Department of Thoracic and Vascular Surgery, Victor Dupouy Hospital, Argenteuil, France.
Surg Innov. 2024 Dec;31(6):618-621. doi: 10.1177/15533506241290069. Epub 2024 Oct 3.
Diagnosis and treatment of nodules remain challenging issues. The aim of this article is to report the technique of real-time navigation using holographic reconstruction technology combined with a robot assisted thoracic surgery (RATS) platform for lung resection in patients with . The pre-surgery 3D planning was based on the chest CT scan. The reconstruction was uploaded to a head-mounted display for real-time navigation during mini invasive robot assisted surgery performed with an open console platform. We evaluated this technique with the success rate of diagnosis, the operative time and the post-operative course. This technique was performed in 6 patients (4 female, mean age 65 years) to date. The precision of the head-mounted display based localization system was effective in all cases without the need of open conversion. The mean diameter of the nodules was 8 mm (6-9). The diagnosis was a lung cancer (n = 5) and tuberculoma (n = 1). The mean operative time was 125 min (100-145). The mean hospital stay was 2.5 days (1-3). In conclusion, the intraoperative navigation using the 3D holographic assistance was an helpful tool for mini invasive RATS lung segmentectomy without the need of preoperative localization.
诊断和治疗结节仍然是具有挑战性的问题。本文的目的是报告一种使用全息重建技术结合机器人辅助胸腔手术(RATS)平台进行肺切除术的技术,用于治疗肺部结节。术前的 3D 规划基于胸部 CT 扫描。重建后上传到头戴式显示器,用于在使用开放式控制台平台进行微创机器人辅助手术时进行实时导航。我们通过诊断成功率、手术时间和术后过程来评估该技术。迄今为止,该技术已在 6 名患者(4 名女性,平均年龄 65 岁)中实施。基于头戴式显示器的定位系统的精度在所有情况下均有效,无需进行开放性转换。结节的平均直径为 8mm(6-9)。诊断结果为肺癌(n=5)和结核球(n=1)。平均手术时间为 125 分钟(100-145)。平均住院时间为 2.5 天(1-3)。总之,术中使用 3D 全息辅助导航是一种微创 RATS 肺段切除术的有用工具,无需术前定位。
