肝段在冠状断面上的划分：断层标本与磁共振图像对照研究

为给ＭＲ图像精确定位肝内占位性病变提供断面面解剖学依据，利用１０套成人肝连续冠状断层标本、３套躯干部连续冠状断层标本、４１例胎肝管道铸型及２３例正常肝ＭＲ冠状图像，研究了肝段在连续冠状断面上的划分。正中裂的产有部为肝中静脉至胆囊窝中点的连线，后部的为肝中静脉至门裂为肝左静脉至肝左缘中点的连线；右叶间裂依几呈冠状位的肝右静脉确定；右段间裂主要依门静脉分支来确定；背裂的前部为肝中静脉注入下腔静脉处至门     

肝段在矢状断面上的划分：断层标本与磁共振图像对照研究

目的：为ＭＲ矢状图像精确定位肝内占位性病变提供断层解剖学依据。方法：对照观察３８例腹部连续矢状断层标本、４１例胎肝管道铸型和８例活体腹部ＭＲ矢状图像，探讨肝段在矢状断面上的划分。结果：依肝左静脉可区分段Ⅱ和段Ⅲ，门静脉左支矢状部是段Ⅱ、段Ⅲ与段Ⅳ间的天然良界，段Ⅰ位于静脉韧带裂后方或／和下腔静脉前方，肝中静脉与肝门或胆囊窝的连线可用以区分段Ⅳ与段Ⅴ、段Ⅷ，依肝右静脉、胆囊窝和门静脉右支及其分支可区分出段Ⅴ、段Ⅷ、段Ⅵ、段Ⅶ。结论：依肝静脉、门静脉和肝的自然沟裂，在ＭＲ矢状图像上可精确划分肝段     

国人肝段在冠状断层上的划分

目的：为肝内微小病变精确定位诊断和外科治疗提供冠状断层解剖学依据。方法：采用30例上腹部连续冠状断层标本、20例肝内门静脉和肝静脉解剖正常的薄层MSCT断层图像及其三维重建图像,在冠状断层上对其门静脉肝段进行精确划分。结果：经胆囊、门静脉左支及肝左静脉的冠状断面上,肝中静脉主干是划分右前上叶和左前下叶的识别标志,门静脉左支角部是左前下叶的段间裂识别标志,亦是右前上叶和左前下叶的亚段间裂识别标志。经肝门静脉主干的冠状断面上,门静脉右前支主干是右前上叶的段间裂识别标志,该层面以前为右前上叶的腹侧段,该层面以后则为右前上叶的背侧段。经网膜孔的冠状断面上、下腔静脉的右缘是划分尾状叶和右半肝的识别标志,门静脉右后支主干是划分右前上叶背侧段和右后下叶下段的标志,经下腔静脉和肝右静脉的冠状面上,肝右静脉主干是划分右前上叶的背侧段和右后下叶上段的标志;门静脉右后支主干是右后下叶的段间裂识别标志。结论：国人门静脉肝段在冠状断面上的精确划分,不仅有利于肝内微小病变的精确定位,且有利于探索新的和更加安全的外科术式。     

右半肝内门静脉的断层影像解剖学研究

目的 探讨右半肝内门静脉的走行、分布规律及门静脉肝裂和肝静脉的关系,进而为肝段的划分提供断层解剖学依据. 方法使用30例上腹部连续断层标本(10例横断面、20例冠状面)以及20例多层螺旋CT图像和三维图像,探讨右半肝内门静脉的分支类型和常见变异以及肝内门静脉和肝静脉之间的关系. 结果 50例标本和图像中,右半肝内门静脉均可分为前上和后下两组分支.76%(38150)的门静脉右前支的分支向后分布至肝右静脉后方的部分区域.40%(20/50)的门静脉右后支的起始部向尾侧发出的第一分支分布至肝右静脉前的部分区域.门静脉右前支的分布区域,越过肝中静脉偏向左侧,在15例无门静脉右支主干的标本和图像中尤其明显.肝右前叶无明显横裂存在.门静脉的亚段分型有显著的个体差异,且无优势分支类型. 结论右半肝可分为右前上叶和右后下叶,两叶之间为一弯曲的"裂隙".肝右前上叶有一恒定的纵裂存在.肝右静脉不是右叶间裂的准确定位标志,尤其在其上份和下份.肝中静脉不是正中裂的准确识别标志,尤其在门静脉右支主干缺如的人群中.     

