成像体模
尸体痉挛
计算机科学
磁共振成像
生物医学工程
立体定向手术
人工智能
医学
放射科
外科
作者
Shaoping Huang,He Zhao,Yi Chen,Jiafan Chen,Shijie Hong,Yi Zhang,Longyu Xu,Yixin Pan,Shuo Ma,Lian Xuan,Qingdang Meng,Yong Yang,Yangyang Xu,Zecai Lin,Chuqian Lou,Cheng Zhou,Weidong Chen,Bomin Sun,Qingfang Sun,Yuan Feng
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2025-09-03
卷期号:11 (36): eady3624-eady3624
被引量:5
标识
DOI:10.1126/sciadv.ady3624
摘要
Stereotactic neurointervention is a common procedure for biopsy, injection, ablation, and implantation of electrodes for deep brain stimulation. Guided by preoperative imaging, conventional approaches are mostly performed manually, lacking operation stability and interactive feedback. The intraoperative magnetic resonance imaging (MRI) guidance enables both structural and functional assessment during operation, permitting interactive adaptation to tissue deformation and avoidance of critical anatomical regions. Here, we report an MRI-guided robotic system for stereotactic neurointervention. A macro-micro hybrid pneumatic-hydraulic actuated stereotactic robot with a large range of motion and high precision is developed. This is coupled with a compact bioinspired soft actuator for target intervention. A global-focal MRI sequence is proposed for interactive navigation, closed-loop control, and precise targeting. Validation is performed with phantom, cadaveric, and in vivo animal studies, showing positional accuracies of 0.39, 0.68, and 0.14 millimeters, respectively, demonstrating superior performance compared to the current state of the art in robotic-assisted stereotactic neurointervention.
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