not appropriate. This systematic review considers the evidence supporting the use of SABR in early-stage NSCLC, reported toxicity rates, the use of SABR in centrally located NSCLC, the use of SABR as salvage therapy following surgery or RT, and future potential drug combinations with SABR.

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“…88 This should hopefully provide high-quality data on the efficacy and safety of this regimen for central tumours.…”

Section: Sabr For Central Lesions In Lung Cancermentioning

confidence: 97%

A systematic review of outcomes following stereotactic ablative radiotherapy in the treatment of early-stage primary lung cancer

Murray

Franks

Hanna

2017

The British Journal of Radiology

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“…Lung, heart and spinal cord were contoured as organs at risk (OAR) and spared as much as possible in the optimization process. The spinal cord was constrained to a dose maximum below 32 Gy [21]. All treatment plans consisted of four co-planar, full arcs with an avoidance sector to spare the contralateral side of the lung.…”

Section: Treatment Planningmentioning

confidence: 99%

Respiratory motion-management in stereotactic body radiation therapy for lung cancer – A dosimetric comparison in an anthropomorphic lung phantom (LuCa)

Ehrbar

Perrin

Peroni

et al. 2016

Radiotherapy and Oncology

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BACKGROUND AND PURPOSE The objective of this study was to compare the latest respiratory motion-management strategies, namely the internal-target-volume (ITV) concept, the midventilation (MidV) principle, respiratory gating and dynamic couch tracking. MATERIALS AND METH-ODS An anthropomorphic, deformable and dynamic lung phantom was used for the dosimetric validation of these techniques. Stereotactic treatments were adapted to match the techniques and five distinct respiration patterns, and delivered to the phantom while radiographic film measurements were taken inside the tumor. To report on tumor coverage, these dose distributions were used to calculate mean doses (Dmean), changes in homogeneity indices (ΔH2-98), gamma agreement, and areas covered by the planned minimum dose (A>Dmin). RESULTS All techniques achieved good tumor coverage (A>Dmin>99.0%) and minor changes in Dmean (±3.2%). Gating and tracking strategies showed superior results in gamma agreement and ΔH2-98 compared to ITV and MidV concepts, which seem to be more influenced by the interplay and the gradient effect. For lung, heart and spinal cord, significant dose differences between the four techniques were found (p<0.05), with lowest doses for gating and tracking strategies. CONCLUSION Active motion-management techniques, such as gating or tracking, showed superior tumor dose coverage and better organ dose sparing than the passive techniques based on tumor margins. This article has been accepted for publication and undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process, which may lead to differences between this version and the Version of Record. Please cite this article as doi: 10.1016/j.radonc.2016.10.011 This article is protected by copyright. All rights reserved. AbstractBackground and Purpose: The objective of this study was to compare the latest respiratory motion-management strategies, namely the internal-target-volume (ITV) concept, the mid-ventilation (MidV) principle, respiratory gating and dynamic couch tracking. Materials and Methods: An anthropomorphic, deformable and dynamic lung phantom was used for the dosimetric validation of these techniques. Stereotactic treatments were adapted to match the techniques and five distinct respiration patterns, and delivered to the phantom while radiographic film measurements were taken inside the tumor. To report on tumor coverage, these dose distributions were used to calculate mean doses (Dmean), changes in homogeneity indices (ΔH 2-98 ), gamma agreement, and areas covered by the planned minimum dose (A >Dmin ).Results: All techniques achieved good tumor coverage (A >Dmin >99.0%) and minor changes in D mean (±3.2%). Gating and tracking strategies showed superior results in gamma agreement and ΔH 2-98 compared to ITV and MidV concepts, which seem to be more influenced by the interplay and the gradient effect. For lung, heart and spinal cord, significant dose differences between the four techniques were found (p<0.05), with l...

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“…adjacent to the oesophagus or overlapping the central airways and for whom dose constraints cannot be achieved, are explicitly excluded. 2 The dose and fractionation used in the LungTech trial is derived from the important and promising data from VU University Medical Center, Amsterdam, Netherlands. 3 Implementing the dose constraints in our trial, those routinely used at the VU University Medical Center have been considered; however, not all of their constraints have been adopted.…”

Section: (The Editors Do Not Hold Themselves Responsible For Opinionsmentioning

confidence: 99%

“…We apologize for the misunderstanding and that the constraint for the central airway was not clearly quoted in table 1 of our review. 2 One of the aims of LungTech is to define the therapeutic limits for moderately central lung tumours. Therefore, details as to how the organs at risk are defined and delineated and which dose-volume histogram parameters are used may have a large influence on local control and toxicity.…”

Section: (The Editors Do Not Hold Themselves Responsible For Opinionsmentioning

confidence: 99%

Stereotactic body radiotherapy for central lung tumours:Author reply

Adebahr

Collette

Shash

et al. 2015

BJR

Self Cite

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We would like to thank Dahele et al 1 for addressing the important issue of the accurate definitions of central lung tumours in their letter entitled "Stereotactic body radiotherapy for central lung tumours". We absolutely agree with the authors regarding the importance of distinguishing between "moderately central" and "very central" lung tumours. The EORTC 22113-08113 LungTech trial only allows the inclusion of patients with moderately central locations. Patients with tumours with very central locations, e.g. adjacent to the oesophagus or overlapping the central airways and for whom dose constraints cannot be achieved, are explicitly excluded.

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LungTech, an EORTC Phase II trial of stereotactic body radiotherapy for centrally located lung tumours: a clinical perspective

Cited by 90 publications

References 81 publications

A systematic review of outcomes following stereotactic ablative radiotherapy in the treatment of early-stage primary lung cancer

A systematic review of outcomes following stereotactic ablative radiotherapy in the treatment of early-stage primary lung cancer

Respiratory motion-management in stereotactic body radiation therapy for lung cancer – A dosimetric comparison in an anthropomorphic lung phantom (LuCa)

Stereotactic body radiotherapy for central lung tumours:Author reply

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