She was taken to the operating room, and invasive monitoring was initiated. After general anesthesia, a Mercedes type laparotomy incision was performed. Next, a mass located at the pancreatic head was palpated, but there was no ascites or liver metastasis.
The head of the pancreas and the duodenum were then mobilized utilizing the Kocher maneuver. While dissecting the pancreatic head, the SMA was iatrogenically injured. It was fragile because of adhesions and the inflammatory process and was nearly transected; hence, repair was not possible. The patient was then systemically heparinized (5,000 IU) before the SMA cross-clamping, and the proximal SMA was ligated by transfixion sutures at its origin. The splenic artery was then identified by its origin in the splenic hilum and was mobilized above the superior border of the pancreas over a segment approximately 7 cm in length to allow for a tension-free anastomosis to the SMA. The pancreatic branches arising from the splenic artery were then ligated and divided, and this artery was transected near the hilum of the spleen and transposed over the pancreas. Following this, it was anastomosed end-to-end to the SMA. After the completion of this procedure, the anastomosis and homeostasis were carefully inspected, and pulsatile flow was confirmed by palpation. Next, the splenic vein was ligated, and a splenectomy was performed. The distal stomach, gallbladder, common bile duct, head of the pancreas, duodenum, proximal jejunum, and regional lymphatics were resected, and a pancreaticojejunostomy, choledochojejunostomy, and gastrojejunostomy were performed to restore gastrointestinal continuity.
A second laparotomy was performed 10 days postoperatively to repair bleeding from the SMA stump. Afterwards, the patient had an uneventful postoperative course and was discharged on the 15th postoperative day. Computed tomography angiography obtained at the postoperative sixth month demonstrated a patent splenic artery-to-SMA bypass (Figure 1). Furthermore, the patient has had no postprandial abdominal pain.
Current surgical intervention for SMA injury or resection involves aorta-to-SMA or iliac artery-to- SMA bypass using a vein (internal jugular, saphenous, inferior mesenteric) or synthetic graft, transposition and reimplantation of SMA into a healthy area of the aortic wall and end-to-side anastomosis.[3-5] As an additional option the splenic artery could be chosen for revascularization of SMA when celiac axis is patent.
The splenic artery is an arterial conduit that offers plenty of the length required to reach the SMA with long-term patency, and it has been used successfully for direct left renal artery reconstruction. Using the splenic artery makes cross-clamping of the aorta unnecessary, thereby lessening the risk of producing cardiac ischemia, declamping hypotension, and atherosclerotic plaque displacement. Additionally, only one anastomosis has to be performed.
The risk of splenectomy versus the benefits of a less complicated arterial reconstruction that avoids aortic cross-clamping must be evaluated for each patient.
We preferred not to use a prosthetic graft in our patient because of concerns associated with long-term patency and the predisposition of cancer patients to thrombosis.
An autologous vein interposition using the internal jugular, saphenous, or inferior mesenteric vein and the reimplantation of the SMA into the aorta are other treatment options, but we did not choose them because of the reasons described above.
End-to-end anastomosis could also be an alternative option for some patients, but it was not feasible for ours because tension-free reconstruction of the arterial continuity was not possible.
In conclusion, the use of the splenic artery should be considered as an additional option for arterial reconstruction of the SMA in selected patients.
Declaration of conflicting interests
The authors declared no conflicts of interest with
respect to the authorship and/or publication of this
article.
Funding
The authors received no financial support for the
research and/or authorship of this article.
1) Ikard R, Merendino KA. Accidental excision of the superior
mesenteric artery. Technical and physiological considerations.
Surg Clin North Am 1970;50:1075-85.
2) Bockhorn M, Burdelski C, Bogoevski D, Sgourakis G,
Yekebas EF, Izbicki JR. Arterial en bloc resection for
pancreatic carcinoma. J Surg 2011;98:86-92. doi: 10.1002/
bjs.7270.
3) Foley MI, Moneta GL, Abou-Zamzam AM Jr, Edwards JM,
Taylor LM Jr, Yeager RA, et al. Revascularization of the superior mesenteric artery alone for treatment of intestinal
ischemia. J Vasc Surg 2000;32:37-47.
Turkish Journal of Thoracic and Cardiovascular Surgery published orginal papers on topics in cardiovascular surgery, cardiovascular anesthesia,cardiology and thoracic surgery. These encompass all relevant clinical, surgical and laboratory specialities, editorials, current and collective reviews, tecnical knowhow papers, case reports, "How to Do It" papers. All copyrights of the articles that published or will be published belongs to Turkish Journal of Thoracic and Cardiovascular Surgery and without permission of editorial board whole articles or any part of articles table pictures and graphics could not be published. Turkish Journal of Thoracic and Cardiovascular Surgery is indexed by Science Citation Index - Expanded (SCIE)
Editor of the Journal of Turkish Thoracic and Cardiovascular Surgery
Ataşehir Mah. Ataşehir Bulvarı 48 Ada Mimoza 2-2 K:2 D:6 Ataşehir - İSTANBUL - TURKEY
Phone: +90 216 456 14 54 | GSM: 0549 456 14 54 | e - Mail : dergi@tkdcd.org
www.tkdcd.org
){kind=link}