Left-Sided gallbladder with intrahepatic portal venous anomalies

The congenital anomaly in which the gallbladder is found on the left of the round and falciform ligaments (left-sided gallbladder) is rare. We report two patients with left-sided gallbladder in whom intrahepatic portal venous anomalies were identified. Computed tomography and intraoperative ultrasonography were used to define the portal venous anomaly. A long straight left main portal vein was demonstrated, which did not have the typical umbilical portion. The right anterior segmental portal branch (case 1), or the right main portal vein (case 2) were shown to course in a ventral direction and terminate as a cul de sac. The round ligament (right round ligament) was attached to this venous termination, forming the right umbilical portion. The left medial segmental portal venous branches originated from the right umbilical portion, and coursed to the left. In contrast, cholangiography disclosed that the left medial segmental bile duct coursed to the right after arising from the left hepatic duct (case 1), or the common hepatic duct (case 2). The essence of this anomalous condition is not a left-sided gallbladder, but a right round ligament, which is an embryologic abnormality of the umbilical vein. A review of the English language literature revealed no reports of left-sided gallbladder with intrahepatic portal venous anomalies.     

Rare Portal Venous Anomaly in a Living Liver Donor: A Case Report

Knowledge of the anatomy of the portal system is essential for safe liver resection. We report a very rare anatomic anomaly of the portal system in a living liver donor. A 24-year-old female living liver donor was found to have anomalies of the portal system on preoperative contrast-enhanced computed tomography. The ventral branch of the right anterior segment arose from the transverse portion of the left portal vein. The gallbladder and round ligament were positioned normally. Intraoperative cholangiography for evaluation of biliary anatomy revealed very low confluence of the right and left hepatic ducts. All the bile ducts from the right lobe merged into the right hepatic duct. A right lobe graft was performed, including the ventral area of the right anterior segment. The portal branch of the ventral area of the right anterior segment could be transected extrahepatically. In the recipient operation, each of the right main portal branches, including the right posterior segment branch and the dorsal branch of the right anterior segment, and the ventral branch of the right anterior segment, were anastomosed to the right and left branches of the portal vein, respectively, of the recipient. The transected right hepatic duct of the graft was anastomosed with the recipient's common hepatic duct. Sixteen years after the liver transplant, the recipient continues to do well and has good portal flow.     

64层CT门静脉空气造影观察国人离体肝脏

目的对国人离体肝脏进行门静脉空气造影,测量门静脉的分支数量和管径、门静脉右前叶分支数目、尾状叶门静脉分支数目及起始点与门静脉左右支交汇处的距离。方法离体肝脏解冻、负压吸引后,于门静脉内充入足够气体,行CT扫描并进行测量。结果 19个肝脏标本中,肝内门静脉正常型17个(17/19,89.47%),Ⅰ型变异2个(2/19,10.53%)。门静脉右支主干管径(9.41±1.46)cm,分支数量为(3.18±1.60)支;门静脉右前支管径(8.41±1.52)cm,分支数量为(8.94±3.03)支;门静脉右后支管径(6.94±1.98)cm,分支数量为(7.69±2.87)支;门静脉左支管径(10.95±2.25)cm,分支数量为(10.68±3.24)支。17个右前叶分为腹侧支及背侧支,2个分为右前上支和右前下支。腹背侧分支的腹侧支数目为7～9支,背侧支数目为7～11支。尾状叶门静脉的分支数目为1～3支。结论离体肝脏门静脉空气造影CT扫描可以准确显示肝内门静脉的分支类型、数量、管径、起始点位置。     

Are left-sided gallbladders really located on the left side?