国人肝段的再认识

目的:对肝内门静脉和肝静脉重新认识,提出一种新的国人肝段划分方法,为影像学和肝外科提供断层解剖学资料。方法:使用50例上腹部连续断层标本和20例多层螺旋CT图像及三维重建图像,研究了肝内门静脉的走行和分布以及肝静脉及其属支的回流范围及其两者之间的相互关系。结果:国人肝段新的划分方法:门静脉右支主干存在时,依肝中静脉所在的正中裂将肝分为左、右半肝。右半肝被一弯曲的右叶间裂分成右前上叶和右后下叶。右前上叶依垂直段间裂分为腹侧和背侧段。右前上叶的腹侧段被水平亚段间裂分为上、下两个亚段。右后下叶依水平段间裂分为上、下两段。肝左静脉主干存在时,依肝左静脉主干所在的左叶间裂将左半肝分成左后上叶和左前下叶。左前下叶依左段间裂分为内侧和外侧段。水平亚段间裂将左前下叶的内侧段分为上、下两个亚段。依弧形背裂分尾状叶和右前上叶及左前下叶内侧段。结论:国人肝段新的划分法不仅有利于肝内微小病变的精确定位,而且便于肝外科探索新的和更加安全的术式来施行各种肝切除和肝移植。     

经静脉韧带门腔分流的应用解剖

目的探讨门腔分流新途径。方法选择成人正常肝 44 例,解剖观测肝圆韧带、静脉韧带等。结果静脉韧带走行于肝下面的静脉韧带裂内,连于门静脉左支和下腔静脉之间,长约 4．09＝0．61 cm;肝圆韧带连于脐和门静脉左支之间,其肝外段和肝内段分别长约 14．51±3．44 cm,5．75±0．99 cm。静脉韧带和肝圆韧带内均有间断残腔存在,且以近心段最为明显,分别长达 1．99±0．39 cm 和 2．91±0．62 cm。肝圆韧带和静脉韧带均可用直径 2 mm 的铁丝使其再通。结论于脐处切口,扩张再通肝圆韧带、静脉韧带至下腔静脉,实现门腔分流通道具有可行性。     

COUINAUD肝段法在横断面上的划分及其在影像学中的应用

作者在30具男性成年尸体连续横断面上，追踪观察了肝静脉系统和肝门静脉鞘系在肝内的属支和分支，下腔静脉肝后段以及肝表面的沟，裂，探讨了如何按Couinaud肝段法划分横断面上的肝叶，肝段的问题，并讨论了在影像学诊断中的有关问题。     

肝圆韧带及其在腹部手术中的应用

1 肝圆韧带概述 1.1 肝圆韧带的形态学 肝圆韧带为藏于镰状韧带游离缘内的脐静脉闭锁而成的条索状韧带,下连脐环。上连脐静脉导管(闭锁后称静脉导管索),连门静脉左支,约有70％左右的人未闭合,可给予再通。临订上常于此作逆行性肝一门静脉造影或经此路插管注药治疗肝肿瘤等或门-体分流手术的途径。 脐旁静脉(paraumbilical veins)起始于脐周围的脉网,向后向上。经肝圆韧带表面或实质,终止于肝门静脉主干(73.80％)或肝门静脉左支(26.20％)是肝门静脉和腹前壁静脉间的重要吻合支 脐周静脉网形成肝门静脉系与上,下腔静脉系之间的吻合:     

西南地区三省一市解剖学会2011年学术年会会议论文文摘汇编

人体解剖学1.附脐静脉的解剖学观测 杨继碧 四川省广元职工医学院 广元628017 笔者观察并直接测量32例成人附脐静脉,结果表明两条附脐静脉附着肝圆韧带两侧缘左、右对称走行,于肝圆韧带汇入门静脉的基部附近汇入肝门静脉左干囊部.其起点至附于肝圆韧带侧缘处距离40.64±9.27mm,起始端直径0.58±0.15mm,汇入端直径1.23士0.31mm.附脐静脉是作为肝门静脉系中交通上、下腔静脉的重要属支静脉.由脐周静脉网形成而汇入肝门静脉.有作者报道肝硬化门脉高压患者偶可出现附脐静脉曲张破裂出血.近年来有将扩张的附脐静脉与下腔静脉吻合来治疗肝硬化门脉高压并取得可喜疗效的报道.但附脐静脉的走行、数目、吻合及直径和汇入门静脉部位等解剖学资料甚少.为此,对附脐静脉的观测可以积累国人的体质资料,为临床应用提供形态学的依据.     

