1 Department of Otolaryngology-Head and Neck Surgery, School of Medicine, Johns Hopkins University, Baltimore, Maryland, USA.
2 Laboratory for Computational Sensing and Robotics, Johns Hopkins University, Baltimore, Maryland, USA.
Otolaryngol Head Neck Surg. 2019 Feb;160(2):320-325. doi: 10.1177/0194599818815144. Epub 2018 Dec 4.
To describe a 3D-printed middle ear model that quantifies the force applied to the modeled incus. To compare the forces applied during placement and crimping of a stapes prosthesis between the Robotic ENT Microsurgery System ( REMS) and the freehand technique in this model.
Prospective feasibility study.
Robotics laboratory.
A middle ear model was designed and 3D printed to facilitate placement and crimping of a piston prosthesis. The modeled incus was mounted to a 6-degree of freedom force sensor to measure forces/torques applied on the incus. Six participants-1 fellowship-trained neurotologist, 2 neurotology fellows, and 3 otolaryngology-head and neck surgery residents-placed and crimped a piston prosthesis in this model, 3 times freehand and 3 times REMS assisted. Maximum force applied to the incus was then calculated for prosthesis placement and crimping from force/torque sensor readings for each trial. Robotic and freehand outcomes were compared with a linear regression model.
Mean maximum magnitude of force during prosthesis placement was 126.4 ± 73.6 mN and 105.0 ± 69.4 mN for the freehand and robotic techniques, respectively ( P = .404). For prosthesis crimping, the mean maximum magnitude of force was 469.3 ± 225.2 mN for the freehand technique and 272.7 ± 97.4 mN for the robotic technique ( P = .049).
Preliminary data demonstrate that REMS-assisted stapes prosthesis placement and crimping are feasible with a significant reduction in maximum force applied to the incus during crimping with the REMS in comparison with freehand.
描述一种可量化模型砧骨所受作用力的 3D 打印中耳模型。比较在该模型中,使用机器人 ENT 微创手术系统(REMS)和徒手技术对镫骨假体进行放置和卷曲时施加的力。
前瞻性可行性研究。
机器人实验室。
设计并 3D 打印了一个中耳模型,以方便活塞假体的放置和卷曲。模型砧骨安装在 6 自由度力传感器上,以测量施加在砧骨上的力/扭矩。6 名参与者——1 名神经耳科研究员、2 名神经耳科研究员和 3 名耳鼻喉头颈外科住院医师——在该模型中徒手和 REMS 辅助各进行了 3 次活塞假体放置和卷曲。然后根据每个试验的力/扭矩传感器读数计算假体放置和卷曲时砧骨所受最大力。使用线性回归模型比较机器人和徒手技术的结果。
假体放置时,徒手技术和机器人技术的最大力均值分别为 126.4±73.6mN 和 105.0±69.4mN(P=.404)。对于假体卷曲,徒手技术的最大力均值为 469.3±225.2mN,机器人技术的最大力均值为 272.7±97.4mN(P=.049)。
初步数据表明,与徒手技术相比,REMS 辅助镫骨假体放置和卷曲是可行的,在卷曲时砧骨所受最大力显著降低。
