{"title":"GPP05 Presentation Time: 11:06 AM","authors":"Thomas Niedermayr PhD, Elizabeth Kidd MD","doi":"10.1016/j.brachy.2024.08.091","DOIUrl":null,"url":null,"abstract":"<div><h3>Purpose</h3><div>The disease control and toxicity benefits of adding interstitial needles to cervix intracavitary implants are well established, as are the advantages of MRI for tumor visualization. Yet widespread adoption of these advanced techniques remains elusive, limited by access to frequent MR imaging and the technical challenges of precisely placing needles into the tumor. Ultrasound (US) remains the most accessible form of live imaging but the poorer image quality limits clear visualization of the tumor area and the inserted interstitial needles. We describe a novel system which combines a freehand, stepper-less transrectal ultrasound probe with an electro-magnetic (EM) tracker to continuously fuse a pre-acquired MR, offering a reconstructed MR image to the corresponding live ultrasound image. Inserted needles can be easily visualized using an EM tracked stylet/mandrin, placing a solid circle on the live ultrasound image where the needle is located.</div></div><div><h3>Materials and Methods</h3><div>The clinical ultrasound system, the BK Spekto with a biplanar side-fire 9048 US probe, was instrumented with a Northern Digital Inc. EM tracker, part of the 3D Guidance Trakstar system. Software was developed using the 3D Slicer toolkit to enable live and continuous fusion of a pre-acquired MR. Contours generated on the MR can be imported and displayed on the live US image. An additional EM tracker can be placed inside a needle to visualize its location on the live US image and removed for treatment.</div></div><div><h3>Results</h3><div>The system was assessed on a Viomerse Gyn phantom before being deployed in clinical implants (Fig 1A). Initial registration between the live US image and the MR is accomplished by placing the freehand transrectal US probe within the patient to a known location, such as the top of the vaginal canal/cervix area. The corresponding MR/US fusion is then locked, any movement of the freehand probe will update both the US and MR images correspondingly. Fine tuning of the registration can be done in all six degrees of freedom as necessary to accommodate any shifts and/or deformations during the procedures. Needles can easily be identified on the live US when a stylet equipped with a miniature EM tracker is inserted: a yellow circle appears on the live US at the intersection on the imaging plane where the needle is expected (Fig 1B). In case of multiple needles, the trajectory of each needle can be digitally saved within the EM frame of reference, providing a colored mark where each needle was placed on the live US. HR-CTV contours can be overlaid on the live US to help highlight the area of interest (Fig 1C).</div></div><div><h3>Conclusion</h3><div>A novel system has been developed and clinically tested to enhance the capabilities of US imaging for gyn brachytherapy procedures by incorporating clarifying MR information and easy needle recognition. These features can help guide the practitioner during the procedure to a geometrically more robust implant with actionable feedback.</div></div>","PeriodicalId":55334,"journal":{"name":"Brachytherapy","volume":null,"pages":null},"PeriodicalIF":1.7000,"publicationDate":"2024-10-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Brachytherapy","FirstCategoryId":"3","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S1538472124002277","RegionNum":4,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"ONCOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
Purpose
The disease control and toxicity benefits of adding interstitial needles to cervix intracavitary implants are well established, as are the advantages of MRI for tumor visualization. Yet widespread adoption of these advanced techniques remains elusive, limited by access to frequent MR imaging and the technical challenges of precisely placing needles into the tumor. Ultrasound (US) remains the most accessible form of live imaging but the poorer image quality limits clear visualization of the tumor area and the inserted interstitial needles. We describe a novel system which combines a freehand, stepper-less transrectal ultrasound probe with an electro-magnetic (EM) tracker to continuously fuse a pre-acquired MR, offering a reconstructed MR image to the corresponding live ultrasound image. Inserted needles can be easily visualized using an EM tracked stylet/mandrin, placing a solid circle on the live ultrasound image where the needle is located.
Materials and Methods
The clinical ultrasound system, the BK Spekto with a biplanar side-fire 9048 US probe, was instrumented with a Northern Digital Inc. EM tracker, part of the 3D Guidance Trakstar system. Software was developed using the 3D Slicer toolkit to enable live and continuous fusion of a pre-acquired MR. Contours generated on the MR can be imported and displayed on the live US image. An additional EM tracker can be placed inside a needle to visualize its location on the live US image and removed for treatment.
