Literature DB >> 26435909

Accessory right hepatic artery branched from gastroduodenal artery.

Kohei Yamashita¹, Daisuke Hashimoto¹, Rumi Itoyama¹, Hirohisa Okabe¹, Akira Chikamoto¹, Toru Beppu¹, Hideo Baba¹.

Abstract

The right hepatic artery usually branches from the common hepatic artery, however, there are cases showing anatomic variations. We present 41-year-old female patient with gallbladder cancer. In this case, the accessory right hepatic artery branched from the gastroduodenal artery, passed in front of the common bile duct and fed into the anterior segment of the liver. Cholecystectomy and resection of the extrahepatic bile duct with hepaticoenterostomy were performed successfully, preserving the accessory right hepatic artery. There are few reports presenting such an extremely rare anomaly of hepatic arteries in the English literature. Additionally, we herein present a review of the English literature regarding anatomic variations of right hepatic artery.

Entities: Chemical Disease Gene Species

Keywords: Gallbladder cancer; Hepatic artery; Vascular anomaly

Year: 2015 PMID： 26435909 PMCID： PMC4586006 DOI： 10.1186/s40792-015-0092-7

Source DB: PubMed Journal: Surg Case Rep ISSN： 2198-7793

Background

The patterns of the arterial blood supply to the liver have a tendency to show a certain variability [1, 2]. The right hepatic artery (RHA) usually arises from the common hepatic artery (CHA). One of the best known anatomic variations of hepatic arteries is a replaced or accessory RHA (aRHA) branching from the superior mesenteric artery (SMA) [3, 4]. However, we would like to present an extremely rare case of the aRHA branching from the gastroduodenal artery (GDA).

Case presentation

A 41-year-old woman was referred to us for gallbladder cancer. An ultrasonography and a contrast-enhanced computed tomography (CT) scan revealed a papillary hypervascular tumor, 25 × 21 mm, in the gallbladder (Fig. 1a, b). Three-dimensional (3D)-CT angiography showed that the aRHA branched from the GDA, whereas the cholecystic artery could not be detected (Fig. 1c, d). The aRHA passed in front of the common bile duct and fed into the anterior segment of the liver (Fig. 1e). The proper hepatic artery (PHA) was divided distally into the RHA and the middle hepatic artery (MHA). The left hepatic artery (LHA) was replaced on the left gastric artery (LGA). Pancreaticobiliary maljunction was not detected in this case.

Fig. 1

Preoperative findings. A contrast-enhanced CT (a) and ultrasonography (b) revealed a papillary hypervascular tumor, 25 × 21 mm, in the gallbladder. The 3D-CT angiography (c, d) indicated that the aRHA (arrow) branched from the GDA, whereas the cholecystic artery could not be detected. The aRHA (arrow) fed into the anterior segment of the liver (e). CHA common hepatic artery, GDA gastroduodenal artery, PHA popper hepatic artery, aRHA accessory right hepatic artery, LGA left gastric artery, LHA left hepatic artery The patient underwent operation, and laparotomy revealed that there was no invasion into the liver. The aRHA branching from the GDA was detected being consistent with the preoperative 3D-CT (Fig. 2a). The cholecystic artery was found, arising from the aRHA (Fig. 2b). Finally, the cholecystic artery was cut and resection of the gallbladder, and the extrahepatic bile duct with additional hepaticoenterostomy was performed, preserving the aRHA successfully (Fig. 2c). Whereas the effectiveness of lymphadenectomy for early-stage gallbladder cancer has been controversial [5], we performed resection of the extrahepatic bile duct for lymph node dissection. Macroscopically, the tumor was 2.5 × 2.0 cm (Fig. 2d). Postoperative pathological analysis diagnosed a papillary adenocarcinoma within the mucosal layer of the gallbladder.

