Radiotherapy-Compatible Robotic System for Multi-Landmark Positioning in Head and Neck Cancer Treatments

Ostyn, Mark; Wang, Siqiu; Kim, Yun-Soung; Kim, Siyong; Yeo, Woon‐Hong

doi:10.1038/s41598-019-50797-7

Sci Rep

2019

DOI: 10.1038/s41598-019-50797-7

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Radiotherapy-Compatible Robotic System for Multi-Landmark Positioning in Head and Neck Cancer Treatments

Mark Ostyn

Siqiu Wang

Yun-Soung Kim

et al.

Abstract: The spine flexibility creates one of the most significant challenges to proper positioning in radiation therapy of head and neck cancers. Even though existing immobilization techniques can reduce the positioning uncertainty, residual errors (2–3 mm along the cervical spine) cannot be mitigated by single translation-based approaches. Here, we introduce a fully radiotherapy-compatible electro-mechanical robotic system, capable of positioning a patient’s head with submillimeter accuracy in clinically acceptable s… Show more

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Robotic Systems in Radiotherapy and Radiosurgery

Gerlach

Schlaefer

2022

Curr Robot Rep

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Purpose of Review This review provides an overview of robotic systems in radiotherapy and radiosurgery, with a focus on medical devices and recently proposed research systems. We summarize the key motivation for using robotic systems and illustrate the potential advantages. Recent Findings. Robotic systems have been proposed for a variety of tasks in radiotherapy, including the positioning of beam source, patients, and imaging devices. A number of systems are cleared for use in patients, and some are widely used, particularly for beam and patient positioning. Summary The need for precise and safe delivery of focused high doses to the target region motivates the use of robots in radiotherapy. Flexibility in the arrangement of beams and the ability to compensate for target motion are key advantages of robotic systems. While robotic patient couches are widely used and robotic beam positioning is well established, brachytherapy robots are mostly considered in a research context.

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Robotic Systems in Radiotherapy and Radiosurgery

Gerlach

Schlaefer

2022

Curr Robot Rep

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Additive manufacturing in radiation oncology: a review of clinical practice, emerging trends and research opportunities

Tino

Leary

Yeo

et al. 2020

Int. J. Extrem. Manuf.

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The additive manufacturing (AM) process plays an important role in enabling cross-disciplinary research in engineering and personalised medicine. Commercially available clinical tools currently utilised in radiotherapy are typically based on traditional manufacturing processes, often leading to non-conformal geometries, time-consuming manufacturing process and high costs. An emerging application explores the design and development of patient-specific clinical tools using AM to optimise treatment outcomes among cancer patients receiving radiation therapy. In this review, we: • highlight the key advantages of AM in radiotherapy where rapid prototyping allows for patient-specific manufacture • explore common clinical workflows involving radiotherapy tools such as bolus, compensators, anthropomorphic phantoms, immobilisers, and brachytherapy moulds; and • investigate how current AM processes are exploited by researchers to achieve patient tissue-like imaging and dose attenuations. Finally, significant AM research opportunities in this space are highlighted for their future advancements in radiotherapy for diagnostic and clinical research applications.

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Radiotherapy-Compatible Robotic System for Multi-Landmark Positioning in Head and Neck Cancer Treatments

Cited by 2 publications

References 19 publications

Robotic Systems in Radiotherapy and Radiosurgery

Robotic Systems in Radiotherapy and Radiosurgery

Additive manufacturing in radiation oncology: a review of clinical practice, emerging trends and research opportunities

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