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Case 84 - Mesenteric artery anatomic variants

from Section 9 - Mesenteric vascular

Published online by Cambridge University Press:  05 June 2015

By
Satomi Kawamoto
Edited by
Stefan L. Zimmerman  and
Elliot K. Fishman
Satomi Kawamoto
Affiliation:
Johns Hopkins University School of Medicine
Stefan L. Zimmerman
Affiliation:
Johns Hopkins Medical Centre
Elliot K. Fishman
Affiliation:
Johns Hopkins Medical Centre
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Summary

Imaging description

In the classic anatomy, the common hepatic artery (CHA), left gastric artery (LGA) and splenic artery (SA) arise from the celiac axis (CA), and the superior mesenteric artery (SMA) arises from the aorta without an aberrant or accessory hepatic artery (61–76% of normal population) (Figure 84.1). There are multiple types of variant anatomy of these vessels. The most common variations are a replaced or accessory left hepatic artery originating from the LGA (9.7–12.5%), a replaced or accessory right hepatic artery originating from the SMA (7.5–10.6%), or a combination of replaced or accessory right and left hepatic arteries (2.3– 4.5%) (Figure 84.2). Less commonly, the origin of the CHA arises from the SMA (1.5–3%) (Figure 84.3) or directly from the aorta (0.2–2%) (Figures 84.4 and 84.5). In these cases the splenic artery and left gastric artery often arise directly from the aorta (gastrosplenic, or lienogastric trunk) (Figures 84.3 and 84.5). Common origin of the CA and SMA (celiacomesenteric trunk) is seen in 0.7–1.1% of population (Figure 84.6). Other uncommon variations include the splenic artery originating from SMA (splenomesenteric trunk) (0.24% [5]) (Figure 84.7), and the CHA originating from the left gastric artery (hepaticogastric trunk) (0.2– 0.3%) (Figure 84.7). Additional very rare patterns also have been described.

Typically, the common hepatic artery has a suprapancreatic, preportal course; however, there can be a variation in the pathway of CHA, such as a retrocaval course or passing through the pancreatic parenchyma, particularly when the CHA arises from the SMA (Figure 84.3).

Importance

For preoperative planning of the abdominal surgery, it is important to understand the celiac axis, hepatic arterial, and mesenteric arterial anatomy to avoid or minimize serious ischemic complications. To perform interventional radiologic procedures such as intra-arterial hepatic tumor management and embolotherapy for hemorrhage, preprocedural evaluation of variant celiac axis and hepatic arterial anatomy is important for treatment planning.

Type
Chapter
Information
Pearls and Pitfalls in Cardiovascular Imaging
Pseudolesions, Artifacts, and Other Difficult Diagnoses
 , pp. 260 - 262
Publisher: Cambridge University Press
Print publication year: 2015

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References

1. Covey, AM, Brody, LA, Maluccio, MA, Getrajdman, GI, Brown, KT. Variant hepatic arterial anatomy revisited: digital subtraction angiography performed in 600 patients. Radiology 2002;224:542–547.CrossRefGoogle ScholarPubMed
2. Chen, H, Yano, R, Emura, S, Shoumura, S. Anatomic variation of the celiac trunk with special reference to hepatic artery patterns. Annals of Anatomy = Anatomischer Anzeiger 2009;191:399–407.Google ScholarPubMed
3. Hiatt, JR, Gabbay, J, Busuttil, RW. Surgical anatomy of the hepatic arteries in 1000 cases. Annals of Surgery 1994;220:50–52.CrossRefGoogle ScholarPubMed
4. Suzuki, T, Nakayasu, A, Kawabe, K, Takeda, H, Honjo, I. Surgical significance of anatomic variations of the hepatic artery. American Journal of Surgery 1971;122:505–512.CrossRefGoogle ScholarPubMed
5. Song, SY, Chung, JW, Yin, YH, et al. Celiac axis and common hepatic artery variations in 5002 patients: systematic analysis with spiral CT and DSA. Radiology 2010;255:278–288.CrossRefGoogle ScholarPubMed

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