Insonification Angle-based Ultrasound Volume Reconstruction for Spine Intervention

2022 IEEE International Ultrasonics Symposium (IUS) Pub Date : 2022-10-10 DOI:10.1109/IUS54386.2022.9957297

Baichuan Jiang, Keshuai Xu, A. Moghekar, P. Kazanzides, E. Boctor

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引用次数: 1

Abstract

Ultrasound-guided spine interventions, such as lumbar-puncture procedures, often suffer from the reduced visibility of key anatomical features such as the inter-spinous process space, due to the complex shape of the self-shadowing vertebra. Therefore, we propose to design a wearable 3D ultrasound device capable of imaging the vertebra from multiple insonification angles to improve the 3D bone surface visualization for interventional guidance. In this work, we aim to equip the imaging platform with a reconstruction algorithm taking advantage of the redundant ultrasound beam angles. Specifically, we try to weight each beam's contribution for the same reconstructed voxel during the reconstruction process based on its incidence angle to the estimated bone surface. To validate our approach, we acquired multi-angle ultrasound image data on a spine phantom with a tracked phased array transducer. The results show that with the proposed method the bone surface contrast can be significantly enhanced, providing clearer visual guidance for the clinician to perform spine intervention.

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基于超声成像角度的脊柱介入体积重建

由于自影椎体的复杂形状，超声引导的脊柱干预，如腰椎穿刺手术，往往存在关键解剖特征(如棘突间隙)可见性降低的问题。因此，我们建议设计一种可穿戴的三维超声设备，能够从多个超声角度对椎体进行成像，以提高三维骨表面的可视化水平，为介入指导提供依据。在这项工作中，我们的目标是为成像平台配备一种利用冗余超声波束角度的重建算法。具体来说，我们尝试在重建过程中根据其对估计骨表面的入射角对同一重建体素的每个光束的贡献进行加权。为了验证我们的方法，我们使用跟踪相控阵换能器在脊柱幻影上获取了多角度超声图像数据。结果表明，采用该方法可以明显增强骨表面对比，为临床医生进行脊柱干预提供更清晰的视觉指导。

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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2022 IEEE International Ultrasonics Symposium (IUS)

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