Fig. 2

Operative findings. The aRHA branching from the GDA was detected (a). The cholecystic artery was found, arising from the aRHA (b). The gallbladder and the extrahepatic bile duct were resected, preserving the aRHA (c). Macroscopically, the tumor was 2.5 × 2.0 cm (d). CHA common hepatic artery, GDA gastroduodenal artery, PHA popper hepatic artery, aRHA accessory right hepatic artery, LGA left gastric artery, LHA left hepatic artery. Arrow: cut end of the bile duct Michels et al. published autopsy series about hepatic artery variants in 1966 [6], and in which, they indicated that aRHA uncommonly branches from GDA. We reviewed the English literature, in which 6588 cases were analyzed about anatomic variation of hepatic artery, including the presented case [3, 7–14] (Table 1). This study was approved by the Institutional Review Board of Kumamoto University Hospital. Among 6588 cases, 5696 cases (86.5 %) had standard anatomy. Replaced RHA and aRHA were the most commonly branched from SMA (853 cases, 12.9 %), followed by celiac axis (CA) (16 cases, 0.24 %), aorta (10 cases, 0.15 %), and CHA (6 cases, 0.09 %). Two cases had rare anomalies in which replaced RHA branched from LGA or renal artery. In addition, there were three cases (0.05 %) who had replaced RHA branched from GDA. Hogendorf et al. reported an autopsy case of aRHA branched from GDA [14]. However, to our best knowledge, the presented case is the first report in which aRHA branched from GDA was detected preoperatively.

Table 1

Anatomic variations of replaced and accessory right hepatic artery

Author	Total cases (n)	Origin of RHA or accessory RHA (n)
Author	Total cases (n)	Standard anatomy	Replaced RHA from SMA	Accessory RHA from SMA	Replaced RHA from CA	Accessory RHA from CA	Replaced RHA from CHA	Replaced RHA from aorta	Accessory RHA from aorta	Replaced RHA from renal artery	Replaced RHA from LGA	Replaced RHA from GDA	Accessory RHA from GDA
Hiatt J. [3]	1000	871	129		0	0	0	0	0	0	0	0	0
Covey A. [7]	600	512	55	33	0	0	0	0	0	0	0	0	0
Gruttadauria S. [11]	701	572	110		5		2	8		1	1	2	0
Koops A. [8]	604	520	60	21	1	1	0	1	0	0	0	0	0
Abdullah S. [12]	932	772	155		5		0	0	0	0	0	0	0
Lopez-Andujar R. [9]	1081	946	118	17	0	0	0	0	0	0	0	0	0
Winston C. [13]	371	347	15	0	4	0	4	0	0	0	0	1	0
Loschner C. [10]	1297	1156	103	37	0	0	0	0	1	0	0	0	0
Hogendorf P. [14]	1	(–)	(–)	(–)	(–)	(–)	(–)	(–)	(–)	(–)	(–)	(–)	1
This report	1	(–)	(–)	(–)	(–)	(–)	(–)	(–)	(–)	(–)	(–)	(–)	1
Total	6588	5696	853		16		6	10		1	1	3	2

RHA right hepatic artery, SMA superior mesenteric artery, CA celiac axis, CHA common hepatic artery, LGA left gastric artery, GDA gastroduodenal artery

Anatomic variations of replaced and accessory right hepatic artery RHA right hepatic artery, SMA superior mesenteric artery, CA celiac axis, CHA common hepatic artery, LGA left gastric artery, GDA gastroduodenal artery

Conclusion

In this case, the successful outcome of the operation was made possible by identifying the aRHA preoperatively. The aRHA should be preserved because it fed the anterior segment of the liver. In addition to the abnormal aRHA, this case had a replaced LHA which the use of the preoperative 3D-CT angiography helped to establish beforehand. We believe that this extremely rare arterial pattern should be known by surgeons.

Consent

Written informed consent was obtained from the patient for publication of this case report and any accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal.

14 in total

1. CT angiography for delineation of celiac and superior mesenteric artery variants in patients undergoing hepatobiliary and pancreatic surgery.

