Multiple variations of the hepatobiliary vasculature including double cystic arteries, accessory left hepatic artery and hepatosplenic trunk: a case report

Anatomical variations in the origins and branching patterns of the hepatobiliary arterial system may be encountered during both conventional surgical and laparoscopic cholecystectomy. We report a rare case of double cystic arteries arising from both the right hepatic artery and the proximal part of the posterior superior pancreaticoduodenal artery. Additional variations consisting of an accessory left hepatic artery arising from a left gastric which in turn arose from the descending aorta superior to the origin of the celiac trunk and a small left hepatic artery arising from the hepatic proper artery were also noted. The celiac trunk bifurcated into the splenic artery and the common hepatic artery forming a hepatosplenic or lienohepatic trunk. The possible clinical implications are discussed.     

A case of celiacomesenteric trunk with some other arterial anomalies in a Japanese woman

We found a case of multiple arterial anomalies in a Japanese female cadaver during a routine dissection course. In the present case, a combination of three arterial anomalies was recognized in the abdominal digestive organs: (i) a celiacomesenteric trunk; (ii) a right accessory hepatic artery; and (iii) a left colic artery arising from a portion corresponding to the superior mesenteric artery. The typical celiacomesenteric trunk can be regarded as a variation of the arterial convergence at its origins progressing further between the celiac trunk and the superior mesenteric artery. The celiacomesenteric trunk in the present case included the left colic artery, which is usually one branch of the inferior mesenteric artery. Previously, a case had been reported in which all three arteries supplying the abdominal digestive organs had converged into one trunk, the celiac-bimesenteric trunk. Therefore, the celiacomesenteric trunk in the present case showed an intermediate degree of arterial convergence between that of the typical celiacomesenteric trunk and the celiac-bimesenteric trunk.     

Anatomic variation of the celiac trunk with special reference to hepatic artery patterns

Based on a large homogeneous sample from a Japanese population, anatomic variations in the celiac trunk (CT) and the hepatic artery were studied. Previously we analyzed the branching mode of the CT in 450 Japanese cadavers. In order to maximize the database on the CT and hepatic artery, we examined the anatomy of these arteries in 524 cadavers, a total of 974 cases. A total of 89.8% of cases showed the classical trifurcation of the CT. The typical normal pattern of the CT and the hepatic artery was confirmed in 66.6% and 72.4% of the cadavers, respectively. Variant left and right hepatic arteries were observed in 11.0% and 4.9%, respectively. A variant anatomy involving both the left and right hepatic arteries was found in 1.5%. A common hepatosplenic trunk and a gastrohepatic trunk were seen in 4.4% and 0.3%, respectively. A common hepatic artery (CHA) arising from the superior mesenteric artery (SMA) or directly from the aorta was present in 3.5% or 0.5%, respectively. A hepatosplenomesenteric trunk and a celiomesenteric trunk were encountered in 0.7%, respectively. This anatomical update of the CT and the hepatic artery can be useful for transplantation and general surgeons, as well as vascular radiologists in this area.     

Clinical anatomy of the inferior phrenic artery

The majority of anatomical textbooks of gross anatomy offer very little information concerning the anatomy and distribution of the inferior phrenic artery (IPA). In the last decade, however, increased numbers of reports have appeared with reference to the arterial supply of hepatocellular carcinoma (HCC). The IPA is a major source of collateral or parasitized arterial supply to this type of carcinoma, second only to the hepatic artery. The aim of this study was to identify the origin and distribution of the IPA (right and left), in normal and pathological cases, and to apply such findings to the clinical scenario of treating hepatic cancer. We have examined 300 formalin-fixed adult cadavers lacking abdominal pathology, and 30 cadavers derived from patients with HCC. Dissections in normal cadavers showed that the right IPA originated from the: a) celiac trunk in 40% of the specimens; b) aorta in 38%; c) renal in 17%; d) left gastric in 3%; and e) hepatic artery proper in 2% of the specimens. The left IPA originated from the: a) celiac trunk in 47%; b) aorta in 45%; c) renal in 5%; d) left gastric in 2%; and e) hepatic artery proper in 1% of the specimens. The IPA gave rise to eight notable branches: ascending, descending, inferior vena cava, superior suprarenal, middle suprarenal, esophageal, diaphragmatic hiatal, and accessory splenic. The right IPA was always associated with HCC and served as the major collateral artery adjunct to the hepatic artery. These findings could have major implications in the transcatheter embolization of HCC patients.     

