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C1 后路侧块螺钉置入的工作区域、安全区及进针角度:定量解剖学与形态学评估

Working area, safety zones, and angles of approach for posterior C-1 lateral mass screw placement: a quantitative anatomical and morphometric evaluation.

作者信息

Rocha Rogerio, Safavi-Abbasi Sam, Reis Cassius, Theodore Nicholas, Bambakidis Nicholas, de Oliveira Evandro, Sonntag Volker K H, Crawford Neil R

机构信息

Department of Neurosurgery, Institute of Neurological Sciences, São Paulo, Brazil.

出版信息

J Neurosurg Spine. 2007 Mar;6(3):247-54. doi: 10.3171/spi.2007.6.3.247.

Abstract

OBJECT

The authors measured relevant quantitative anatomical parameters to define safety zones for the placement of C-1 posterior screws.

METHODS

Nineteen linear, two angular, and four surface parameters of 20 dried atlantal specimens were evaluated. The Optotrak 3020 system was used to define the working area. Ideal angles for screw positioning were measured using digital radiographs and a free image-processing program. Six silicone-injected cadaveric heads were dissected bilaterally to study related neurovascular anatomy. The depth (range 5.2-9.4 mm, mean 7.2 +/- 1.1 mm) and width (range 5.2-8.1 mm, mean 6.5 +/- 0.9 mm) of the transverse foramen varied considerably among specimens. The mean posterior working area was 43.3 mm2. All specimens accommodated 3.5-mm-diameter screws, and 93% accepted 4-mm-diameter screws. In 10 specimens (50%), partial removal of the posterior arch was necessary to accommodate a 4-mm screw. The mean maximum angle of medialization was 16.7 +/- 1.3 degrees; the mean maximum superior angulation was 21.7 +/- 4.7 degrees.

CONCLUSIONS

The anatomical configuration of the atlas and vertebral artery (VA) varied considerably among the cadaveric specimens. The heights of the C-1 pedicle, posterior arch, and posterior lamina determine the posterior working area available for screw placement. The inferior insertion of the posterior arch may have to be drilled to increase this working area, but doing so risks injury to the VA. A dense venous plexus with multiple anastomoses may cover the screw entry site, potentially obscuring the operative view and increasing the risk of hemorrhage.

摘要

目的

作者测量相关定量解剖参数以确定C1后路螺钉置入的安全区域。

方法

评估20个干燥寰椎标本的19个线性、2个角度和4个表面参数。使用Optotrak 3020系统确定工作区域。使用数字X线片和一个免费图像处理程序测量螺钉定位的理想角度。对6个注入硅胶的尸体头部进行双侧解剖以研究相关神经血管解剖结构。横突孔的深度(范围5.2 - 9.4 mm,平均7.2 ± 1.1 mm)和宽度(范围5.2 - 8.1 mm,平均6.5 ± 0.9 mm)在各标本间差异很大。后工作区域的平均面积为43.3 mm²。所有标本均可容纳直径3.5 mm的螺钉,93%的标本可容纳直径4 mm的螺钉。在10个标本(50%)中,需要部分切除后弓以容纳4 mm的螺钉。内聚的平均最大角度为16.7 ± 1.3度;向上的平均最大角度为21.7 ± 4.7度。

结论

寰椎和椎动脉(VA)的解剖结构在尸体标本间差异很大。C1椎弓根、后弓和后板的高度决定了可用于螺钉置入的后工作区域。可能需要钻除后弓的下插入部以增加该工作区域,但这样做有损伤VA的风险。一个有多个吻合支的密集静脉丛可能覆盖螺钉置入部位,可能会遮挡手术视野并增加出血风险。

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