一种用于接受外照射放疗患者的经济高效的屏气训练摄像系统。

A Cost-effective Breath-hold Coaching Camera System for Patients Undergoing External Beam Radiotherapy.

作者信息

Mehta Akash, Horgan Emma, Ramachandran Prabhakar, Noble Christopher

机构信息

Department of Radiation Oncology, Princess Alexandra Hospital, Woolloongabba, Australia.

出版信息

J Med Phys. 2024 Oct-Dec;49(4):502-509. doi: 10.4103/jmp.jmp_101_24. Epub 2024 Dec 18.

DOI:10.4103/jmp.jmp_101_24

PMID:39926147

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11801098/

Abstract

PURPOSE

Organ motion can significantly affect the accurate delivery of radiation doses to the tumor, particularly for sites such as the breast, lung, abdomen, and pelvis. Managing this motion during treatment is crucial. One strategy employed to manage motion induced from respiration is breath-hold (BH), which enhances the geometric precision of dose delivery. Our institute is transitioning to using the ExacTrac Dynamic system to facilitate patient BH using surface-guided cameras. Only 20% of our linacs are equipped with surface guidance capabilities, and due to a high patient stereotactic throughput, the ability to perform in-bunker coaching for BH patients within the bunker is limited. To address this challenge, a time-of-flight camera (ToF) was developed to coach radiotherapy patients undergoing BH procedures, allowing them to gain confidence in the process outside of the bunker and before treatment.

METHODS

The camera underwent testing for absolute and relative accuracy, responsiveness under various environmental conditions, and comparison with the Elekta Active Breathing Coordinator (ABC) to establish correlation and testing on volunteers independently to assess usability.

RESULTS

The results showed that the absolute distance measured by the camera was nonlinear due to square light modulation, which was retrospectively corrected. Relative accuracy was tested with a QUASAR motion phantom, with results agreeing to within ± 2 mm. The camera response was found to be unaffected by changes in lighting or temperature, though it overresponded under extreme temperatures. The comparison with the Elekta ABC system yielded comparable results between lung volume and changes in surface distance during BH. All volunteers successfully followed instructions and maintained BH within ± 1 mm tolerance.

CONCLUSIONS

This study demonstrates the feasibility of using a cost-effective ToF camera to coach patients before imaging/treatment, saving valuable LINAC linac and imaging system time.

摘要

目的

器官运动可显著影响向肿瘤精确输送辐射剂量，尤其是对于乳腺、肺部、腹部和骨盆等部位。在治疗过程中管理这种运动至关重要。用于管理呼吸引起的运动的一种策略是屏气（BH），它可提高剂量输送的几何精度。我们研究所正在过渡到使用ExacTrac动态系统，通过表面引导摄像头来促进患者屏气。我们只有20%的直线加速器具备表面引导功能，并且由于患者立体定向治疗的高吞吐量，在治疗室内为屏气患者进行治疗室内指导的能力有限。为应对这一挑战，开发了一种飞行时间摄像头（ToF），用于指导接受屏气程序的放射治疗患者，使他们在治疗室之外且在治疗前对该过程充满信心。

方法

对该摄像头进行了绝对和相对精度测试、在各种环境条件下的响应性测试，并与医科达主动呼吸协调器（ABC）进行比较以建立相关性，还独立对志愿者进行测试以评估可用性。

结果

结果表明，由于方形光调制，摄像头测量的绝对距离是非线性的，对此进行了回顾性校正。使用QUASAR运动体模测试了相对精度，结果在±2毫米范围内一致。发现摄像头的响应不受光照或温度变化的影响，不过在极端温度下会有过度响应。与医科达ABC系统的比较在肺容积和屏气期间表面距离变化方面产生了可比结果。所有志愿者都成功遵循了指示，并将屏气保持在±1毫米的公差范围内。

结论

本研究证明了使用具有成本效益的ToF摄像头在成像/治疗前指导患者的可行性，节省了宝贵的直线加速器和成像系统时间。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/350a/11801098/d25e5194252a/JMP-49-502-g003.jpg

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一种用于接受外照射放疗患者的经济高效的屏气训练摄像系统。

A Cost-effective Breath-hold Coaching Camera System for Patients Undergoing External Beam Radiotherapy.

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出版信息

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METHODS

RESULTS

CONCLUSIONS

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结果

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