Hepatomesenteric trunk

Abstract An hepatomesenteric trunk, formed by the common hepatic and superior mesenteric arteries, was found in a 50-year-old male cadaver. The left gastric and splenic arteries arose as a common trunk, the gastrosplenic trunk, from the abdominal aorta; no typical celiac trunk was present. In addition, the hepatomesenteric trunk passed posterior to the portal vein. A knowledge of variations of the common hepatic artery may be important in pancreaticoduodenectomy, as well as during hepatic artery infusion chemotherapy.     

Aortic origin of right hepatic artery and superior mesenteric origin of splenic artery two rare variations demonstrated angiographically

Abstract Anatomical variations of the celiac trunk and superior mesenteric artery are not infrequent. Knowledge of the existing aberrations is important in planning and conducting surgical or radiological procedures. A case of right hepatic artery arising independently from the aorta supplying an hepatocellular carcinoma was identified, through which transarterial chemoembolization was successfully performed. A second case is presented with a common splenomesenteric trunk branching into the splenic and superior mesenteric arteries. These two cases represent exceptional arterial variations in the upper abdomen.     

Variations in the source of origin of inferior phrenic artery: a cadaveric study

Introduction: The right and left inferior phrenic arteries perfuse the diaphragm. They may originate either from the aorta, celiac trunk, or from the renal artery. Most textbooks of human anatomy give little information regarding the functional anatomy of the inferior phrenic artery. In the past few years, however, more articles have been published regarding the arterial supply in cases of hepatocellular carcinoma. The inferior phrenic artery is seen as an important source of collateral arterial supply to hepatocellular carcinoma, the hepatic artery being the main source. Materials and methods: A cadaveric study was conducted in the Anatomy Department of Bangalore Medical College during the years 2009–2011. Manual dissection was done to identify the inferior phrenic arteries, and their origins were traced. Results: The inferior phrenic artery arose from the aorta in 53.125%, celiac trunk in 28.125%, renal artery in 15.625%, and the superior mesenteric artery in 3.125% of the 32 cadavers studied. The right inferior phrenic artery arose from aorta in 56.25%, celiac trunk in 18.75%, renal artery in 18.75%, and superior mesenteric artery in 6.25% cases. The left inferior phrenic artery arose from aorta in 50%, from celiac trunk in 37.5%, and the rest arose (12.5%) from the renal artery. Discussion: The results were compared with those of earlier studies so that such findings could be applied in the treatment of hepatocellular carcinoma. The significance of this information is due to the fact that an unresectable hepatocellular carcinoma can be treated by transcatheter embolization of the right inferior phrenic artery, in case it is involved.     

A rare variation of the coeliac trunk.

The hepatic, splenic and Left gastric arteries are considered as the "main classic branches" of the coeliac trunk. During the routine dissections in the laboratory of the Anatomy Department in a 62-year-old male cadaver, a rare variation, a coeliacomesenteric trunk was observed. This trunk gave rise to the left gastric, the common hepatic, the splenic, the left gastro-epiploic, the right and left inferior phrenic arteries. The developmental and clinical significance of this anomalous vessel is discussed.     

Absence of the celiac trunk: case report and review of the literature

The authors report a rare variation of the absence of the celiac trunk in a Japanese cadaver, with the left gastric, splenic, common hepatic, and superior mesenteric arteries arising independently from the abdominal aorta in the routine dissection of a 95-year-old Japanese male cadaver. The incidence and developmental and clinical significance of this variation is discussed with a detailed review of the literature. Knowledge of such case has important clinical significance in an abdominal operation or invasive arterial procedure, that is, Appleby procedure and liver transplantation, laparoscopic surgery, and radiological procedures in the upper abdomen.     

Three cases of the gastrosplenic and the hepatomesenteric trunks

Three common branches of the celiac trunk are the left gastric artery, the splenic artery and the common hepatic artery. The variation of the three branches of the celiac trunk has an importance for the arterial supply to the digestive organs of the upper abdomen. In this study, we present three cases of the gastrosplenic and the hepatomesenteric trunks in Japanese cadavers. Especially, in Case 1, the left inferior phrenic artery arose from the gastrosplenic trunk and the left hepatic artery arose from the left gastric artery. In Cases 2 and 3, the common hepatic artery penetrated the pancreatic parenchyma before reaching liver. In Case 3, the right hepatic artery arose from the hepatomesenteric trunk.     