OBJECTIVE: The aim of this investigation was to establish the association between left-sided gallbladders and right-sided round ligaments. SUMMARY BACKGROUND DATA: The left-sided gallbladder is a rare anomaly and has been classified into two types: 1) gallbladder migration to the left side and 2) development of a second gallbladder with atrophy of the original one. Recently, left-sided gallbladders were reported to be associated with right-sided round ligaments. METHODS: The authors reviewed 3 patients treated in their departments and 15 patients reported in the literature diagnosed as having left-sided gallbladders accompanied by right-sided round ligaments. RESULTS: Although the gallbladders of all 18 patients were located at the normal site, they were diagnosed as being left sided because of the right-sided round ligaments. This anomaly was accompanied by abnormal intrahepatic portal venous branching, which could be classified into two types. In eight patients, the first branch of the portal vein ran to the posterior segment and then the portal vein formed a trunk of the left and right anterior portal veins. The latter portal vein formed the umbilical portion and finally joined the right-sided round ligament (trifurcation type). In five, the portal vein diverged normally to form the left and right portal veins, then the latter branched to form the anterior and posterior segments, and finally the anterior branch joined the round ligament (bifurcation type). In the other five, the branching type could not be determined. CONCLUSIONS: A right-sided round ligament causes a gallbladder at the normal site to be located on the left side. This anomaly should not be diagnosed as a left-sided gallbladder but as a right-sided round ligament. Recognition of this anomaly clinically is important when performing hepatectomy, because it is always associated with abnormal intrahepatic portal venous branching.     

Branching patterns of the intrahepatic portal vein and hepatic segments identified by percutaneous transhepatic portography

We studied branching of the intrahepatic portal vein and hepatic segment by percutaneous transhepatic portograms in 237 patients with liver, biliary tract, or pancreatic disease. At the hilum, the pattern was normal in 74% of the patients. In the others, branching of the right posterior branch was trifurcated or independent. Caudate branches usually ramified from first-order branches, but sometimes ramified from the right posterior branch. The left portal branch divided into a laterodorsal branch (second-order) and umbilical portion, from which the lateroventral branch (third-order) and several medial branches (fourth-order) arose. It seems to be better to divide the left lobe into anterior segment (supplied by medial and a lateroventral branch) and posterior segments (supplied by a laterodorsal branch) than into the lateral and medial segments. The right anterior branch of 27% of the patients was bifurcated. In the others, there were six other patterns, with four or five fourth-order branches arising from this branch. The anterior segment should be considered having not two subsegments, but four or five small subsegments. Small branches divided off from the main trunk of the right posterior branch. In resection for hepatoma, each such branch can be thought of as one small subsegmental branch.     

Designing Triple Adult Liver Grafts From an Ideal Deceased Liver

Splitting deceased donor livers and creating 3 grafts from a whole liver may be feasible and shorten the waiting time for organ donation in patients with high mortality rates. We hypothesized that it might be reasonable to procure 3 grafts for donation from one deceased donor liver by splitting the liver into left (segment II, III, IV), right anterior (segment V, VIII), and right posterior lobes (segment VI, VII) for liver transplantation according to the portal system trifurcated variations. We designed the right anterior branch with the main portal trunk and middle hepatic artery to become inflow of right anterior lobe, the left portal vein and left hepatic artery to become the inflow of left lobe and right posterior branch, and right hepatic artery to become the inflow of right posterior lobe. We retrospectively reviewed the volumetric computed tomography and magnetic resonance cholangiopancreatography of 153 liver donors. The hepatic and portal veins, hepatic artery, and biliary system were reorganized and classified. The volumetric proportions of the liver grafts were measured. Trifurcation of the portal vein variation was found in approximately 13.7% of portal systemic variations. The left lobe accounted for 29.18% of the total liver volume, the right anterior lobe, 35.22%, and the right posterior lobe, 35.6%. We validated this principle by dissecting the explanted liver and identified the triple grafts' weights, percentages, vessels, and biliary ducts system. The splitting of deceased donor livers into 3 split liver grafts for use in liver transplantation surgery can be clinically useful.     

成人间活体肝移植供肝的后台准备

目的 探讨成人活体肝移植供肝的灌注和管道重建的技术。方法 回顾性分析41例成人活体肝移植供肝的后台处理临床资料。结果 41个供肝,均为不包括肝中静脉的右半肝,供者男9例,女32例,年龄19～65岁。供肝切取后经门静脉灌注HTK液2～3L（平均2.45L）。只有一支门静脉右支者35例,右前支＋右后支门静脉6例。右肝管29例,右前叶肝管＋右后叶肝管10例,右后叶肝管＋右前上段支＋右前下段支2例。肝静脉：右肝下静脉＋V_5/V_814例,只有一支右肝静脉15例,2支肝中静脉分支8例,4例有3支肝中静脉分支。肝中静脉分支直径〉0.5cm者均重建,重建V_5/V_8和右肝下静脉28例次（70.0%）,右前叶肝管和右后叶肝管整形6例（14.6%）,右后叶肝管和右前叶下段肝管整形3例（7.3%）,门静脉整形2例（4.8%）,门静脉搭桥4例（9.7%）。结论 成人活体肝移植的供肝后台处理与尸体肝移植有明显的不同,其断面的管道处理直接影响移植肝的存活和预后。     

