Du Yu-Kun, Li Si-Yuan, Yang Wen-Jiu, Wang Xiang-Yang, Bi Yi-Fang, Dong Jun, Huang Hui, Gao Feng, Li Gui-Zhi, Wei Hua-Wei, Yang Jian-Kun, Xi Yong-Ming
Department of Spinal Surgery, The Affiliated Hospital of Qingdao University, Qingdao, China.
Department of Spinal Surgery, Shandong Provincial Third Hospital, Cheeloo College of Medicine, Shandong University, Jinan, China.
Orthop Surg. 2020 Jun;12(3):931-937. doi: 10.1111/os.12700. Epub 2020 Jun 3.
Occipitocervical fusion (OCF) is an effective treatment for instability of occipitocervical junction (OCJ). The occipital condyle screw serves as a novel surgical technique for occipitocervical fixation. However, the intraoperative procedures for the occipital condyle screw technique have relied on surgeons' experience, so the pool of surgeons who are able to perform this surgery safely is limited. The present study aims to evaluate the feasibility and safety of the occipital condyle screw technique using human cadavers and to provide image anatomy for clinical application basis.
The scientific study comprised 10 fresh-frozen cadaveric specimens from the anatomy department of Qingdao University. Placement of the occipital condyle screws (3.5 mm diameter and 20.0 mm length) was performed in the 10 fresh-frozen cadaveric specimens with intact occipitocervical junctions, respectively. Occipitocervical CT was performed for all specimens and the DICOM data was obtained. Occipitocervical CT three-dimensional (3D) reconstruction was performed for the cadavers. Morphometric analysis was performed on the bilateral occipitocervical junction of 10 cadaveric specimens based on the 3D reconstruction CT images. Detailed morphometric measurements of the 20 occipital condyles screws were conducted including the average length of the screw trajectory, inside and upper tilting angles of screws, distance to the hypoglossal canal, and to the medial wall of occipital condyle.
Placement of the occipital condyle screws into the 20 occipital condyles of the 10 cadaveric specimens was performed successfully and the trajectory of implantation was satisfactory according to 3D CT reconstruction images, respectively. There was no obvious injury to the spinal cord, nerve root, and vertebral artery. The length of the bilateral screw trajectory was, respectively, 20.96 ± 0.91 mm (left) and 20.59 ± 0.77 mm (right) (t = 1.306, P > 0.05). The upper tilting angle of bilateral screws was, respectively, 11.24° ± 0.74° (left) and 11.11° ± 0.64° (right) (t = 0.681, P > 0.05). The inside tilting angle of bilateral screws was, respectively, 31.00° ± 1.32° (left) and 30.85° ± 1.27° (right) (t = 0.307, P > 0.05). The screw's distance to the bilateral hypoglossal canal was, respectively, 4.84 ± 0.54 mm (left) and 4.70 ± 0.54 mm (right) (t = 0.685, P > 0.05). The screw's distance to the medial wall of the bilateral occipital condyle was, respectively, 5.13 ± 0.77 mm (left) and 5.04 ± 0.71 mm (right) (t = 0.384, P > 0.05).
The occipital condyle screw technique can serve as a feasible and safe treatment for instability of the occipitocervical junction with meticulous preoperative planning of the screw entry point and direction based on individual differences. Morphometric trajectory analysis is also an effective way to evaluate the surgical procedure.
枕颈融合术(OCF)是治疗枕颈交界区(OCJ)不稳的有效方法。枕髁螺钉是一种新型的枕颈固定手术技术。然而,枕髁螺钉技术的术中操作依赖于外科医生的经验,因此能够安全实施该手术的外科医生群体有限。本研究旨在利用人体尸体评估枕髁螺钉技术的可行性和安全性,并为临床应用提供影像解剖学依据。
本科学研究包括青岛大学解剖学系的10个新鲜冷冻尸体标本。分别在10个枕颈交界完整的新鲜冷冻尸体标本上置入枕髁螺钉(直径3.5mm,长度20.0mm)。对所有标本进行枕颈CT扫描并获取DICOM数据。对尸体进行枕颈CT三维(3D)重建。基于3D重建CT图像对10个尸体标本的双侧枕颈交界区进行形态学分析。对20枚枕髁螺钉进行详细的形态学测量,包括螺钉轨迹的平均长度、螺钉的内倾和上倾角度、到舌下神经管的距离以及到枕髁内侧壁的距离。
在10个尸体标本的20个枕髁上成功置入枕髁螺钉,根据3D CT重建图像,植入轨迹均令人满意。脊髓、神经根和椎动脉均无明显损伤。双侧螺钉轨迹长度分别为20.96±0.91mm(左侧)和20.59±0.77mm(右侧)(t = 1.306,P>0.05)。双侧螺钉的上倾角度分别为11.24°±0.74°(左侧)和11.11°±0.64°(右侧)(t = 0.681,P>0.05)。双侧螺钉的内倾角度分别为31.00°±1.32°(左侧)和30.85°±1.27°(右侧)(t = 0.307,P>0.05)。螺钉到双侧舌下神经管的距离分别为4.84±0.54mm(左侧)和4.70±0.54mm(右侧)(t = 0.685,P>0.05)。螺钉到双侧枕髁内侧壁的距离分别为5.13±0.77mm(左侧)和5.04±0.71mm(右侧)(t = 0.384,P>0.05)。
基于个体差异,对螺钉进针点和方向进行细致的术前规划,枕髁螺钉技术可作为治疗枕颈交界区不稳的一种可行且安全的方法。形态学轨迹分析也是评估手术操作的有效方法。
