Litcius/Paper detail

Patterns of practice for adaptive and real-time radiation therapy (POP-ART RT) part I: Intra-fraction breathing motion management

Gail Anastasi, Jenny Bertholet, P.R. Poulsen, Toon Roggen, Cristina Garibaldi, Nina Tilly, Jeremy Booth, Uwe Oelfke, Ben Heijmen, Marianne Aznar

2020Radiotherapy and Oncology60 citationsDOIOpen Access PDF

Abstract

PURPOSE: The POP-ART RT study aims to determine to what extent and how intra-fractional real-time respiratory motion management (RRMM) and plan adaptation for inter-fractional anatomical changes (ART), are used in clinical practice and to understand barriers to implementation. Here we report on part I: RRMM. MATERIAL AND METHODS: A questionnaire was distributed worldwide to assess current clinical practice, wishes for expansion or new implementation and barriers to implementation. RRMM was defined as inspiration/expiration gating in free-breathing or breath-hold, or tracking where the target and the beam are continuously realigned. RESULTS: The questionnaire was completed by 200 centres from 41 countries. RRMM was used by 68% of respondents ('users') for a median (range) of 2 (1-6) tumour sites. Eighty-one percent of users applied inspiration breath-hold in at least one tumour site (breast: 96%). External marker was used to guide RRMM by 61% of users. KV/MV imaging was frequently used for liver and pancreas (with fiducials) and for lung (with or without fiducials). Tracking was mainly performed on robotic linacs with hybrid internal-external monitoring. For breast and lung, approximately 75% of respondents used or wished to implement RRMM, which was lower for liver (44%) and pancreas (27%). Seventy-one percent of respondents wished to implement RRMM for a new tumour site. Main barriers were human/financial resources and capacity on the machine. CONCLUSION: Sixty-eight percent of respondents used RRMM and 71% wished to implement RRMM for a new tumour site. The main barriers to implementation were human/financial resources and capacity on treatment machines.

Topics & Concepts

BreathingMotion (physics)Fraction (chemistry)Medical physicsMedicineRadiation therapyComputer scienceInternal medicineArtificial intelligenceAnesthesiaChemistryOrganic chemistryAdvanced Radiotherapy TechniquesRadiation Therapy and DosimetryHepatocellular Carcinoma Treatment and Prognosis