Surgical anatomy of the right gastro-omental artery: a study on 100 cadaver dissections.

• Settembre Nicla
• Labrousse Marc
• Magnan Pierre Edouard
• Branchereau Alain
• Champsaur Pierre
• Bussani Rossana
• Braun Marc
• Malikov Sergueï

• Humans
• Male
• Aged
• 80 and over
• Cadaver
• Anatomic Variation
• Anatomical study
• Arteria omentalis magna
• Cadaver dissections
• Dissection
• Gastro-omental artery
• Gastroepiploic Artery/anatomy & histology
• Greater omentum
• Omentum/blood supply/transplantation
• Surgical Flaps/blood supply
• Transillumination

PURPOSE: The gastro-omental artery (GOA) with the greater omentum (GO) is known for its high quality as a vascular graft, its resistance to infections as an omental flap and for its multiple applications in surgery. A better knowledge of anatomical variations of GO and its vascularization can improve the application in surgery and decrease complications. The purpose of this study was to measure diameters and lengths of the right GOA (RGOA) and study the interindividual variability of these anatomical structures. METHODS: In 100 cadaveric dissections, we carried out dissection of the RGOA and of the GO. In 70 unfixed cadavers, the transillumination technique was used to identify all RGOA branches. In the remaining 30 cadavers, prepared with Winckler's solution, barium sulfate with colored latex was injected. Digital X-ray was used to measure RGOA lengths, internal diameters and the distribution of the omental branches. The gastro-omental vein was also dissected. RESULTS: The mean proximal and distal diameters of RGOA were 2.68 (± 0.39) mm and 0.94 (± 0.24) mm, respectively. The mean length was 244.3 (± 34.4) mm. The thickness of the omentum ranged from 5 to 15.5 mm. The arteria omentalis magna, defined in this study for the fist time as the longest and widest omental branch, was present in 73.3% cases. The trans-omental arch was present in 6% cases. CONCLUSIONS: This morphometric study allowed us to define the vascularization and the anatomical variations of RGOA and GO. This may lead to improvement of applications in surgery and decrease complications.