磁共振成像
核磁共振
材料科学
生物医学工程
计算机科学
医学
放射科
物理
作者
Sylvain Martel,Jean‐Baptiste Mathieu,Ouajdi Felfoul,Arnaud Chanu,Eric Aboussouan,Samer Tamaz,Pierre Pouponneau,L’Hocine Yahia,Gilles Beaudoin,Gilles Soulez,Martin Mankiewicz
摘要
The feasibility for in vivo navigation of untethered devices or robots is demonstrated with the control and tracking of a 1.5mm diameter ferromagnetic bead in the carotid artery of a living swine using a clinical magnetic resonance imaging (MRI) platform. Navigation is achieved by inducing displacement forces from the three orthogonal slice selection and signal encoding gradient coils of a standard MRI system. The proposed method performs automatic tracking, propulsion, and computer control sequences at a sufficient rate to allow navigation along preplanned paths in the blood circulatory system. This technique expands the range of applications in MRI-based interventions.
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