Authors: Corinne B Winston; Nancy A Lee; William R Jarnagin; Jerrold Teitcher; Ronald P DeMatteo; Yuman Fong; Leslie H Blumgart
Journal: AJR Am J Roentgenol Date: 2007-07 Impact factor: 3.959

2. Lessons learned from anatomic variants of the hepatic artery in 1,081 transplanted livers.

Authors: Rafael López-Andújar; Angel Moya; Eva Montalvá; Marina Berenguer; Manuel De Juan; Fernando San Juan; Eugenia Pareja; Juan José Vila; Francisco Orbis; Martín Prieto; José Mir
Journal: Liver Transpl Date: 2007-10 Impact factor: 5.799

3. Variations of hepatic artery: anatomical study on cadavers.

Authors: Geraldo Alberto Sebben; Sérgio Luiz Rocha; Marco Aurélio Sebben; Plácido Roberto Parussolo Filho; Bruno Henrique Habu Gonçalves
Journal: Rev Col Bras Cir Date: 2013 May-Jun

4. Anatomical variations of the hepatic artery: study of 932 cases in liver transplantation.

Authors: Siraj Saadaldin Abdullah; Jean-Yves Mabrut; Vincent Garbit; Eric De La Roche; Eric Olagne; Agnès Rode; André Morin; Yves Berthezene; Jacques Baulieux; Christian Ducerf
Journal: Surg Radiol Anat Date: 2006-04-27 Impact factor: 1.246

5. Newer anatomy of the liver and its variant blood supply and collateral circulation.

Authors: N A Michels
Journal: Am J Surg Date: 1966-09 Impact factor: 2.565

6. The hepatic artery in liver transplantation and surgery: vascular anomalies in 701 cases.

Authors: S Gruttadauria; C S Foglieni; C Doria; A Luca; A Lauro; I R Marino
Journal: Clin Transplant Date: 2001-10 Impact factor: 2.863

7. Regional lymphadenectomy strongly recommended in T1b gallbladder cancer.

Authors: Ulrich Klaus Fetzner; Arnulf H Hölscher; Dirk L Stippel
Journal: World J Gastroenterol Date: 2011-10-14 Impact factor: 5.742

Review 8. Surgical anatomy of the hepatic arteries in 1000 cases.

Authors: J R Hiatt; J Gabbay; R W Busuttil
Journal: Ann Surg Date: 1994-07 Impact factor: 12.969

9. Anatomic variations of the hepatic arteries in 604 selective celiac and superior mesenteric angiographies.

Authors: A Koops; B Wojciechowski; D C Broering; G Adam; G Krupski-Berdien
Journal: Surg Radiol Anat Date: 2004-02-14 Impact factor: 1.246

10. A rare variant angioarchitecture of upper abdomen.

Authors: Badal Singh; Mamta Anand; Smrity Gupta
Journal: Anat Cell Biol Date: 2014-03-13

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2. Anatomic Variations of the Hepatic Artery in 5625 Patients.

Authors: Tae Won Choi; Jin Wook Chung; Hyo-Cheol Kim; Myungsu Lee; Jin Woo Choi; Hwan Jun Jae; Saebeom Hur
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3. Using indocyanine green fluorescence in laparoscopic surgery to identify and preserve rare branching of the right hepatic artery in pediatric congenital biliary dilatation.

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4. A rare case with multiple arterial variations of the liver complicated laparoscopic pancreaticoduodenectomy.

Authors: Yong Yan; Bailin Wang; Wei Yuan; Jiansong Zhang; Junhao Xiao; Yanhua Sha
Journal: BMC Gastroenterol Date: 2022-07-07 Impact factor: 2.847

Review 5. A Rare Anatomic Variant of Double Replaced Hepatic Arteries: A Case Report and Brief Review of the Anomalous Hepatic Vasculature Literature.

Authors: Mazzin Elsamaloty; Eric Schupp; Abdighani Ismail; Clariza Borile; Krista Chun; Jeffrey M Sutton
Journal: Am J Case Rep Date: 2021-05-09

6. Rare combined variations of renal, suprarenal, phrenic and accessory hepatic arteries.

Authors: Łukasz Olewnik; Anna Waśniewska; Michał Polguj; Mirosław Topol
Journal: Surg Radiol Anat Date: 2018-04-17 Impact factor: 1.246

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