Mini-invasive SurgMini-invasive Surgery2574-1225OAE Publishing Inc.10.20517/2574-1225.2020.47Systematic ReviewMinimally invasive pancreaticoduodenectomy with venous resection: results of a systematic reviewAddeoPietro121Hepato-Pancreato-Biliary Surgery and Liver transplantation, Pôle des Pathologies Digestives, Hépatiques et de la Transplantation, Hôpital de Hautepierre-Hôpitaux Universitaires de Strasbourg, Strasbourg 67098, France.2Images team, ICube, Université de Strasbourg, CNRS UMR 7357, Illkirch 67400, France.Correspondence Address: Dr. Pietro Addeo, Hepato-Pancreato-Biliary Surgery and Liver transplantation, Pôle des Pathologies Digestives, Hépatiques et de la Transplantation, Hôpital de Hautepierre-Hôpitaux Universitaires de Strasbourg, Avenue Molière, Université de Strasbourg 1, Strasbourg 67098, France. E-mail: pietrofrancesco.addeo@chru-strasbourg.fr
Received: 5 May 2020 | First Decision: 19 Jun 2020 | Revised: 27 Aug 2020 | Accepted: 31 Aug 2020 | Published: 12 Oct 2020
Academic Editor: Giulio Belli | Copy Editor: Cai-Hong Wang | Production Editor: Jing Yu
Aim: Growing experience with minimally invasive pancreaticoduodenectomy (PD) has led surgeons to expand the indications for this approach. We systematically reviewed the literature on minimally invasive PD with venous resection.
Methods: The EMBASE, MEDLINE, and Cochrane central databases were systematically searched for articles from January 2010 to January 2020 describing cases of PD with venous resection. The search was conducted in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. The primary outcomes were feasibility and conversion rate. Secondary outcomes were morbidity, mortality, blood loss and 1-year survival.
Results: The literature search found 9 studies reporting 140 patients undergoing PD with venous resection. Sixty-six PDs were performed robotically (47.1%). The conversion rate ranged from 0% to 55%, blood loss ranged from 200 to 842 mL, and operative time ranged from 397 to 518 min. There were 82 lateral (58.5%) and 18 segmental (12.8%) PDs with venous resection. One patient had an associated arterial resection (0.7%). A graft was used for venous reconstruction in 28 patients (20%). Eight deaths (5.7%) were reported postoperatively.
Conclusion: Minimally invasive pancreatectomies with synchronous lateral venous resections are increasingly reported by highly experienced surgeons in high-volume institutions. Further experience is needed to validate this approach and prove its advantages over open surgery.
Since the first description in 1994 by Gagner and Pomp, minimally invasive (MIS) pancreaticoduodenectomy (PD) has been considered among the most complex abdominal procedures[1]. Even if the feasibility and safety of the minimally invasive approach of MIS PD has been demonstrated in several randomized and observational studies, reluctance still exist to embrace MIS for PD[2-5]. PDs are in fact a complex procedure entailing (1) extensive dissection around the mesenteric and coeliac vessels; (2) dissection above and below the mesocolon (multi-quadrant procedure); (3) a long and a technically challenging digestive reconstruction; and (4) inherent morbidity and mortality which seems not reduced by the MIS approach.
For these reasons, the MIS approach to PD is still not widely practised compared with other procedures such as colonic and gastric resection. However, increased experience with laparoscopy and robotics in surgery has allowed pioneer centres to test the feasibility and safety of these approaches for more advanced procedures. In fact, from a theoretical point of view, the magnified view provided by the laparoscope and/or the 3D vision achieved by robotics can be of great help during the dissection. This enhanced view, coupled by the superior dexterity of the robotic instruments, can be of great help in complex suturing.
Indeed, complex procedures such as renal or splenic artery aneurysm repair, nephrectomy with caval thrombectomy, and kidney and pancreas transplantation have been described in recent years[6-11]. As a result of these developments and the increased experience achieved with MIS PDs, small series of MIS pancreatectomies with vascular resection have been reported[3,5,11-19]. The safety and results of this approach remains to be determined. In this article we systematically reviewed the literature on the topic of MIS PD with vascular resection, evaluating the safety and feasibility as well as the outcomes of this approach.
MethodsData selection
The EMBASE, MEDLINE, and Cochrane central databases were systematically searched for articles from January 1995 to January 2020 describing cases of PD with venous resection. The search was conducted in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines, and it was limited to manuscripts written in English. The following were used as search terms: “pancreaticoduodenectomy” combined with “laparoscopic” and/or “robotic” and “vascular resection” and/or “venous resection”. Potentially eligible articles were screened, and exclusion criteria included: (1) duplicated articles; (2) articles that were not in English or that described animal studies; and (3) registry studies for whom the patient outcomes could not be precisely detailed. References of selected articles were checked for additional cases. The primary outcomes of the review were feasibility of PD with venous resection. Secondary outcomes were morbidity, mortality, blood loss and 1-year survival. All the data were extracted using a standardized extraction form.
Statistical analysis
Continuous data are expressed as the mean ± standard deviation or the median and range as appropriate, whereas categorical variables are presented as numbers and percentages. Differences between groups were assessed by the chi-squared or Fisher’s exact test (categorical variables) and the Wilcoxon rank sum test or the student’s t test (continuous variables).