门静脉的体表定位及其临床意义

目的：为超声波检查门静脉或经皮经肝门静脉穿刺提供解剖学基础。方法：在４０例成人尸体标本上观测了门静脉的行程及其分叉位置的体表投影。结果：门静脉肝外段与身体的垂线呈约４０°角；门静脉分叉位置在经右半胸宽中点的垂线与右锁骨中线上肝高中点的水平线的交点附近；门静脉右支分为前、后支的位置在剑突尖平面下方约２ｃｍ，右锁骨中线上肝高的中点附近；门静脉左支分出第１外侧支的位置在剑突尖稍下方的右侧约２ｃｍ。结论：在右腋中线剑突尖平面下方约２ｃｍ经皮经肝穿刺至锁骨中线，导管即可进入门静脉右支内     

肝裂的定位与肝段的划分

目的：精确定位肝裂与肝段,为肝脏病变的诊断和治疗提供解剖学依据。方法：用过氯乙烯分色灌注肝静脉和门静脉。固定灌注后的肝脏,再用雕刻法移去肝组织,保留肝静脉和门静脉,并对其进行详细地解剖学观察。结果：3条肝静脉的位置可精确定位3条肝裂。门静脉左、右支可精确定位1条段间裂。肝裂和段问裂将肝脏分成5叶8段。结论：肝裂和段间裂确定了肝叶和肝段的精确定位与划分,对肝脏病变的诊断和治疗非常重要。     

Right ligamentum teres joining to the right branch of the portal vein

Ligamentum teres joining to the right branch of the portal vein in a 79-year-old Japanese male cadaver was noted during student dissection at Kumamoto University in 2004. The ligamentum teres entered the liver along the left side of the gallbladder fossa. The quadrate lobe was not distinguished from the left lobe in the visceral surface. When the liver parenchyma was removed by tearing off to expose the branches of the portal and hepatic veins, it was clarified that the ligamentum teres unusually joined to the bifurcation of the upper anterior and lower anterior branches of the right branch of the portal vein. The ligamentum teres is the remnant of the umbilical vein working throughout fetal life. Initially a pair of the umbilical veins entered the sinus venosus. During the fourth and fifth weeks they connect to the hepatic sinusoids, which become the portal and hepatic veins, and the parts entering the sinus venosus of both umbilical veins disappear. By the eighth week, as all remainder of the right umbilical vein disappears, the left umbilical vein is the only one to carry blood from the placenta to the liver. It results in the ligamentum teres joining to the left branch of the portal vein. However, in the present case it is thought that the right umbilical vein remained instead of the left one for some reason, and it then became the right ligamentum teres joining to the right branch of the portal vein.     

The portal bifurcation and the termination of the hepatic veins: an anatomical investigation into the projection of the ultrasonographically important hepatic vessels onto the anterior body wall

Summary An investigation was carried out on 50 cadavers, in which the projection onto the anterior abdominal wall of the following vascular points was examined: the portal bifurcation, the direction of the course of the right and left branches of the portal vein and the terminal course of the hepatic veins near their entry into the inferior vena cava (IVC). The results are related to a transverse axis passing through the apex of the xiphoid process and the median plane in the supine position. The average position of the portal bifurcation is projected onto a point between a vertical line passing through the midpoint of the right hemithoracic width and a horizontal line passing through a point on the midclavicular line (MCL) corresponding to 57% of the height of the liver measured upwards from its inferior margin. The axis of the prehepatic course of the portal vein makes an anagle of about 50°, open downwards, with a vertical line drawn through the apex of the internal angle of the portal bifurcation. A line parallel to the course of the right and left branches of the portal vein is projected on to a surface line cranial to the right costochondral margin, which runs upwards at an angle of approximately 20° towards the apex of the xiphoid process. The termination of the three great hepatic veins is projected at about the level of the xiphisternal joint, one sternal width to the right of the midline. Close to the IVC, the right hepatic vein runs upwards and medially at an angle of between 20° and 30° with the transverse plane. The final segment of the intermediate hepatic vein has a relatively steeper course medially of between 60° and 70°, and the left hepatic vein runs laterally and towards the right at an angle of between 50° and 60°. The nearly vertical projection of the fissure for the ligamentum teres of the liver bisects the angle included by the final course of the intermediate and the left hepatic vein.