A left hepatectomy and caudate lobectomy combined resection of the ventral segment of the right anterior sector for hilar cholangiocarcinoma — the efficacy of PVE (portal vein embolization) in identifying the hepatic subsegment: Report of a case

This report presents a case of a left hepatectomy and a caudate lobectomy combined resection of the ventral segment of the right anterior sector for hilar cholangiocarcinoma using percutaneous transhepatic portal vein embolization (PVE). The patient was a 44-year-old man admitted to a local hospital with obstructive jaundice. He was diagnosed to have hilar cholangiocarcinoma and was referred to the hospital for further treatment. Cholangiography revealed stenosis of the left hepatic duct and the hilar bile ducts. The dorsal branch of the right anterior sector joined the right posterior branch and the tumor did not invade to the confluence of these branches. Arteriography and portography reconstructed by multidetector-raw computed tomography revealed the ventral branches of the right anterior sector, which separately diverged from the other right anterior branches. It was therefore necessary to perform a left hepatectomy and caudate lobectomy combined resection of the ventral segment of the right anterior sector to completely remove the tumor. Portal vein embolization was thus performed on the left portal vein and the ventral branches of the right anterior sector. Intraoperatively, when the hepatic artery was temporally clamped, the demarcation between the ventral segment and the dorsal segment of the right anterior sector could be clearly visualized. The planned surgery was performed safely. This case demonstrates that the utilization of PVE is useful for a difficult and intricate hepatectomy, which requires an accurate identification of a hepatic subsegment.     

Left-sided gallbladder: report of a case and study of 26 cases in Japan

A case of left-sided gallbladder with an anomaly of the intrahepatic portal vein and cholesterol polyps of the gallbladder is presented. A 23-year-old man with sudden onset of epigastric pain, fever and abdominal irritation was admitted to our hospital and an emergency celiotomy was carried out. The gallbladder lay on the left side of the round ligament, that is, it was a left-sided gallbladder. Since operative findings such as cholecystitis, gastrointestinal perforation and pancreatitis were not observed, no more procedures were done. Postoperative ultrasonography showed some interesting findings as follows: multiple echogenic nonshadowing small polypoid lesions which did not change in size and shape during a 2.5 year interval were detected and were thought to be cholesterol polyps. The tail of the gallbladder was situated on the left side of the round ligament and the motion of the gallbladder as determined by postural exchange was not floating. These findings are compatible with a left-sided gallbladder. The left branch of the portal vein did not form an umbilical portion as is usually expected and the right branch formed a cystic structure similar to a normal umbilical portion with the anterior, posterior and medial branches ramified. The round ligament arose from the cul-de-sac of the umbilical portion. Twenty-six cases of left-sided gallbladder from the Japanese literature were reviewed and discussed.     

Fusion of the planes of the liver: an anatomic entity merging the midplane and the left intersectional plane

BACKGROUND: Alignment of the gallbladder fossa and the round ligament may be associated with an almost unknown portal vein branching anomaly. STUDY DESIGN: Ultrasonographic imaging allowed detection of this anomaly, which we characterized as fusion of the planes of the liver. When appropriate, additional specific radiologic examinations were performed (CT scanner supplemented with a three-dimensional reconstruction, a biliary cartography, or an angiography). Surgical consequences were studied from this series and from the literature. RESULTS: Seven patients (0.5%) had the following criteria: 1) round ligament, gallbladder fossa, and termination of the portal vein occurring in the same plane; 2) typical portal vein branching, including a right posterior branch, left branches, and a main medial branch terminated by the Rex's recessus; 3) two main hepatic veins without a significant middle hepatic vein; and 4) absence of the horizontal part of the left hepatic duct. Fusion of the planes may have been involved in two cases of iatrogenic bile duct injury and contraindicated a tumor resection and a right-liver donation. A review of the literature revealed that lack of recognition of the fusion of the planes led to a high proportion of surgical iatrogenic injury. Fusion of the planes could result from incomplete development of the central part of the liver, in agreement with embryologic knowledge. CONCLUSIONS: Knowledge of the fusion of the planes by hepato-biliary surgeons is important. This anomaly may lead to serious complications if it remains undetected during liver resection or bile duct surgery.     

