OBJECTIVETo assess the feasibility and safety of vascular interventional surgery by using vascular interventional robot system (VIRS).

METHODSVIRS included image navigation systems and body propulsion systems, and adopted a master-slave structure. The surgeon sat at the master site, sending controlling instructions to the robot fixed at the slave site, and then the robot translated these instructions into catheter motion. A 3D vascular model was reconstructed so that the surgeon can perform surgical planning easily. In glass model and animal experiments, the surgeon remotely controlled VIRS, which inserted a catheter into predefined targets, and the catheter positioning error and robotic surgery time were measured.

RESULTSThe robot was initially tested on a glass vascular model. Under robotic manipulation, the catheter could enter an arbitrary branch of the vascular model. The catheter positioning error was less than 1 mm. Then robotic interventional surgery was performed successfully in ten adult dogs. The renal artery and the vertebral artery angiography carried out smoothly without complication. Experiment took 35 minutes, and the time what staff exposed to the digital subtraction angiography (DSA) machine was 0 minute.

CONCLUSIONVascular interventional surgical robot system is safe and feasible, and can achieve the catheter remote operation, meet the requirements of angiography basically.