BACKGROUND: Current practice when performing right colectomy for cancer is to divide the feeding vessels for the right colon on the right side of the superior mesenteric vein. OBJECTIVE: This study aims to show that arterial stumps can be visualized through an early postoperative CT and analyze their anatomical and surgical characteristics. DESIGN: This study presents a retrospective review of prospective data. SETTINGS: :The study was conducted at the Department of Surgery, Vestfold Hospital, Tonsberg, Norway. PATIENTS: Patients with leakage after a right colectomy for cancer (2003-2011) were identified through a local prospective complication registry (FileMaker Pro 9.0v3 software). INTERVENTIONS: Both preoperative and postoperative CTs were retrieved, reanalyzed, and 3-dimensionally reconstructed (Osirix v.3.0.2./Mimics v.13.1.). Patients without postoperative CTs were excluded. MAIN OUTCOME MEASURES: The main outcomes measured were length, caliber of presumed and actual arterial stumps, and their position relative to the superior mesenteric vein. RESULTS: Eighteen patients, median age 69 (10 men) were included. All patients had postoperative CTs, and 15 patients had preoperative CTs. Median time from operation to postoperative CT was 5 days. The ileocolic artery was found in 14 (11 CT pairs) patients, and the right colic artery was found in 5 (4 pairs) patients. Actual stump lengths were 28.0 mm (SD 9.3) and 37.3 mm (SD 14.9). A significant statistical difference between presumed and actual ileocolic artery stump lengths was found (P = .002). Posterior crossing to the superior mesenteric vein was noticed in 8 of 14 ileocolic arteries and in 3 of 5 right colic arteries. There was no statistical difference in mean caliber for the preoperative and postoperative right colic artery (P = .505) and ileocolic artery (P = .474). LIMITATIONS: Difficulties when interpreting the postoperative images, due to intra-abdominal effusion, staples, edema, and altered syntopy of blood vessels, were overcome through comparison with preoperative CTs. CONCLUSION: An early postoperative CT can show arterial stumps after right colectomy for cancer. These stumps appear to be significantly longer than presumed; implying a significant improvement potential when specimen size is concerned.
BACKGROUND: Current practice when performing right colectomy for cancer is to divide the feeding vessels for the right colon on the right side of the superior mesenteric vein. OBJECTIVE: This study aims to show that arterial stumps can be visualized through an early postoperative CT and analyze their anatomical and surgical characteristics. DESIGN: This study presents a retrospective review of prospective data. SETTINGS: :The study was conducted at the Department of Surgery, Vestfold Hospital, Tonsberg, Norway. PATIENTS: Patients with leakage after a right colectomy for cancer (2003-2011) were identified through a local prospective complication registry (FileMaker Pro 9.0v3 software). INTERVENTIONS: Both preoperative and postoperative CTs were retrieved, reanalyzed, and 3-dimensionally reconstructed (Osirix v.3.0.2./Mimics v.13.1.). Patients without postoperative CTs were excluded. MAIN OUTCOME MEASURES: The main outcomes measured were length, caliber of presumed and actual arterial stumps, and their position relative to the superior mesenteric vein. RESULTS: Eighteen patients, median age 69 (10 men) were included. All patients had postoperative CTs, and 15 patients had preoperative CTs. Median time from operation to postoperative CT was 5 days. The ileocolic artery was found in 14 (11 CT pairs) patients, and the right colic artery was found in 5 (4 pairs) patients. Actual stump lengths were 28.0 mm (SD 9.3) and 37.3 mm (SD 14.9). A significant statistical difference between presumed and actual ileocolic artery stump lengths was found (P = .002). Posterior crossing to the superior mesenteric vein was noticed in 8 of 14 ileocolic arteries and in 3 of 5 right colic arteries. There was no statistical difference in mean caliber for the preoperative and postoperative right colic artery (P = .505) and ileocolic artery (P = .474). LIMITATIONS: Difficulties when interpreting the postoperative images, due to intra-abdominal effusion, staples, edema, and altered syntopy of blood vessels, were overcome through comparison with preoperative CTs. CONCLUSION: An early postoperative CT can show arterial stumps after right colectomy for cancer. These stumps appear to be significantly longer than presumed; implying a significant improvement potential when specimen size is concerned.
Authors: Javier A Luzon; Bjarte T Andersen; Bojan V Stimec; Jean H D Fasel; Arne O Bakka; Airazat M Kazaryan; Dejan Ignjatovic Journal: Surg Endosc Date: 2018-07-16 Impact factor: 4.584
Authors: J G Solon; A Cahalane; J P Burke; D Gibbons; J W McCann; S T Martin; K Sheahan; D C Winter Journal: Tech Coloproctol Date: 2016-05-26 Impact factor: 3.781
Authors: Javier A Luzon; Bojan V Stimec; Arne O Bakka; Bjørn Edwin; Dejan Ignjatovic Journal: Int J Comput Assist Radiol Surg Date: 2020-09-28 Impact factor: 2.924