Quinones Christian, Wilson John Preston, Kumbhare Deepak, Guthikonda Bharat, Hoang Stanley
Department of Neurosurgery, Louisiana State University Health Shreveport, Shreveport, LA 71103, USA.
J Clin Med. 2025 Feb 10;14(4):1132. doi: 10.3390/jcm14041132.
Minimally invasive spine surgery has advanced significantly over the past decade, integrating technologies such as intraoperative navigation, robotics, and artificial intelligence with innovative techniques such as single-position prone lateral transpsoas lumbar interbody fusion (proLIF). While proLIF offers excellent clinical outcomes for a wide range of lumbar pathologies, the lateral approach to lumbar spine presents technical and ergonomic challenges, including an increased need for soft-tissue dissection and unfavorable ergonomics for surgeons. This review details how the combination of emerging technologies has been applied in minimally invasive lumbar spine surgery. It also describes the novel application of an exoscope during navigation-guided proLIF. The benefits offered by the exoscope included high-resolution, three-dimensional visualization, enhanced maneuverability, and improved surgeon ergonomics. By combining emerging technologies with novel surgical approaches, this review demonstrates the recent advancements in minimally invasive spine surgery and underscores the exoscope's potential to enhance visualization and optimize ergonomics for surgeons.
在过去十年中,微创脊柱手术取得了显著进展,将术中导航、机器人技术和人工智能等技术与单体位俯卧位经腰大肌腰椎椎间融合术(proLIF)等创新技术相结合。虽然proLIF为多种腰椎疾病提供了出色的临床效果,但腰椎的外侧入路存在技术和人体工程学方面的挑战,包括软组织解剖需求增加以及对外科医生不利的人体工程学因素。本综述详细介绍了新兴技术的组合如何应用于微创腰椎手术。它还描述了在导航引导下的proLIF过程中使用外视镜的新应用。外视镜提供的优势包括高分辨率、三维可视化、增强的可操作性以及改善外科医生的人体工程学条件。通过将新兴技术与新颖的手术方法相结合,本综述展示了微创脊柱手术的最新进展,并强调了外视镜在增强可视化和优化外科医生人体工程学方面的潜力。