A suitable animal model for laparoscopic hepatic resection training

Background There is a growing interest in using laparoscopy for hepatic resection. However, structured training is lacking in part because of the lack of an ideal animal training model. We sought to identify an animal model whose liver anatomy significantly resembled that of the human liver and to assess the feasibility of learning laparoscopic hepatic inflow and outflow dissection and parenchyma transection on this model. Methods The inflow and outflow structures of the sheep liver were demonstrated via surgical dissection and contrast studies. Laparoscopic left major hepatic resections were performed. Results The portal hepatis of all 12 sheep (8 for anatomic study and 4 for laparoscopic hepatic resection) resembled that of human livers. The portal vein (PV) was located posteriorly; the common hepatic artery (CHA) and the common bile duct (CBD) were located anterior medially and anterior laterally with respect to the portal hepatis. The main PV bifurcated into a short right and a long left PV. The extrahepatic right PV then bifurcated into right posterior and anterior sectoral PV. The CBD and CHA bifurcated into left and right systems. The cystic duct originated from the right hepatic duct. The cystic artery originated from the right HA in 11/12 animals. The left hepatic vein drained directly into the inferior vena cava (IVC). The middle and the right hepatic veins formed a short common channel before entering the IVC. Multiple venous tributaries drained directly into IVC. Familiarity with sheep liver anatomy allowed laparoscopic left hepatic lobe (left medial and lateral segments) resection to be performed with accuracy and preservation of the middle hepatic vein. Conclusions The surgical anatomy of sheep liver resembled that of human liver. Laparoscopic major hepatic resection can be performed with accuracy using this information. Sheep is therefore an ideal animal model for advanced surgical training in laparoscopic hepatic resection.     

肝内胆管手术入路的解剖及临床应用

目的 探讨显露肝内叶、段胆管的手术入路。方法 研究30例成人肝脏标本的肝内叶、段胆管与血管的毗邻关系。结果 左右肝管均位于肝脏脏面门静脉门静脉左右干的前上缘,左内叶、右前叶胆管位于相应门静脉的前内侧。右后叶胆管位于门静脉右面支或右前叶下段支脏面深侧者占73％（22／30）;位于门静脉右后支脏面深侧或后上缘者占80％（24／30）。左外叶胆管位于门静脉矢状部脏面深侧者占93％（28／30）。选择经肝的脏面显露肝门、左右肝管,经肝的膈面显露肝内叶、段胆管相结合的手术入路,治疗复杂性肝内胆管结石并狭窄患者38例,均获成功。结论 经肝的脏面与膈面相结合的手术入路,比较容易显露和切开肝内胆管及其狭窄段、便于取出结石。     

True left-sided gallbladder with a portal anomaly: report of a case

A 65-year-old female who presented with back pain was diagnosed to have the presence of biliary sludge in the gallbladder. Computed tomography showed that the round ligament connected to the left portal umbilical portion was in the normal anatomical position. However, the gallbladder was located to the left of the middle hepatic vein and the round ligament, attached to the left lateral segment of the liver. The right posterior portal vein diverged alone from the main portal vein, and there was a long stem from the right anterior and left portal veins. Laparoscopic cholecystectomy confirmed the abnormal location of the gallbladder. Most reported cases of left-sided gallbladder are caused by a right-sided round ligament, which is called a "false" left-sided gallbladder. A case of left-sided gallbladder with a normal left-sided round ligament, which is designated as a case of "true" left-sided gallbladder, is extremely rare.     

Liver anatomy: portal (and suprahepatic) or biliary segmentation

BACKGROUND/AIMS: In liver anatomy and surgery, is portal and hepatic vein segmentation (French segmentation) to be preferred over arteriobiliary segmentation (Healey and Schroy, North American segmentation)? METHODS: Several embryological arguments and an analysis of anatomical data from a personal collection of 110 vasculobiliary casts were made. RESULTS: Embryological arguments: Portal vein branching appears first, arteriobiliary branching secondly follows the portal vein distribution. Segment II (the left lateral sector) is the development of the right lateral embryological lobe. The umbilical vein enters the left portion of the middle embryological lobe, forming segment IV on the right and segment III on the left: this is the left paramedian sector. So the left portal fissure (between left and middle lobes) transversally crosses the classical left lobe, which is not a portal unit. Segment VI is a late secondary prominence of segment VII, reaching the anterior margin of the liver only in man. Anatomical arguments: hepatic vein segmentation must be added to portal segmentation; the academic left lobe is the left hepatic vein sector, and the left hepatic fissure separates the classical right and left lobes. Portal vein segmentation must be preferred: portal vein duplication of branches of first order occurs only in 23.5% of the cases, while arteriobiliary duplication of first-order branches is noted in 50% of the livers, portal segmentation being much simpler. CONCLUSIONS: Portal and hepatic vein segmentation seems to be much more accurate.     

