Teng Honglin, Hsiang John, Wu Chunlei, Wang Meihao, Wei Haifeng, Yang Xinghai, Xiao Jianru
Department of Spine Surgery, First Affiliated Hospital of Wenzhou Medical College, Wenzhou, Zhejiang, China.
J Neurosurg Spine. 2009 Jun;10(6):531-42. doi: 10.3171/2009.2.SPINE08372.
The authors propose an easy MR imaging method to measure and categorize individual anatomical variations within the cervicothoracic junction (CTJ). Furthermore, they propose guidelines for selection of the appropriate approach based on this new categorization system.
In the midsagittal section of the cervicothoracic MR imaging studies obtained in 95 Chinese patients, a triangle was drawn among 3 points: the suprasternal notch (SSN), the midpoint of the anterior border of the C7/T1 intervertebral disc, and the corresponding anterior border in the CTJ at the level of the SSN. The angle above the SSN was specified as the cervicothoracic angle (CTA). The spatial position between the brachiocephalic vein (BCV), the aortic arch, and the CTA was also measured. Based on these measurements involving the CTA, 3 different patient-specific categorizations are proposed to assist surgeons with selection of the appropriate anterior approach to the CTJ. Three categories of operative approach based on whether the most caudal part of the lesion site was above, within, or below the area of the CTA were classified. The patients were divided into long- or short-necked groups based on whether their own CTA was greater than (long necked) or less than (short necked) the average CTA. Finally, a left BCV was called superiorly located when it coursed above the manubrium. The method was evaluated in 21 patients with spinal bone tumors in the CTJ to illustrate the measurement of both the CTA and the great vessels, and corresponding approach selections.
In this series of 95 patients, the most common vertebra above the SSN was T-3, especially the upper one-third of T-3. The mean CTA was 47.64 degrees . The left BCV was superior to the manubrium in 21.1% of the 95 cases, and 93.6% of the left BCVs were at the T-2 and T-3 levels. Type A and most Type B lesions could be addressed via a low suprasternal approach, or this approach combined with manubriotomy, if necessary. Type C lesions falling below the CTA will need alternative exposure techniques, including manubriotomy, sternotomy, lateral extracavitary, or thoracotomy. The spinal levels that could be exposed in the long-necked CTJ group were always 1 or 2 vertebral levels lower than those in the short-necked CTJ group during the anterior low suprasternal approach without the manubriotomy.
Imaging of the thoracic manubrium should be routinely included on MR imaging studies obtained in the CTJ. It is important for the surgeon to understand the pertinent anatomy of the individual patients and to determine the feasible surgical approaches after evaluating the CTA and vascular factors preoperatively. An anterior low suprasternal approach, or this approach combined with manubriotomy, is applicable in most of the cases in the CTJ. It should be cautioned that preoperatively unrecognized variations of the left BCV above the SSN might result in potential intraoperative trauma during an anterior approach.
作者提出一种简易的磁共振成像(MR)方法,用于测量和分类颈胸交界处(CTJ)的个体解剖变异。此外,他们基于这种新的分类系统提出了选择合适手术入路的指导原则。
在对95例中国患者进行的颈胸段MR成像研究的矢状面中,于三个点之间绘制一个三角形:胸骨上切迹(SSN)、C7/T1椎间盘前缘中点以及SSN水平处CTJ的相应前缘。SSN上方的角度被指定为颈胸角(CTA)。还测量了头臂静脉(BCV)、主动脉弓与CTA之间的空间位置。基于这些涉及CTA的测量结果,提出了3种不同的针对个体患者的分类方法,以协助外科医生选择合适的CTJ前路手术入路。根据病变部位最尾端部分是在CTA区域上方、内部还是下方,将手术入路分为三类。根据患者自身CTA大于(长颈)或小于(短颈)平均CTA,将患者分为长颈组或短颈组。最后,当左BCV走行于胸骨柄上方时,称其位置较高。该方法在21例CTJ脊柱骨肿瘤患者中进行评估,以说明CTA和大血管的测量以及相应的手术入路选择。
在这95例患者系列中,SSN上方最常见的椎体是T-3,尤其是T-3的上三分之一。平均CTA为47.64度。在95例病例中,21.1%的左BCV位于胸骨柄上方,93.6%的左BCV位于T-2和T-3水平。A型和大多数B型病变可通过低位胸骨上入路处理,必要时可联合胸骨切开术。低于CTA的C型病变需要采用其他暴露技术,包括胸骨切开术、胸骨劈开术、外侧胸廓切开术或开胸术。在前路低位胸骨上入路且不进行胸骨切开术时,长颈CTJ组能够暴露的脊柱节段总是比短颈CTJ组低1或2个椎体节段。
在CTJ的MR成像研究中应常规包括胸骨柄的成像。外科医生了解个体患者的相关解剖结构并在术前评估CTA和血管因素后确定可行的手术入路非常重要。前路低位胸骨上入路或联合胸骨切开术适用于大多数CTJ病例。应注意的是,术前未识别出的SSN上方左BCV变异可能导致前路手术中潜在的术中创伤。
