Development of Robot-assisted Ultrasound System for Fetoscopic Tracking in Twin to Twin Transfusion Syndrome Surgery

2023 International Symposium on Medical Robotics (ISMR) Pub Date : 2023-04-19 DOI:10.1109/ISMR57123.2023.10130208

Yuyu Cai, Ayoob Davoodi, Ruixuan Li, M. Ourak, K. Niu, J. Deprest, E. V. Poorten

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Abstract

Twin to Twin Transfusion Syndrome (TTTS) is one of the most severe conditions of congenital anomaly. Fetoscopic Laser Photocoagulation (FLP) has been shown as the preferred treatment for TTTS. The complicated intrauterine environment and limited incision diameter make FLP a very challenging surgery. Besides, the motion of the fetoscope is complex. Ultrasound (US) probe is used to offer a view of the anatomy as well as the relative pose of the fetoscope. However, keeping the fetoscope tip (FT) in view is difficult. A robotic US system could potentially solve the complex US probe handling and could improve the surgeon's view of the intrauterine scene. In this paper, an automatic fetoscope tracking algorithm was developed and ensured safe interactions between robot and fragile tissues for FLP surgery. The US probe attached to the robot was controlled by a hybrid position-force control strategy. For evaluation, four fetoscope motion profiles were investigated on a custom-designed phantom. The system achieved a 78.87% visibility rate for the US image evaluation. The contact force was 0.99± 0.68 N during the tracking to ensure the patient's safety. The proposed system demonstrates the capability of accurate real-time fetoscope tracking.

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双胎输血综合征手术中胎儿镜跟踪机器人辅助超声系统的研制

双胞胎输血综合征(TTTS)是最严重的先天性异常之一。胎儿镜激光光凝(FLP)已被证明是治疗TTTS的首选方法。复杂的宫内环境和有限的切口直径使FLP成为一种非常具有挑战性的手术。此外，胎儿镜的运动是复杂的。超声(US)探头用于提供解剖视图以及胎儿镜的相对姿势。然而，保持胎儿镜尖端(FT)在视线内是困难的。机器人美国系统可能解决复杂的美国探头操作，并可以改善外科医生对宫内场景的看法。本文开发了一种胎儿镜自动跟踪算法，保证了FLP手术中机器人与脆弱组织的安全交互。附着在机器人上的美国探针由位置-力混合控制策略控制。为了评估，在定制设计的假体上研究了四个胎儿镜运动曲线。该系统在美国图像评估中实现了78.87%的可见性。跟踪过程中接触力为0.99±0.68 N，确保患者安全。该系统显示了胎儿镜精确实时跟踪的能力。

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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