Proposal for a reclassification of liver based anatomy on portal ramifications

BACKGROUND: Portal branching patterns that differ from those previously described are occasionally encountered during liver surgery. METHODS: A total of 60 patients with normal intrahepatic venous anatomy underwent helical computed tomography during arterial portography (CTAP). Next, 3 dimensional portograms were reconstructed to verify the locations of the portal veins. Portal branching patterns in the right hemiliver were assessed. RESULTS: In all 60 patients examined, the right anterior portal vein bifurcated into the ventral and dorsal branches. In 42 (70%) of 60 patients, some branches arose from the right posterior portal trunk. Between 1 and 3 branches (mean 2.3 branches per patient) coursed cranially, between 2 and 5 branches (mean 3.2 branches per patient) coursed caudally, and between 1 and 2 branches (mean 1.3 branches per patient) coursed laterally. CONCLUSIONS: We propose that the right liver should be divided into 3 segments, which are designated as the right anterior, middle, and posterior segments.     

前入路绕肝悬吊解剖性肝右三叶切除术治疗巨大肝癌

前入路肝切除术是指先离断肝实质后游离肝脏的肝切除方法;绕肝悬吊是指在肝后下腔静脉前方放置悬吊带,供在切肝过程中提起肝脏.2011年10月中山大学孙逸仙纪念医院采用前入路、绕肝悬吊、解剖性肝右三叶切除术治疗1例54岁男性肝癌患者.肿瘤位于肝左内叶和右半肝,长径约16 cn.术前肿瘤分期为ⅢA期,T3N0M0;术前评估ICG R15为5.4％,肝左外叶肝脏体积占标准肝脏体积的44％;左肝管受压、轻度扩张.术中首先分离、切断入肝血流,包括肝右动脉、门静脉右支、肝中动脉、门静脉左内叶分支;然后在镰状韧带的右侧离断肝实质,期间在肝后下腔静脉前打隧道并悬吊肝脏;切断右肝管;接着分离、切断肝中静脉和肝右静脉;游离肝周韧带,移出肝右二叶;最后行左肝管、肝总管端端吻合.手术时间为4h,术中出血量为350 mL.患者术后康复顺利,术后4个月复查MRCP示胆管吻合口通畅,肝内未见肿瘤复发.     

Resection of metastatic liver cancer in a patient with a left-sided gallbladder and intrahepatic portal vein and bile duct anomalies: A case report

INTRODUCTIONThe presence of left-sided gallbladder is closely associated with multiple combined anomalies of the portal vein, hepatic vein, hepatic artery, and bile duct. This requires special attention for preoperative evaluation for the purpose of preventing postoperative complications.PRESENTATION OF CASEA 70-year-old woman with metastatic liver cancer and intrahepatic portal vein, biliary system and hepatic artery anomalies with left-sided gallbladder is reported. On computed tomography (CT), a solitary low density mass occupied from the right anterior to the posterior segment of the liver. The gallbladder bed was on the left of the hepatic fissure. On drip-infusion-cholangiography (DIC) CT three-dimensional (3D) reconstruction, the left medial bile duct arose from the right umbilical portion after arising from the left lateral bile duct. Following a right hepatectomy and lymph node dissection of the hepatoduodenal ligament, hepaticojejunostomy was conducted separately to the left medial and left lateral bile duct.DISCUSSIONThe left-sided gallbladder accompanies with several anomalies of hepatic vascular and bile duct anomalies in a frequent manner. A safe hepatectomy needs accurate operative plans to ascertain the range of hepatectomy, because it often has the diversity of a combined anomaly.CONCLUSIONPreoperative DIC-CT 3D reconstruction was extremely useful because it provided an important information that could not be obtained with 2D-DIC-CT. 3D imaging has the ability to demonstrate complex anatomical relationships, this devise is a effective new tool for making appropriate preoperative strategy.     