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La bifurcation portale et la terminaison des veines hépatiques: étude anatomique de la projection échographique des gros vaisseaux hépatiques sur la paroi abdominale antérieure

Résumé Cette étude a été réalisée sur 50 dissections cadavériques, dans le but de préciser la projection sur la paroi abdominale antérieure des éléments vasculaires suivants: la bifurcation portale, la direction du trajet des branches droite et gauche de la veine porte et la terminaison des veines hépatiques dans la veine cave inférieure. Les résultats sont donnés par rapport à un axe transversal passant par le sommet du processus xiphoïde et au plan sagittal médian en décubitus dorsal. La situation moyenne de la bifurcation portale se projette au point de croisement d'une ligne verticale passant par le milieu de l'hémithorax droit et d'une ligne horizontale coupant la ligne médio-claviculaire (LMC) à 57% de la hauteur du foie mesurée de bas en haut à partir de son bord inférieur. L'axe du tronc de la veine porte fait un angle ouvert en bas d'environ 50° avec la verticale passant par la bifurcation portale. Une parallèle au trajet des branches droite et gauche de la veine porte se projette sur une ligne située cranialement par rapport au rebord chondrocostal droit, qui monte vers l'extrémité du processus xiphoïde en faisant un angle de 20° avec le plan transversal. La terminaison des trois veines hépatiques se projette environ au niveau de l'articulation sternoxiphoïdienne à une largeur de sternum à droite de la ligne médiane. A proximité de la veine cave inférieure, la veine hépatique droite se dirige cranialement et médialement en formant un angle de 20 à 30° avec le plan transversal. Le segment terminal de la veine hépatique moyenne a un trajet relativement plus vertical avec un angle de 60 à 70° et la veine hépatique gauche se dirige vers la droite en formant un angle de 50 à 60°. La fissure du ligament rond du foie se projette presque verticalement sur la bissectrice de l'angle formé par la portion terminale des veines hépatiques moyenne et gauche.

     

Persistent left hepatic venous connection with the right atrium and the ductus venosus

An anomalous left hepatic vein opening independently of the coronary sinus into the right atrium was found in the cadaver of an 88-year-old Japanese man. This vein originated from the left lobe of the liver, perforated the diaphragm at the left side of the vena caval foramen and opened into the right atrium. The left hepatic vein anastomosed mutually with the middle hepatic vein at the level of venule. The ligamentum venosum originated from the left branch of the portal vein and was connected directly to the left hepatic vein. The development of the central systemic venous system and a possible explanation for the morphogenesis of this anomaly were reviewed. As a result, the occurrence of this anomalous vein was explained as being due to the persistence of the left vitelline connection with the left sinus horn and the ductus venosus.     

Ramification pattern and topographical relationship between the portal and hepatic veins in the left anatomical lobe of the human liver.

Sixty-one human livers obtained from donated Japanese adult cadavers were dissected to reveal the ramification pattern of the portal and hepatic veins, and their topographical relationship in the left anatomical lobe. The segmental portal vein supplying S2 (P2) tended to form a single stem, whereas that of S3 (P3) was usually double. An intermediate branch between P2 and P3 was observed in 23.0% of livers. In spite of variation between livers, definite P2 and P3 were identified in 47 specimens. One tributary of the left hepatic vein (LHV) was usually present for drainage of S2, and two tributaries were present for S3 (sometimes also for S2 and/or S4). The latter two tributaries of the LHV and the two subsegmental branches of S3 showed three patterns of three-dimensional interdigitations. From these results, the portal vein system did not seem to have a two segmental composition (i.e., S2 and S3) in 23.0% of specimens, whereas the hepatic vein system did not have an intersegmental course in 23.4%. Thus, there were obvious limitations in using each system to determine the liver segment. Taking the overlapping cases into consideration, the left anatomical lobe of 41.0% of specimens did not seem to fit the definition of Couinaud's liver segment. In addition, four patterns of fissure vein (or scissural vein), > 5 mm in diameter at its terminal, were identified: (1) middle hepatic vein type (left median vein, 9.8%); (2) LHV type (left medial vein, 41.0%); (3) true fissure vein (3.3%); and (4) absent cases (45.9%). The former two types also suggested limitations of the hepatic vein system as an indicator of the segmental border.     