Results
The initial search resulted in 58 studies. Only 9 studies (reported from US, n = 4; France, n = 1; Italy, n = 2; Russia, n = 1; China, n = 1) matched the inclusion criteria, however[5,12-19] [Table 1, Figure 1]. This included 140 patients undergoing PD with vascular resection. Sixty-six PDs were performed robotically (47.1%). There were 82 laterals (58.5%), 18 segmental (12.8%) and 29 not specified venous resections (20.7%). One patient had an associated arterial resection (0.7%). Nineteen conversions to open surgery were reported. At least 11 of these conversions were due to venous adhesions[5]. The conversion rate ranged from 0% to 55%, blood loss ranged from 200 to 842 mL, and operative time ranged from 397 to 518 min. A graft was used for venous reconstruction in 28 patients (20%). Eight deaths (5.7%) were reported postoperatively. Mortality ranged from 0% to 8% in the series, and reoperation was rarely described and reported in five patients (3.5%).
Outcomes of minimally invasive pancreaticoduodenectomy with vascular resection
Author
Year
Approach
Conversion
Blood loss (mL)
Operative time (min)
Venous resection
Lateral/segmental
Graft
Arterial resection
Mortality
Morbidity
Reoperation
Survival
Giulianotti et al.[16]
2011
Robotic
0
200
392
2
2/0
1 (PTFE)
0
0
1
1
NA
Croome et al.[14]
2015
Laparoscopic
0
842
465
31
22/9
12 [Patch (10), LRV (1), Synthetic (1)]
1
1 (3.3%)
11 (35.5%)
NA
75%
Boggi et al.[11]
2016
Robotic
NA
NA
NA
14
NA
NA
0
2 (14.2%)
NA
2 (14.2%)
NA
Khatkov et al.[18]
2017
Laparoscopic
NA
NA
NA
8
5/3
3 (1 Patch, 2 Prothesis)
0
1 (12.5%)
NA
1 (12.5%)
NA
Stauffer et al.[5]
2017
Laparoscopic
11
250
518
20
NA
NA
NA
NA
NA
NA
NA
Dokmak et al.[15]
2018
Laparoscopic
0
437
397
4
4
4
0
0
0
1
50%
Cai et al.[13]
2018
Laparoscopic
3
435
547
10
NA
2
0
0
40%
NA
NA
Beane et al.[12]
2019
Robotic
5
275
419
50
49/1
6 (Bovine pericardial patch)
0
4 (8%)
14 (28%)
1 (2%)
NA
Rosso et al.[19]
2020
Laparoscopic
0
150
435
1
0/1
0
0
0
1
0
NA
PTFE: polytetrafluoroethylene; LRV: left renal vein; NA: not available
PRISMA flow chart of study selection
Discussion
The wide application of MIS for almost every procedure in digestive surgery during the last twenty years has not involved pancreatic surgery. Reasons for this reluctance are related to the technical challenge of the dissection and reconstruction phases of PD. The fear of having bleeding difficult to control laparoscopically and the challenges posed by the pancreatoenteric reconstruction in the presence of a soft pancreas could have contributed to this phenomenon.
However, expert centres with a large volume of open pancreatic resections have introduced gradually MIS for PD over the last ten years. The increase in experience achieved with standard PDs performed robotically or laparoscopically has allowed these centres to adopt the MIS approach for extended pancreatectomy with vascular resection. The first series described was in 2011 by Giulianotti et al.[16], who reported two cases of lateral venous resection during robotic PD. Since then, further studies have reported experience with this approach. This current review found 140 PD with venous resection, of which 50% were performed robotically.
Most of these minimally invasive PDs with venous resection were lateral resections (58.5%), which needed either direct suture-repair or patch-interposition. This is certainly related to less advanced cases operated by MIS and to the challenges posed by segmental resection. Segmental resection is, in fact, needed more often in case of long and circumferential venous involvement; can require extensive mesenteric mobilization in order to achieve a tension-free venous approximation; and can require prolonged vascular clamping which can cause bowel oedema impairing the endoscopic view. The largest series to date of robotic PD with venous resection (50 cases) reported only one case of segmental resection[12], whereas Croome et al.[14] reported 9 over 22 cases of laparoscopic segmental venous resection.
Patch-repair was the technique of choice in case of a large defect of the lateral venous wall. Peritoneal, bovine pericardium and polytetrafluoroethylene material were variably used for venous patches. Postoperative thrombosis was rarely reported[3,15,17]. We found a 5.7% postoperative mortality rate which is in the range of that reported in large registry studies in Europe[20,21]. The causes of mortality were not different to those in open PD, with no specific complications related to the approach used. Blood loss and operative time seem to be comparable to that reported for open surgery.
In conclusion, despite limited experience, the minimally invasive approach to PD with venous resection seems feasible, with an acceptable rate of mortality and morbidity in the hands of highly experienced pancreatic surgeons. The advantages of this approach over open surgery remain to be determined.
DeclarationsAuthors’ contributions
The author contributed solely to the article.
Availability of data and materials
Not applicable.
Financial support and sponsorship
None.
Conflicts of interest
The author declared that there are no conflicts of interest.
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