Extended liver resection for hilar cholangiocarcinoma

Liver resection for hilar cholangiocarcinoma should be designed for individual patients, based on both precise diagnosis of cancer extent and accurate evaluation of hepatic functional reserve. Therefore we have developed various types of hepatic segmentectomy. Combined caudate lobectomy is essential in every patient with separated hepatic confluence. So-called extensive hepatectomy, resection of 50% or more of the hepatic mass, includes right lobectomy and right or left trisegmentectomy. Right lobectomy with caudate lobectomy is indicated when the progression of cancer is predominant in the right anterior and posterior segmental bile ducts. The plane of liver transection is along the Cantlie line, and the left hepatic duct is divided just at the right side of the umbilical portion of the left portal vein. Right trisegmentectomy with caudate lobectomy is performed in carcinoma which involves the right hepatic ducts in continuity with the left medial segmental bile duct. The umbilical portion of the left portal vein is freed from the umbilical plate by dividing the small portal branches arising from the cranial side of the umbilical portion. Then the left lateral segmental bile ducts are exposed and divided at the left side of the umbilical portion of the left portal vein. Left trisegmentectomy with caudate lobectomy is suitable for carcinoma which involves the left intrahepatic bile duct in continuity with the right anterior segmental bile duct. Liver transection is advanced along the right portal fissure. The right posterior segmental bile duct is usually divided distal to the confluence of the inferior and superior branches.     

腹腔镜下Glisson蒂横断法肝段切除策略

目的探讨腹腔镜下Glisson蒂横断法肝切除术的可行性和技术要点。方法回顾性分析2015年5月至2016年11月期间实施腹腔镜下Glisson蒂横断法肝切除术共23例。详细描述从Ⅱ段到Ⅷ段肝切除的技术要点,并观察手术时间,术中出血量,住院时间,术后并发症,近期疗效的指标。结果 23例患者接受腹腔镜下Glisson蒂横断法肝切除,其中Ⅱ、Ⅲ、Ⅴ、Ⅵ、Ⅶ段肝切除各2例、左半肝切除3例、右半肝切除3例、左外叶5例、右后叶2例。主要技术要点均为肝门部肝蒂解剖。手术均获得成功,没有中转开腹病例。平均手术时间[195.4±135.4(45~300)]min,术中平均出血量[216.7±89.4(150~300)]ml,均无输血,术后平均住院时间[5.0±1.6(3~7)]d,无手术并发症,随访早期无肿瘤复发和转移。结论腹腔镜下Glisson蒂横断法肝切除术安全可行,具有手术时间短,创伤小等优点,可在很大程度上简化了腹腔镜肝段切除。     

Reproposal for Hjortsjo's segmental anatomy on the anterior segment in human liver

BACKGROUND: A minimum, but necessary amount, of cancer-containing liver tissue is to be excised in patients who have poor liver function. To achieve that goal of excision, a limited hepatic resection has been carried out. However, performing subsegmentectomy of the anterior segment according to the conventional segmental anatomy introduced by Healey and Schroy or Couinaud is difficult. Because the transverse border between segments 5 and 8 was drawn as an imaginary line through the right portal vein, there is no anatomical structure indicating this border. HYPOTHESIS: Hjortsjo divided the anterior segment into 2 vertical segments according to the fissure in which a hepatic vein coursed. By including Hjortsjo's concept of segmental anatomy, new procedures will be added to hepatic surgery. DESIGN: Sixty-five cadaveric livers were dissected to confirm Hjortsjo's concept of segmental anatomy by investigating the vertical fissure that divides the anterior segment into 2 areas, concerning the relation between portal segmentation and the hepatic venous system of the anterior segment. RESULTS: The territories of the third-order portal branches of the anterior segment were divided into 2 (ventral and dorsal) areas with a vertical fissure and in its intersubsegmental plane, an independent hepatic vein, or a first-order branch of the middle or the right hepatic vein coursed. CONCLUSIONS: These findings confirmed the certainty of Hjortsjo's concept of segmental anatomy of the anterior segment. This is relevant for developing new procedures in hepatic surgery. Its reproposal is opportune for adding it as another concept to the conventional segmental anatomy.