Supplemental Digital Content is available in the text.
Summary:
We performed hepatic artery (HA) reconstruction on 24 patients between January 2010 and October 2016. Six of 24 patients used an Ikuta type A-II vascular clamp (A-II group). The mean age was 38.0 years (range, 1–61 years). There was no blood leakage at the anastomosed site in any of the patients. No patients required an additional vascular clamp, and none developed HA thrombosis. Eighteen of 24 patients used a conventional vascular clamp. The mean age was 36.1 years (range, 1–65 years; conventional group). Sixteen of 18 patients required an additional vascular clamp due to blood leakage from the HA. There was no significant difference between the 2 groups in mean age or diameter of the recipient HA. However, there was a significant difference in the proportion of patients who required an additional vascular clamp (n < 0.001). The Ikuta type A-II clamp is an effective vascular clamp for reconstruction of the HA in living donor liver transplantation.
Hepatic artery (HA) reconstruction in living donor liver transplantation (LDLT) is a challenge for microsurgery. The HA is located deep in the abdominal cavity, there is respiratory fluctuation, and the length of the HA is often insufficient. We have performed HA reconstruction using a double vascular clamp with a metal frame.1,2 This vascular clamp is the same size as those used in other microsurgeries. However, the clamped section of the blood vessel is short with the use of this vascular clamp, which can slip off or exert insufficient pressure on a thick HA. Therefore, it can slip out of position or leakage of blood can occur. Therefore, we performed vascular anastomoses by adding another clamp. However, this additional clamp often interferes with the anastomosis. To resolve this problem, we performed HA reconstruction using an A-II type vascular clamp developed by Ikuta.3 Reports on HA reconstruction have not discussed the correlation between the use of a vascular clamp and rate of HA thrombosis. In this report, we discuss the effectiveness of the A-II type clamp for HA reconstruction in LDLT.
METHODS
The subjects in this study were 14 men and 10 women with a mean age of 37 years (range, 1–65 years) who underwent HA reconstruction in Fukushima Medical University between April 2010 and October 2016. HA reconstruction was performed after the transplant surgeon completed hepatic and portal vein reconstruction. All HA reconstructions were performed by the corresponding author. The HA was clamped with a vascular clamp, and anastomosis was then performed. If leakage from the HA was found, additional vascular clamps were used on the outside of the double clamp (Fig. 1). The end-to-end anastomosis was performed using a 7-0 PRONOVA suture (Ethicon, Somerville, N.J.). The anastomosis was started from the posterior wall using continuous suturing, and then the anterior wall was repaired using an interrupted suture (see video Supplemental Digital Content 1, which demonstrates our HA reconstruction using posterior wall first continuous suturing with Ikuta type A-II clamp, http://links.lww.com/PRSGO/A437). After removing the vascular clamp, the HA blood flow was observed with ultrasound sonography. Blood flow was monitored every day for 1 week after surgery. If the patency of the blood vessels was confirmed 1 month postoperatively, then it was assumed that there was no HA thrombus. The vascular clamp used at the anastomosis site was either a conventional metal double vascular clamp or an Ikuta type A-II vascular clamp (Fig. 2). Patients using the conventional metal double vascular clamp (Keisei Medical, Tokyo, Japan) were the conventional group, whereas patients using the Ikuta type A-II clamp (Mizuho Ika, Tokyo, Japan) were the A-II group (Fig. 3). We compared ages, the types of blood vessels that underwent anastomosis, the distribution of the diameter of the recipient HAs, and whether or not there were leaks in both groups (Table 1). The mean ages were compared using a t test. Fisher’s test was used to compare the types of graft and recipient HAs and the incidence of leaks. The Mann-Whitney U-test was used to compare the distribution of the diameters of the recipient HA. A P value of less than 0.05 was considered statistically significant.
Fig. 1.
Use of the vascular clamp. Other vascular clamps are used in addition to the double vascular clamp.
Fig. 2.
The vascular clamps used at our hospital. Ikuta type A-II clamp and the conventional metal double vascular clamp.
Fig. 3.
HA reconstruction was performed using an Ikuta type A-II clamp. This figure shows preparation of the blood vessel prior to anastomosis.
Table 1.
Summary
Video Graphic 1.
See video, Supplemental Digital Content 1, which demonstrates our HA reconstruction using posterior wall first continuous suturing with Ikuta type A-II clamp, http://links.lww.com/PRSGO/A437.
