Ji Gu-Wei, Zhu Fei-Peng, Wang Ke, Xia Yong-Xiang, Jiao Chen-Yu, Shao Zi-Cheng, Li Xiang-Cheng
Key Laboratory on Living Donor Liver Transplantation, Department of liver surgery, Ministry of Health, First Affiliated Hospital of Nanjing Medical University, Nanjing, P.R. China.
Department of Radiology, First Affiliated Hospital of Nanjing Medical University, Nanjing, P.R. China.
J Surg Res. 2017 Jun 15;214:254-261. doi: 10.1016/j.jss.2017.03.027. Epub 2017 Mar 31.
Preoperative evaluation of vasculobiliary anatomy in the umbilical fissure (U-point) is pivotal for perihilar cholangiocarcinoma (PCCA) applied to right-sided hepatectomy. The purpose of our study was to review the vasculobiliary anatomy in the U-point using three-dimensional (3D) reconstruction technique, to investigate the diagnostic ability of 2D scans to evaluate anatomic variations, and to discuss its surgical implications.
A retrospective study of 159 patients with Bismuth type I, II, and IIIa PCCA, who received surgery at our institution from November 2012 to September 2016, was conducted. Anatomic structures were assessed using multidetector computed tomography (MDCT) by one hepatobiliary surgeon, whereas 3D images were reconstructed by an independent radiologist. Normal confluence pattern of left biliary system was defined as the left medial segmental bile duct (B4) joining the common trunk of segment II (B2) and segment III (B3) ducts, whereas aberrant confluence patterns were classified into 3 types: type I, triple confluence of B2, B3, and B4; type II, B2 draining into the common trunk of B3 and B4; type III, other patterns. Surgical anatomy of B4 was classified into the central, peripheral, and combined type according to its relation to the hepatic confluence. The lengths from the bile duct branch of Spiegel's lobe (B1l) to the orifice of B4 and the junction of B2 and B3 were measured on 3D images. The anatomy of left hepatic artery (LHA) was classified according to different origins and the spatial relationship related to the U-point.
3D reconstruction revealed that normal confluence pattern of left biliary system was observed in 71.1% (113/159) of all patients, and variant patterns were type I in 11.9% (19/159), type II in 12.6% (20/159), and type III in 4.4% (7/159). The length from B1l to the junction of B2 and B3 was 12.1 ± 3.1 mm in type I variation, which was significantly shorter than that in normal configuration (30.0 ± 6.8 mm, P < 0.001) but significantly longer than that in type II variation (9.6 ± 3.4 mm, P = 0.019). Surgical anatomy of B4: the peripheral type was most commonly seen (74.2%, 118/159), followed by central type (15.7%, 25/159) and combined type (10.1%, 16/159). The distance between the B1l and B4 was 8.4 ± 2.4 mm in central and combined type, which was significantly shorter than that in peripheral type (14.5 ± 4.1 mm, P < 0.001). A replaced or accessory LHA from the left gastric artery was present in 6 (3.8%) and 9 (5.7%) patients, respectively. LHA running along the left caudal position of U-point was present in 143 cases (89.9%), along the right cranial position of U-point in nine cases (5.7 %), and combined position in seven cases (4.4%). Interobserver agreement of two imaging modalities was almost perfect in biliary confluence pattern (kappa = 0.90; 95% confidence interval: 0.79-1.00), substantial in surgical anatomy of B4 (kappa = 0.74; 95% confidence interval: 0.62-0.86), and perfect in LHA (kappa = 1.00).
Thoroughly understanding the imaging characters of surgical anatomy in the U-point may be benefit for preoperative evaluation of PCCA by successive review of 2D images alone, whereas 3D reconstruction technique allows detailed hepatic anatomy and individualized surgical planning for advanced cases.
肝门部胆管癌(PCCA)行右侧肝切除术前评估脐裂(U点)处的血管胆管解剖结构至关重要。本研究旨在利用三维(3D)重建技术回顾U点处的血管胆管解剖结构,探讨二维扫描评估解剖变异的诊断能力,并讨论其手术意义。
对2012年11月至2016年9月在我院接受手术的159例Bismuth I型、II型和IIIa型PCCA患者进行回顾性研究。由一名肝胆外科医生使用多排螺旋计算机断层扫描(MDCT)评估解剖结构,而3D图像由一名独立的放射科医生重建。左肝管系统的正常汇合模式定义为左内侧段胆管(B4)与第II段(B2)和第III段(B3)胆管的共同主干汇合,而异常汇合模式分为3种类型:I型,B2、B3和B4三联汇合;II型,B2汇入B3和B4的共同主干;III型,其他模式。根据B4与肝汇合处的关系,将B4的手术解剖分为中央型、外周型和混合型。在3D图像上测量斯皮格尔叶胆管分支(B1l)至B4开口以及B2和B3汇合处的长度。根据不同起源和与U点的空间关系对左肝动脉(LHA)的解剖结构进行分类。
3D重建显示,所有患者中71.1%(113/159)观察到左肝管系统正常汇合模式,变异模式中I型占11.9%(19/159),II型占12.6%(20/159),III型占4.4%(7/159)。I型变异中B1l至B2和B3汇合处的长度为12.1±3.1mm,明显短于正常构型(30.0±6.8mm,P<0.001),但明显长于II型变异(9.6±3.4mm,P=0.019)。B4的手术解剖:外周型最常见(74.2%,118/159),其次是中央型(15.7%,25/159)和混合型(10.1%,16/159)。中央型和混合型中B1l与B4的距离为8.4±2.4mm,明显短于外周型(14.5±4.1mm,P<0.001)。分别有6例(3.8%)和9例(5.7%)患者存在发自胃左动脉的替代或副LHA。143例(89.9%)LHA沿U点左尾侧走行,9例(5.7%)沿U点右头侧走行,7例(4.4%)为联合走行位置。两种成像方式在胆管汇合模式方面的观察者间一致性几乎完美(kappa=0.90;95%置信区间:0.79-1.00),在B4手术解剖方面为高度一致(kappa=0.74;95%置信区间:0.62-0.86),在LHA方面为完美(kappa=1.00)。
通过单独连续回顾二维图像深入了解U点手术解剖的影像学特征可能有助于PCCA的术前评估,而3D重建技术可为晚期病例提供详细的肝脏解剖结构并制定个体化手术方案。