Clinical anatomy related to the hepatic veins for right lobe living donor liver transplantation

The complexity of liver reconstruction has limited partial right lobe living donor liver transplantation. It is largely due to the difficulty of dealing with the middle hepatic vein. We sought to define the anatomic features of hepatic veins. Forty‐one fresh adult livers, 43 formalin‐fixed adult cadaver livers, and 91 adult liver corrosion casts were used for the study. We determined the number of branches, the maximum diameter, the whole length, the extrahepatic length of the hepatic veins, and the deviation of the middle hepatic vein from the main portal fissure. Nakamura and Tsuzuki's classification of hepatic vein types was used. Type A, B, and C accounted for 59.4, 27.8, and 12.8% of all specimens in this study, respectively. The middle and left hepatic veins formed a common trunk in 60.3% of the specimens, and the length of the common trunk was 1.12 ± 0.62 cm. The degree of deviation to the right of the middle hepatic vein from the main portal fissure was 14.11° ± 12.65°. The frequency of hepatic vein types and the degree of deviation to the right of the middle hepatic vein in this study is markedly different from that reported in other literature. The anatomic features of the hepatic veins in this study suggest that right lobe living donor liver transplantation is more suitable for Chinese. Clin. Anat. 2013. © 2012 Wiley Periodicals, Inc.     

腹腔镜下肝门血流阻断肝切除术的解剖学基础

目的　探讨腹腔镜下肝门血流阻断在肝切除术（LH）的解剖基础及手术路径。 方法　解剖尸体肝脏,分离血流阻断所涉及各肝门结构,观察在二维平面中毗邻,测量在肝外长度及夹角;观察LH视频中肝门结构,总结镜下的位置及特征。 结果　肝动脉平面低于肝管（90%）,肝门静脉分叉位置固定于后方;肝左和肝中静脉在肝外大多共干（90%）,肝右静脉与共干间存在间隙,与肝后下腔静脉(IVC)前方相通;肝短静脉位于IVC两侧,有（7±3）支;IVC韧带在尸体中易忽略,活体中较明显,为包绕IVC的膜性结构,厚度个体差异大;各结构在肝外长度及夹角为肝门血流阻断提供足够空间;镜下各结构位置及特征与实体比较有特殊性。 结论　LH中应用肝门血流阻断有解剖依据及路径遵循。     

How should we treat short hepatic veins and paracaval branches in anterior hepatectomy using the hanging maneuver without mobilization of the liver?

This study investigates the relevant anatomy for applying the hanging maneuver to hepatectomy by an anterior approach, where liver mobilization is not possible. Using 176 cadaveric livers, we morphometrically investigated the distribution of venous openings within the retrohepatic portion of the inferior vena cava (IVC); next, we conducted a series of experiments to identify which course for insertion of a pair of forceps preserved the thickest of these veins. After anterior dissection of the liver, we carried out an anterior incision along a plane within an area free of venous openings in the IVC. The area free of venous openings was between the thickest caudate vein and the inferior right hepatic vein (IRHV), and averaged 16.2 mm in width. When forceps were inserted along the rightward course connecting the right inferior angle of the right lobe and the same pocket-like space between the terminals of the middle and right hepatic veins, the caudate vein was very likely to be preserved, whereas the IRHV was not. In contrast, the leftward course connecting the gallbladder fossa and the pocket-like space provided an almost opposite incidence of damage. The portal territory of the hilar bifurcation was most likely to be damaged during a virtual incision along an avascular plane; however, the caudate branch of left portal origin was rarely damaged. The rightward course may be the best method for forceps insertion in cases where there is no IRHV. To preserve the caudate vein and the IRHV, taping on the right side of the IRHV and retracting to the right, or changing the direction of the forceps from leftward to rightward when the tip of the forceps is anterior to the IVC is recommended. The hanging maneuver by an anterior approach without mobilization is convenient for right or left hepatectomy for large tumors or hardened liver.