RESULTS
The mean age of the A-II group was 38 years (range, 1–61 years). Because there was no leakage, additional clamps were not used for any of the patients. There was no thrombus formation at the HA. The mean age of the conventional group was 36 years (range, 1–65 years). Leakage was found in 16 of 18 patients, and additional clamps were required. Comparison of the 2 groups indicated no significant difference in age, type of HA, or distribution of the diameter of the recipient HAs. However, the incidence of leakage was significantly higher in the conventional group.
DISCUSSION
HA is located deep in the abdominal cavity, and the surgical field is affected by respiration.1,2 The reported incidence of HA thrombosis is around 5%.4–6 To secure the reconstruction of HA, we have invented new methods using posterior wall first continuous suturing1 and 2-step HA anastomosis.2 We have conventionally used a double vascular clamp with a metal frame. This clamp is heavier than a single vascular clamp and a plastic double vascular clamp, so the degree to which it is affected by breathing is comparatively low. However, there have been cases in which this vascular clamp has slipped off the HA or leakage of blood has occurred due to insufficient pressure on the HA because the diameter of HA is thicker than other arteries. To deal with these cases, anastomosis has been performed using additional vascular clamps. Inomoto et al.6 reported that 10 of 12 recipient HAs in LDLT developed fibrosis and stenosis of HA. Chow et al.7 reported that thrombosis may form when the clamp pressure is too strong. These suggest that it is possible that using additional clamps may damage the inner membrane due to pressure at the site where the clamp is used and may result in the formation of an HA thrombosis. We feel the need for using a new vascular clamp.
The Ikuta type A-II microvascular double clamp was introduced in 1988.3 This clamp can control blood vessels with diameters of 1–5 mm, and the pressure exerted on the blood vessel can also be adjusted.3 This clamp has mainly been used in reconstruction for extremities. Although this clamp is very popular, there was no report of HA reconstruction using A-II clamp. In the present study, thrombosis did not cause blood leakage at the anastomosed site in both conventional and Ikuta clamp groups. However, slippage of a vascular clamp and the resultant bleeding during vascular anastomosis, as well as the need to use an additional clamp, are extremely stressful during microsurgery. Although reduced operator fatigue and simplified anastomosis with use of an Ikuta type A-II vascular clamp are not reflected in the data, we consider this clamp to be effective for HA reconstruction. And there is another reason why we feel this clamp is more effective. The conventional vascular clamp we use weighs 0.9 g, whereas the Ikuta type A-II clamp weighs 15 g. It may be less affected by respiratory movement. Further study should be done; our result suggests that Ikuta type A-II clamp may enable an even safer and simpler HA reconstruction.
Supplementary Material
Footnotes
Disclosure: The authors have no financial interest to declare in relation to the content of this article. The Article Processing Charge was paid for by the authors.
Supplemental digital content is available for this article. Clickable URL citations appear in the text.
REFERENCES
- 1.Okochi M, Kenjo A, Asai E, et al. Two-step hepatic artery reconstruction for a hepatic artery lacking in length for the use of a microclamp in living donor liver transplantation. Int J Surg Case Rep. 2016;24:70–72.. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 2.Okochi M, Ueda K, Hirose T, et al. A modified technique for hepatic artery reconstruction in living donor liver transplantation. Microsurgery. 2010;30:541–544.. [DOI] [PubMed] [Google Scholar]
- 3.Ikuta Y. Microvascular double clamp type A-II. J Reconstr Microsurg. 1984;1:41–43.. [DOI] [PubMed] [Google Scholar]
- 4.Seda-Neto J, Antunes da Fonseca E, Pugliese R, et al. Twenty years of experience in pediatric living donor liver transplantation: focus on hepatic artery reconstruction, complications, and outcomes. Transplantation. 2016;100:1066–1072.. [DOI] [PubMed] [Google Scholar]
- 5.Alper M, Gundogan H, Tokat C, et al. Microsurgical reconstruction of hepatic artery during living donor liver transplantation. Microsurgery. 2005;25:378–83; discussion 383.. [DOI] [PubMed] [Google Scholar]
- 6.Inomoto T, Nishizawa F, Sasaki H, et al. Experiences of 120 microsurgical reconstructions of hepatic artery in living related liver transplantation. Surgery. 1996;119:20–26.. [DOI] [PubMed] [Google Scholar]
- 7.Chow SP, Zhu JK, So YC. Effect of bipolar coagulation and occlusion clamping on the patency rate in microvascular anastomosis. J Reconstr Microsurg. 1986;2:111–115.. [DOI] [PubMed] [Google Scholar]