Accessory inferior thyroid artery and internal thoracic artery originating from the thyrocervical trunk

During the routine dissection of an 87-year-old Caucasian male cadaver, an accessory inferior thyroid artery originating from the left suprascapular artery was detected. In addition to the existence of inferior and superior thyroid arteries, a third thyroid artery arising from the left suprascapular artery was present at the left of these arteries; this artery was determined as the accessory inferior thyroid artery. Again, the left internal thoracic artery arose from the thyrocervical trunk. The internal thoracic artery originated near the thyrocervical trunk’s origin point and descended vertically. The thyrocervical trunk ended near the medial border of the anterior scalene muscle after giving rise to the inferior thyroid, transverse cervical and suprascapular arteries.     

Atypical coeliomesenteric anastomosis: The presence of an anomalous fourth coeliac trunk branch

The presence of more than three coeliac trunk branches is a commonly encountered variant. Literature occasionally describes cases of middle or left colic arteries originating from the celiac trunks or its branches; however, the presence of an anomalous arterial connection between the celiac trunk and both the superior and inferior mesenteric arteries (SMA and IMA, respectively) has yet to be reported. Routine abdominal dissection of a male Caucasian cadaver, revealed the presence of an anomalous fourth arterial branch on the 4‐cm long coeliac trunk. The course of this artery was traced, and it terminated by anastomosing with the marginal artery of the mesenteric circulation. The distal termination point of this anomalous fourth coeliac branch was the marginal artery, 5 cm medial of the splenic flexure, anastomosing almost perpendicularly. The diameter of this anomalous artery was comparable with the left gastric artery at their origins. The artery coursed inferiorlaterally toward the splenic flexure, passing immediately posterior to both the pancreas and the splenic vein. The anastomosis point of this artery, near Griffith's Point, is normally considered a watershed region with dual arterial supply from both the SMA and IMA, allowing collateral circulation. This region has a relatively higher susceptibility to irreversible damage in ischemic diseases because of lower perfusion, thus, the anastomosis of atypical coeliac branches represents a rare case for consideration. Awareness of the possibility of embryological variants will minimize the risk of complications in surgical or clinical procedures, and exploration of rare variants will benefit the understanding of vascular embryology. Clin. Anat., 2010. © 2010 Wiley‐Liss, Inc.     

Rare case of the inferior mesenteric artery and the common hepatic artery arising from the superior mesenteric artery

We found a case in which inferior mesenteric artery and the common hepatic artery arose from the superior mesenteric artery, forming the common hepatomesenteric trunk, during a routine dissection carried out at Iwate Medical University in 2002. This variation is rare, but can be embryonically explained. A change in the positions of the disappearance of the ventral splanchnic arteries and the longitudinal anastomotic channel results in variations in the system of arteries distributed to the digestive organs. In the present case, the longitudinal anastomotic channel between the superior and the inferior mesenteric arteries survived to form the common mesenteric artery, which was joined by the common hepatic artery, forming the common hepatomesenteric trunk.     

Anomalous origins of colic arteries

The topography of the celiac trunk and superior and inferior mesenteric arteries was studied by dissection in 27 embalmed cadavers. Variant vascular patterns were noted in four subjects. These consisted of: (1) an accessory right hepatic artery from the superior mesenteric artery, (2) an anomalous middle colic artery from the proximal segment of the splenic artery, and (3) two instances of an accessory left colic artery originating from the superior mesenteric artery. The precarious course of the middle colic artery (coming from the splenic artery) and its dominance in the formation of the marginal artery were thought to predispose the ascending and transverse colon to an increased risk of vascular damage. These cases also illustrate two variant patterns of formation of the marginal artery. In the case of the anomalous middle colic artery, the only contribution of the superior mesenteric artery to the marginal artery was through the anastomosis of its ileocolic branch with the right branch of the aberrant middle colic artery. In subjects with accessory left colic arteries, the superior mesenteric artery played a dominant role in the formation of the marginal artery by contributing the accessory left colic artery, which supplied the splenic flexure and the proximal part of the descending colon. These arterial variations underscore the importance of doing vascular studies prior to major abdominal surgery. © 1995 WiIey-Liss, Inc.     

