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Rapid advances in auto-segmentation of organs at risk and target volumes in head and neck cancer
Ist Teil von
Radiotherapy and oncology, 2019-06, Vol.135, p.130-140
Ort / Verlag
Ireland: Elsevier B.V
Erscheinungsjahr
2019
Quelle
MEDLINE
Beschreibungen/Notizen
•Accurate delineation of organs at risk (OARs) and target volumes (TVs) is critical for maximising tumour control and minimising radiation toxicities for patients with cancer of the head and neck (HNC).•Variability in TV and OAR delineation has been shown to have significant dosimetric impacts for patients on treatment.•Auto-segmentation (AS) techniques can reduce both inter-practitioner variability and the time taken in TV and OAR delineation in HNC.•The time taken for manual delineation currently prevents adaptive radiotherapy from being implemented optimally.•If such technologies are implemented correctly, AS should result in better standardisation of treatment for patients and significantly reduce the time taken to plan radiotherapy.
Advances in technical radiotherapy have resulted in significant sparing of organs at risk (OARs), reducing radiation-related toxicities for patients with cancer of the head and neck (HNC). Accurate delineation of target volumes (TVs) and OARs is critical for maximising tumour control and minimising radiation toxicities. When performed manually, variability in TV and OAR delineation has been shown to have significant dosimetric impacts for patients on treatment. Auto-segmentation (AS) techniques have shown promise in reducing both inter-practitioner variability and the time taken in TV and OAR delineation in HNC. Ultimately, this may reduce treatment planning and clinical waiting times for patients. Adaptation of radiation treatment for biological or anatomical changes during therapy will also require rapid re-planning; indeed, the time taken for manual delineation currently prevents adaptive radiotherapy from being implemented optimally. We are therefore standing on the threshold of a transformation of routine radiotherapy planning via the use of artificial intelligence. In this article, we outline the current state-of-the-art for AS for HNC radiotherapy in order to predict how this will rapidly change with the introduction of artificial intelligence. We specifically focus on delineation accuracy and time saving. We argue that, if such technologies are implemented correctly, AS should result in better standardisation of treatment for patients and significantly reduce the time taken to plan radiotherapy.