Incidental findings and safety events from magnetic resonance imaging simulation for head and neck radiation treatment planning: A single institution experience

Q1 Nursing
Jonathan Massachi , Lisa Singer , Christine Glastonbury , Jessica Scholey , Kamal Singhrao , Christina Calvin , Sue S. Yom , Jason W. Chan
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Abstract

Purpose

Having dedicated MRI scanners within radiation oncology departments may present unexpected challenges since radiation oncologists and radiation therapists are generally not trained in this modality and there are potential patient safety concerns. This study retrospectively reviews the incidental findings and safety events that were observed at a single institution during introduction of MRI sim for head and neck radiotherapy planning.

Methods

Consecutive patients from March 1, 2020, to May 31, 2022, who were scheduled for MRI sim after having completed CT simulation for head and neck radiotherapy were included for analysis. Patients first underwent a CT simulation with a thermoplastic mask and in most cases with an intraoral stent. The same setup was then reproduced in the MRI simulator. Safety events were instances where scheduled MRI sims were not completed due to the MRI technologist identifying MRI-incompatible devices or objects at the time of sim. Incidental findings were identified during weekly quality assurance rounds as a joint enterprise of head and neck radiation oncology and neuroradiology. Categorical variables between completed and not completed MRI sims were compared using the Chi-Square test and continuous variables were compared using the Mann-Whitney U test with a p-value of < 0.05 considered to be statistically significant.

Results

148 of 169 MRI sims (88 %) were completed as scheduled and 21 (12 %) were not completed (Table 1). Among the 21 aborted MRI sims, the most common reason was due to safety events flagged by the MRI technologist (n = 8, 38 %) because of the presence of metal or a medical device that was not noted at the time of initial screening by the administrative coordinator. Patients who did not complete MRI sim were more likely to be treated for non-squamous head and neck primary tumor (p = 0.016) and were being treated post-operatively (p < 0.001). CT and MRI sim scans each had 17 incidental findings. CT simulation detected 3 cases of new metastases in lungs, which were outside the scan parameters of MRI sim. MRI sim detected one case of dural venous thrombosis and one case of cervical spine epidural abscess, which were not detected by CT simulation.

Conclusions

Radiation oncology departments with dedicated MRI simulation scanners would benefit from diagnostic radiology review for incidental findings and having therapists with MRI safety credentialing to catch near-miss events.

头颈部放射治疗计划中磁共振成像模拟的意外发现和安全事件:单一机构的经验
目的在放射肿瘤科使用专用MRI扫描仪可能会带来意想不到的挑战,因为放射肿瘤学家和放射治疗师通常没有接受过这种方式的培训,并且存在潜在的患者安全问题。本研究回顾性地回顾了在一个机构引入MRI sim用于头颈部放疗计划期间观察到的偶然发现和安全事件。方法选取2020年3月1日至2022年5月31日连续完成头颈部放疗CT模拟后拟进行MRI模拟的患者进行分析。患者首先使用热塑性口罩进行CT模拟,大多数情况下使用口内支架。然后在MRI模拟器中复制相同的设置。安全事件是指由于MRI技术人员在模拟时识别出MRI不兼容的设备或物体而未能完成预定的MRI模拟的情况。作为头颈部放射肿瘤学和神经放射学的联合企业,在每周质量保证查轮中确定了偶然发现。完成和未完成MRI模拟之间的分类变量使用卡方检验进行比较,连续变量使用Mann-Whitney U检验进行比较,p值为<0.05被认为具有统计学意义。结果169个MRI模拟中有148个(88%)按计划完成,21个(12%)未完成(表1)。在21个流产的MRI模拟中,最常见的原因是由于MRI技术人员标记的安全事件(n = 8,38 %),因为在行政协调员初始筛选时未注意到金属或医疗器械的存在。未完成MRI扫描的患者更有可能接受非鳞状头颈部原发肿瘤的治疗(p = 0.016),并在术后接受治疗(p <0.001)。CT和MRI扫描各有17个偶然发现。CT模拟发现3例肺部新转移灶,不在MRI模拟扫描参数范围内。MRI模拟发现1例硬膜静脉血栓形成,1例颈椎硬膜外脓肿,CT模拟未发现。结论:配备专用MRI模拟扫描仪的放射肿瘤科将受益于偶然发现的诊断放射学审查,并拥有具有MRI安全证书的治疗师,以捕捉险些发生的事件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.10
自引率
0.00%
发文量
48
审稿时长
67 days
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