Initial Experience With Ultra-High-Definition 3D Exoscope in Thyroid and Parathyroid Surgery.

IF 1.2 4区医学 Q3 SURGERY

Surgical Innovation Pub Date : 2024-10-01 Epub Date: 2024-08-04 DOI:10.1177/15533506241273334

Steen Bernes, Jacob Lilja-Fischer, Niels Krintel Petersen, Nichlas Udholm, Kasper Basse Reinholdt, Stefano Londero, Thomas Kjærgaard, Lars Rolighed

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引用次数: 0

Abstract

Background: Operation with a 3D exoscope has recently been introduced in clinical practice. The exoscope consists of two cameras placed in front of the operative field. Images are shown on a large 3D screen with high resolution. The system can be used to enhance precise dissection and provides new possibilities for improved ergonomics, fluorescence, and other optical-guided modalities.

Methods: Initial experience with the ultra-high-definition (4K) 3D exoscope in thyroid and parathyroid operations. The exoscope (OrbEye^TM) was mounted on a holding system (Olympus).

Results: We used the exoscope in parathyroidectomy (N = 6) and thyroidectomy (N = 6). Immediate advantages and disadvantages were discussed and recorded. The learning curve for use of the exoscope may be shorter for surgeons with training in endoscopic or robotic procedures. There may be improved ergonomics compared with normal open-neck operations. Further, the optical guided operations can be used with fluorescence and have potential for different on-lay techniques in the future. The 4 K 3D image quality is state-of-art and is highly appreciated during fine surgical dissection and eliminates the need for loupes.

Conclusion: In several ways, using the ORBEYE™ in thyroid and parathyroid surgery provides the surgical team with a new and enhanced experience. This includes improved possibility for teaching, surgical ergonomics, and a 4K 3D camera with a powerful magnification system. However, it is not clear if utilization of these features would improve surgical outcomes. Furthermore, the ORBEYE™ lacks incorporation of parathyroid autofluorescence, and the current costs for the system do not facilitate general access to exoscope assisted operations.

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在甲状腺和甲状旁腺手术中使用超高清 3D 外窥镜的初步经验。

背景：最近，临床上开始使用三维外窥镜进行手术。外窥镜由放置在手术区域前方的两个摄像头组成。图像显示在高分辨率的 3D 大屏幕上。该系统可用于加强精确解剖，并为改善人体工程学、荧光和其他光学引导方式提供了新的可能性：在甲状腺和甲状旁腺手术中使用超高清（4K）3D 外窥镜的初步经验。外窥镜（OrbEyeTM）安装在固定系统（奥林巴斯）上：结果：我们在甲状旁腺切除术（6 例）和甲状腺切除术（6 例）中使用了外窥镜。结果：我们在甲状旁腺切除术（6 例）和甲状腺切除术（6 例）中使用了外窥镜，并讨论和记录了其直接利弊。对于接受过内窥镜或机器人手术培训的外科医生来说，使用外窥镜的学习曲线可能更短。与普通开颈手术相比，人体工程学设计可能会有所改进。此外，光学引导手术可与荧光技术一起使用，并有可能在未来用于不同的铺设技术。4 K 三维图像质量达到了最先进的水平，在精细手术解剖时非常受欢迎，而且无需使用放大镜：在甲状腺和甲状旁腺手术中使用 ORBEYE™ 在多个方面为手术团队带来了全新的体验。这包括教学、手术人体工学和带有强大放大系统的 4K 3D 摄像头等方面的改进。不过，目前还不清楚使用这些功能是否能改善手术效果。此外，ORBEYE™ 没有加入甲状旁腺自动荧光功能，而且该系统目前的成本也不利于外窥镜辅助手术的普及。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Surgical Innovation 医学-外科

CiteScore

2.90

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Surgical Innovation (SRI) is a peer-reviewed bi-monthly journal focusing on minimally invasive surgical techniques, new instruments such as laparoscopes and endoscopes, and new technologies. SRI prepares surgeons to think and work in "the operating room of the future" through learning new techniques, understanding and adapting to new technologies, maintaining surgical competencies, and applying surgical outcomes data to their practices. This journal is a member of the Committee on Publication Ethics (COPE).