Department of Neurological Surgery and Neurological Institute, Houston Methodist, Houston, Texas.
Corindus Inc, Waltham, Massachusetts.
Neurosurgery. 2020 Feb 1;86(2):309-314. doi: 10.1093/neuros/nyz064.
Despite advances in robotic-assisted technology for cardiac and peripheral vascular interventions, a robotic-assisted platform for neurovascular intervention is not yet available.
To evaluate the feasibility of the CorPath® GRX robotic-assisted platform (Corindus Inc, Waltham, Massachusetts) for neurovascular interventions through preclinical study.
The robotic system was tested for its ability to accurately navigate a variety of common neurovascular devices in an in Vitro flow model and in a live, anesthetized pig, under conditions and following procedures appropriate for clinical intervention. An access catheter was introduced manually at the equivalent of the common carotid artery in both models. Endovascular wires and catheters were navigated through the external and internal carotid artery and posterior cerebral vasculature under robotic assistance, using 0.014 in guidewires, 2.4F/1.7F microcatheters, bare-metal stents, and embolic coils.
All procedures in both the flow and porcine models, including navigation, wiring, and deployment of the stent and coils, were performed successfully with no technical complications. There was no evidence of extravasation, dissection, thrombosis, or other vascular injury when angiography was compared before and after the live-animal procedure.
This is the first study to demonstrate that use of a robotic-assisted platform is feasible for intracranial neurovascular intervention. The robotic system was successful at navigating and deploying the small-gauge devices specific to neurovascular procedures. Given the potential benefits of robotic-assisted surgery for the patient and the surgeon, further investigation is warranted for this indication.
尽管心脏和外周血管介入的机器人辅助技术取得了进步,但神经血管介入的机器人辅助平台尚不存在。
通过临床前研究评估 CorPath® GRX 机器人辅助平台(Corindus Inc,马萨诸塞州沃尔瑟姆)用于神经血管介入的可行性。
在体外血流模型和活体麻醉猪中,测试机器人系统在各种常见神经血管设备中的精确导航能力,这些设备的操作条件和程序均与临床介入相符。在两种模型中,手动将介入导管引入相当于颈总动脉的部位。在机器人的辅助下,通过外部和内部颈动脉以及后颅脉管系统导航血管内导丝和导管,使用 0.014 英寸导丝、2.4F/1.7F 微导管、裸金属支架和栓塞线圈。
在血流和猪模型中的所有程序,包括导航、布线以及支架和线圈的部署,均成功完成,没有出现任何技术并发症。与活体动物手术前后的血管造影相比,没有出现外渗、夹层、血栓形成或其他血管损伤的证据。
这是第一项证明使用机器人辅助平台进行颅内神经血管介入是可行的研究。机器人系统成功地对特定于神经血管程序的小口径设备进行了导航和部署。鉴于机器人辅助手术对患者和外科医生的潜在益处,该适应症值得进一步研究。
