Passive Model-based Error Compensation For Beveled-tip Needle Deflection

2023 International Symposium on Medical Robotics (ISMR) Pub Date : 2023-04-19 DOI:10.1109/ISMR57123.2023.10130217

Farid Tavakkolmoghaddam, Yang Wang, Charles Bales, Yiwei Jiang, C. Nycz, Zhanyue Zhao, G. Fischer

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Abstract

The interaction between the asymmetric (bevel) tip needle and the surrounding tissue results in the deflection of the needle and causes a significant targeting error in prostate biopsy. Several works have been proposed to mitigate this issue. While some have shown promising results, they require complex software and hardware which makes them difficult to deploy for clinical use. In this paper, we present a predictive model-based approach for passive compensation of the bevel tip needles in phantom tissues. We predict the needle deflection by approximating the initial deflection angle and simulating the needle path before insertion. The entry point is then modified based on the predicted deflection. To achieve this, we collected a set of needle insertion data into a gelatin phantom in an MRI study and used the data to find the parameters for the predictive model. The model was then tested in another MRI insertion study, which demonstrated promising results with an average of 75.2% targeting accuracy improvement compared with the uncompensated insertions.

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基于被动模型的斜尖针偏转误差补偿

不对称(斜角)针尖与周围组织之间的相互作用导致针的偏转，并导致前列腺活检中显著的靶向误差。已经提出了一些工作来缓解这个问题。虽然有些已经显示出有希望的结果，但它们需要复杂的软件和硬件，这使得它们难以部署到临床使用。在本文中，我们提出了一种基于预测模型的斜头针在幻体组织中的被动补偿方法。我们通过近似初始偏转角和模拟针在插入前的路径来预测针的偏转。然后根据预测的挠度修改入口点。为了实现这一目标，我们在MRI研究中收集了一组针插入明胶幻影的数据，并利用这些数据找到预测模型的参数。然后在另一项MRI插入研究中对该模型进行了测试，结果显示，与未补偿插入相比，该模型的瞄准精度平均提高了75.2%。

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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2023 International Symposium on Medical Robotics (ISMR)

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