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Tumour motion management in lung cancer: a narrative review

Angela Botticella, Antonin Lévy, Guillaume Auzac, I. Chabert, Céline Berthold, C. Le Péchoux

2021Translational Lung Cancer Research30 citationsDOIOpen Access PDF

Abstract

Respiratory motion is one of the geometrical uncertainties that may affect the accuracy of thoracic radiotherapy in the treatment of lung cancer. Accounting for tumour motion may allow reducing treatment volumes, irradiated healthy tissue and possibly toxicity, and finally enabling dose escalation. Historically, large population-based margins were used to encompass tumour motion. A paradigmatic change happened in the last decades led to the development of modern imaging techniques during the simulation and the delivery, such as the 4-dimensional (4D) computed tomography (CT) or the 4D-cone beam CT scan, has contributed to a better understanding of lung tumour motion and to the widespread use of individualised margins (with either an internal tumour volume approach or a mid-position/ventilation approach). Moreover, recent technological advances in the delivery of radiotherapy treatments (with a variety of commercial solution allowing tumour tracking, gating or treatments in deep-inspiration breath-hold) conjugate the necessity of minimising treatment volumes while maximizing the patient comfort with less invasive techniques. In this narrative review, we provided an introduction on the intra-fraction tumour motion (in both lung tumours and mediastinal lymph-nodes), and summarized the principal motion management strategies (in both the imaging and the treatment delivery) in thoracic radiotherapy for lung cancer, with an eye on the clinical outcomes.

Topics & Concepts

MedicineRadiation therapyLung cancerRadiologyExternal beam radiotherapyMedical physicsOncologyBrachytherapyAdvanced Radiotherapy TechniquesLung Cancer Diagnosis and TreatmentRadiation Therapy and Dosimetry
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