A hepatomesenteric trunk,in association with left gastric and splenic arteries arising independently from the abdominal aorta: A case report using MDCT angiography

We present a case of a 73-year-old male with peripheral vascular disease of the lower limbs, who on shown MDCT angiography, to have a hepatomesenteric trunk (HMT), and left gastric artery (LGA) and splenic artery (SpA) arising independently from the abdominal aorta (AA), and with additional right renal arteries. The HMT with a length of 5 mm (with an aspect of a common stem origin of common hepatic artery (CHA) and superior mesenteric artery (SMA) arose from the anterior wall of the AA at the level of upper one-third of the L2 vertebral body. The CHA originating from the superior part of the right edge of the HMT, have an ascendent path in front of AA, and finally fork in gastroduodenal artery and hepatic artery proper. With a descending path the SMA across the left renal vein, uncinate process, and inferior part of the duodenum (D3) made an aortomesenteric angle of 61°. The aortomesenteric distance at the level of the L3 vertebral body was 51 mm. The present case is only the 13th reported HMT in association with an independently arising LGA and SpA from the AA, the first case report with this condition using MDCT angiography. Knowledge of the variations in origin and distribution of the HMT is important for planning and performing procedures such as duodenopancreatectomy, liver transplantation, and chemoembolization of the pancreas and hepatic tumors.     

胎儿脾动脉（脾外部分）的解剖学观察

本文用30例胎尸,经灌注后进行解剖剥离.在手术放大镜下进行观察,并对脾动脉的分支及侧支循环进行了观察,其结果如下.(1)脾动脉均起于腹腔干并沿胰腺上缘走行,脾动脉发出胰腺支,胃短动脉,胃网膜左动脉,胃后壁动脉,脾叶动脉和脾极动脉.(2)脾动脉的侧支循环十分丰富,脾动脉与胃左动脉,左膈下动脉,胃网膜右动脉,肠系膜上动脉,胰动脉等均有侧支吻合,并且胃网膜左动脉与胃网膜右动脉吻合形成网膜弓.     

A morphometric study of the celiac trunk and review of the literature

The anatomy of the celiac trunk and its branches was examined in 77 adult human cadavers of Caucasian (Hellenic) origin. The celiac trunk followed the normal pattern, namely trifurcation to the common hepatic, splenic, and left gastric arteries, in 90.9% of the dissections (70/77). Two different types of trifurcation were observed: (a) a true tripod when the celiac trunk ended in a complete trifurcation (74.0%, 57/77) and (b) a false tripod when the three arteries did not have a common origin (16.9%, 13/77). Such a clear predominance of the true tripod is not reported elsewhere. Anatomic variations were found in 9.1% (7/77). Bifurcation of the celiac trunk into splenic and left gastric artery (splenogastric trunk) was observed in one specimen (1.3%), whereas the common hepatic artery emerged directly from the aorta. Absence of the celiac trunk was also found in two individuals (2.6%). The celiac trunk presented additional branches (lumbar and inferior phrenic arteries) in 5.2% (4/77). The median level of origin of the celiac trunk was at the upper third of L1 (22.7% to 17/75). The total length of the celiac trunk ranged from 1.1 to 5.0 cm, whereas the mean length was 2.8 cm (standard deviation = 0.80 cm, standard error of mean = 0.09 cm) irrespective of the existence of variations. The mean length of the celiac arteries which formed a false tripod was found to be larger than those of the arteries which formed a true tripod but only a weak statistically significant difference was established (P = 0.073). Clin. Anat. 26:741–750, 2013. © 2012 Wiley Periodicals, Inc.     

Multiple variations in the paired arteries of the abdominal aorta

Variations in the origin of arteries in the abdomen are very common. The arteries that show frequent variations include the celiac trunk, renal arteries, and gonadal arteries. We observed multiple variations in a 45-year-old male cadaver. The variations found on the left side were: one accessory renal artery, two testicular arteries, and middle suprarenal and inferior phrenic arteries that branched from the celiac trunk. On the right side, the inferior phrenic and middle suprarenal arteries arose from the right renal artery.