Results
The system was assessed on a Viomerse Gyn phantom before being deployed in clinical implants (Fig 1A). Initial registration between the live US image and the MR is accomplished by placing the freehand transrectal US probe within the patient to a known location, such as the top of the vaginal canal/cervix area. The corresponding MR/US fusion is then locked, any movement of the freehand probe will update both the US and MR images correspondingly. Fine tuning of the registration can be done in all six degrees of freedom as necessary to accommodate any shifts and/or deformations during the procedures. Needles can easily be identified on the live US when a stylet equipped with a miniature EM tracker is inserted: a yellow circle appears on the live US at the intersection on the imaging plane where the needle is expected (Fig 1B). In case of multiple needles, the trajectory of each needle can be digitally saved within the EM frame of reference, providing a colored mark where each needle was placed on the live US. HR-CTV contours can be overlaid on the live US to help highlight the area of interest (Fig 1C).
Conclusion
A novel system has been developed and clinically tested to enhance the capabilities of US imaging for gyn brachytherapy procedures by incorporating clarifying MR information and easy needle recognition. These features can help guide the practitioner during the procedure to a geometrically more robust implant with actionable feedback.
目的 在宫颈腔内植入物中加入间质针所带来的疾病控制和毒性益处以及核磁共振成像在肿瘤可视化方面的优势已得到公认。然而,这些先进技术的广泛应用仍然遥遥无期,原因是受限于频繁的磁共振成像以及将针头精确置入肿瘤的技术难题。超声(US)仍然是最容易获得的实时成像形式,但较差的图像质量限制了肿瘤区域和插入间质针的清晰可视性。我们介绍了一种新型系统,该系统将自由操作的无步进经直肠超声探头与电磁(EM)跟踪器相结合,不断融合预先获取的磁共振图像,将重建的磁共振图像与相应的实时超声图像相结合。插入的针头可以通过电磁追踪器/肛门直肠镜轻松观察到,在实时超声图像上针头所在的位置会出现一个实心圆圈。EM跟踪器,它是 3D Guidance Trakstar 系统的一部分。使用 3D Slicer 工具包开发的软件可以实时、连续地融合预先获取的 MR。在 MR 上生成的轮廓可以导入并显示在实时 US 图像上。结果该系统在临床植入前在 Viomerse Gyn 体模上进行了评估(图 1A)。将自由经直肠 US 探头置于患者体内的已知位置(如阴道顶部/宫颈区域),即可完成实时 US 图像与 MR 之间的初始配准。然后锁定相应的 MR/US 融合,自由探针的任何移动都会相应地更新 US 和 MR 图像。可根据需要在所有六个自由度上对套准进行微调,以适应手术过程中的任何移动和/或变形。当插入装有微型电磁追踪器的针头时,可在实时 US 上轻松识别针头:在实时 US 上,针头所在成像平面的交叉点上会出现一个黄色圆圈(图 1B)。如果有多根针,每根针的轨迹都可以通过数字方式保存在电磁参考框架内,在实时 US 上每根针刺入的位置都会出现彩色标记。HR-CTV 轮廓可叠加到实时 US 上,以帮助突出感兴趣的区域(图 1C)。 结论:我们已开发出一种新型系统并进行了临床测试,通过整合清晰的 MR 信息和轻松识别针头,增强了妇科近距离放射治疗过程中 US 成像的功能。这些功能有助于在手术过程中指导医生植入几何形状更坚固的植入物,并提供可操作的反馈。
期刊介绍:
Brachytherapy is an international and multidisciplinary journal that publishes original peer-reviewed articles and selected reviews on the techniques and clinical applications of interstitial and intracavitary radiation in the management of cancers. Laboratory and experimental research relevant to clinical practice is also included. Related disciplines include medical physics, medical oncology, and radiation oncology and radiology. Brachytherapy publishes technical advances, original articles, reviews, and point/counterpoint on controversial issues. Original articles that address any aspect of brachytherapy are invited. Letters to the Editor-in-Chief are encouraged.
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