在介入放射科套房中，使用导航软件对儿童进行经皮骨活检时进行实时荧光透视针引导。

Real-time fluoroscopic needle guidance in the interventional radiology suite using navigational software for percutaneous bone biopsies in children.

作者信息

Shellikeri Sphoorti, Setser Randolph M, Hwang Tiffany J, Srinivasan Abhay, Krishnamurthy Ganesh, Vatsky Seth, Girard Erin, Zhu Xiaowei, Keller Marc S, Cahill Anne Marie

机构信息

Department of Radiology, The Children's Hospital of Philadelphia, 3401 Civic Center Boulevard, Philadelphia, PA, 19104, USA.

Siemens Medical Solutions USA, Inc., Hoffman Estates, IL, USA.

出版信息

Pediatr Radiol. 2017 Jul;47(8):963-973. doi: 10.1007/s00247-017-3830-0. Epub 2017 May 4.

DOI:10.1007/s00247-017-3830-0

PMID:28474255

Abstract

BACKGROUND

Navigational software provides real-time fluoroscopic needle guidance for percutaneous procedures in the Interventional Radiology (IR) suite.

OBJECTIVE

We describe our experience with navigational software for pediatric percutaneous bone biopsies in the IR suite and compare technical success, diagnostic accuracy, radiation dose and procedure time with that of CT-guided biopsies.

MATERIALS AND METHODS

Pediatric bone biopsies performed using navigational software (Syngo iGuide, Siemens Healthcare) from 2011 to 2016 were prospectively included and anatomically matched CT-guided bone biopsies from 2008 to 2016 were retrospectively reviewed with institutional review board approval. C-arm CT protocols used for navigational software-assisted cases included institution-developed low-dose (0.1/0.17 μGy/projection), regular-dose (0.36 μGy/projection), or a combination of low-dose/regular-dose protocols. Estimated effective radiation dose and procedure times were compared between software-assisted and CT-guided biopsies.

RESULTS

Twenty-six patients (15 male; mean age: 10 years) underwent software-assisted biopsies (15 pelvic, 7 lumbar and 4 lower extremity) and 33 patients (13 male; mean age: 9 years) underwent CT-guided biopsies (22 pelvic, 7 lumbar and 4 lower extremity). Both modality biopsies resulted in a 100% technical success rate. Twenty-five of 26 (96%) software-assisted and 29/33 (88%) CT-guided biopsies were diagnostic. Overall, the effective radiation dose was significantly lower in software-assisted than CT-guided cases (3.0±3.4 vs. 6.6±7.7 mSv, P=0.02). The effective dose difference was most dramatic in software-assisted cases using low-dose C-arm CT (1.2±1.8 vs. 6.6±7.7 mSv, P=0.001) or combined low-dose/regular-dose C-arm CT (1.9±2.4 vs. 6.6±7.7 mSv, P=0.04), whereas effective dose was comparable in software-assisted cases using regular-dose C-arm CT (6.0±3.5 vs. 6.6±7.7 mSv, P=0.7). Mean procedure time was significantly lower for software-assisted cases (91±54 vs. 141±68 min, P=0.005).

CONCLUSION

In our experience, navigational software technology in the IR suite is a promising alternative to CT guidance for pediatric bone biopsies providing comparable technical success and diagnostic accuracy with lower radiation dose and procedure time, in addition to providing real-time fluoroscopic needle guidance.

摘要

背景

导航软件可为介入放射学（IR）手术室中的经皮操作提供实时荧光透视针引导。

目的

我们描述了在IR手术室中使用导航软件进行儿科经皮骨活检的经验，并将技术成功率、诊断准确性、辐射剂量和操作时间与CT引导活检进行比较。

材料与方法

前瞻性纳入2011年至2016年使用导航软件（西门子医疗公司的Syngo iGuide）进行的儿科骨活检，并在机构审查委员会批准下，回顾性分析2008年至2016年解剖学匹配的CT引导骨活检。用于导航软件辅助病例的C形臂CT方案包括机构制定的低剂量（0.1/0.17μGy/投影）、常规剂量（0.36μGy/投影）或低剂量/常规剂量方案的组合。比较软件辅助活检和CT引导活检的估计有效辐射剂量和操作时间。

结果

26例患者（15例男性；平均年龄：10岁）接受了软件辅助活检（15例骨盆、7例腰椎和4例下肢），33例患者（13例男性；平均年龄：9岁）接受了CT引导活检（22例骨盆、7例腰椎和4例下肢）。两种方式的活检技术成功率均为100%。26例软件辅助活检中有25例（96%）和33例CT引导活检中有29例（88%）具有诊断价值。总体而言，软件辅助活检的有效辐射剂量显著低于CT引导活检（3.0±3.4 vs. 6.6±7.7 mSv，P=0.02）。在使用低剂量C形臂CT（1.2±1.8 vs. 6.6±7.7 mSv，P=0.001）或低剂量/常规剂量C形臂CT组合（1.9±2.4 vs. 6.6±7.7 mSv，P=0.04）的软件辅助病例中，有效剂量差异最为显著，而在使用常规剂量C形臂CT的软件辅助病例中，有效剂量相当（6.0±3.5 vs. 6.6±7.7 mSv，P=0.7）。软件辅助病例的平均操作时间显著缩短（91±54 vs. 141±68分钟，P=0.005）。

结论

根据我们的经验，IR手术室中的导航软件技术是儿科骨活检CT引导的一种有前景的替代方法，除了提供实时荧光透视针引导外，还具有相当的技术成功率和诊断准确性，且辐射剂量和操作时间更低。

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在介入放射科套房中，使用导航软件对儿童进行经皮骨活检时进行实时荧光透视针引导。

Real-time fluoroscopic needle guidance in the interventional radiology suite using navigational software for percutaneous bone biopsies in children.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

目的

材料与方法

结果

结论

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