State-of-the-art surgery for sigmoid diverticulitis

Sigmoid and left colonic diverticula are “pockets” of mucosa, submucosa, and serosa herniated from the bowel wall; in the western world, they present more often in the sigmoid, due to the intraluminal high pressure and the presence of weak spots in the muscular layer [1]. Colonic diverticulosis may be symptomatic; this heterogeneous condition is called Diverticular Disease (DD) and may be due to acute diverticulitis (AD) or persistent abdominal symptoms (abdominal pain, bloating, and changes in bowel habits) in the absence of macroscopic inflammation (SUDD = symptomatic uncomplicated diverticular disease). More often, it is an uncomplicated AD, but in some cases, an AD can become complicated with abscess, peritonitis, stricture, or hemorrhage (Fig. 1).

In the Western population, DD is a quite common condition over the age of 50 (50% of the population). The sigmoid colon is the most frequent localization (65%), other uncommon locations being the sigmoid plus other parts of the large bowel (25%) or the entire colon (7%) [2]. Acute diverticulitis is the most common surgically treated disease after cancer; in the last three decades, the indications for surgical resection progressively reduced, in particular for the elective resection, and nowadays, elective surgery is considered only in the few cases with persistent symptoms and the risk of recurrent acute episodes in particular in young patients. Likewise, also, the indications for emergency surgery are quite restricted and limited to very selected cases (8.3%) [3] mostly for severe abdominal infective complications (41.62–79.4%) [4, 5].

The sigmoid is the last part of the colon and its morphology can be highly variable (length of S‐shaped loop between 11.9 and 91.1 cm, width of the sigmoid mesocolon between 4 and 11.5 cm) [6]. In common clinical practice, these variants may explain the heterogeneous clinical picture and the sometimes atypical presentation with right lower quadrant (RLQ) pain from sigmoid diverticulitis associated with a long and redundant colon [7].

In the management of AD, another dilemma is the choice of the surgical access (i.e., conventional open or laparoscopic). Laparoscopic sigmoid resection is the preferred procedure in the elective setting. Since 1991, after the first report of laparoscopic colectomy [65], laparoscopic surgical access has gained a key role in the treatment of uncomplicated recurrent diverticular disease. This approach is commonly performed in the uncomplicated stages of acute diverticulitis with recurrent inflammatory episodes, but yet, diverticulitis complicated by complex abdominal abscesses with/without fistula (Hinchey IIb) does not represent an absolute contra-indication to the laparoscopic approach [66].

Multiple observational studies have reviewed the outcomes of laparoscopic sigmoid resection for uncomplicated diverticulitis [67‐69]. A systematic review and meta-analysis of these non-randomised studies reported clear advantages of laparoscopy over open surgery in terms of significantly lower rate of overall morbidity [17% vs 27%; OR 0.46, 95% CI 0.25 to 0.84; 11 studies; I² = 74%] and minor complications [9% vs 18%; OR 0.37, 95% CI 0.18 to 0.78; nine studies; I² = 55%]. However, these data might be influenced by the selection bias of the retrospective or prospective cohort studies included into the analyses [70].

Subsequently, Klarenbeek [71‐73], Gervaz [74, 75], and Raue [76] presented the final results of three RCTs evaluating the benefits of elective laparoscopic vs open sigmoid resection for diverticulitis. In the Sigma trial, Klarenbeek showed that Quality of Life (QoL), measured by the Short Form-36 questionnaire 6 weeks after surgery, improved significantly after laparoscopic resection in terms of limitations due to physical health (PRF) (p = 0.039), emotional problems (p = 0.024), social functioning (p = 0.015), and pain (p = 0.032). On the other side, Gervaz and Raue did not report differences in QoL using the European Organization for Research and Treatment of Cancer Core Quality of Life Questionnaire (EORTC QLQ‐C30) v3 and the Gastrointestinal Quality of Life Index score, respectively. The meta-analysis of these three RCTs did not show any evidence to support the use of laparoscopic surgery in terms of a shorter length of stay (MD − 0.62, 95% CI − 2.49 to 1.25; I² = 0%) (Fig. 7) or other postoperative outcomes including post-operative surgical complications (RR 0.84, 95% CI 0.60 to 1.19; I² = 0%) (Fig. 8), 30-day postoperative mortality (RR 0.24, 95% CI 0.03 to 2.07; I² = 0%), and operative time (MD 49.28 min, 95% CI 40.64 to 57.93; I² = 0%). The meta-analysis on postoperative pain showed that laparoscopic surgery can reduce pain at postoperative day 4 (MD − 0.65, 95% CI − 1.04 to − 0.25; I² = 0%) [77]. However, since the publication of these three RCTs, laparoscopic surgery greatly improved, and currently, many scientific societies support the safety and the advantages of the laparoscopic approach (Consensus Conference of EAES and SAGES [54], ESCP [18] and ASCRS [17]).

In the emergency setting and in hemodynamically stable patients, a laparoscopic approach is preferred, and surgeons with advanced laparoscopic skills reported some advantages in terms of lower postoperative complication rates; a systematic review and meta-analysis including 436 patients recruited from four observational studies highlighted that the laparoscopy resection slightly improves the rates of overall post-operative complications and post-operative length of stay, respectively (RR 0.62, 95% CI 0.49 to 0.80 and MD − 6.53, 95% CI − 16.05 to 2.99) (Fig. 9). However, this approach does not seem to affect other clinical outcomes (i.e., rate of Hartmann’s vs anastomosis, operating time, reoperation rate, and postoperative 30-day mortality) (Fig. 10) [78]. Furthermore, the Italian multisocietary position statement of Società Italiana di Chirurgia Colo-Rettale (SICCR), Società Italiana di Chirurgia d’Urgenza e del Trauma (SICUT), SIRM (Società Italiana di Radiologia Medica), and Associazione Italiana Gastroenterologi Ospedalieri (AIGO) recommended this approach if performed by qualified laparoscopic surgeons (In hemodynamically stable patients, confirmation and staging of diffuse peritonitis may be obtained by laparoscopy. In centers with adequate expertise selected cases may be handled by emergency laparoscopic procedures, either resective or non-resective) [40].

After the drainage of peritoneal collections, some surgeons advocated the use of laparoscopic lavage to improve the condition of septic patients through a dialytic reduction of endotoxin levels in the peritoneal fluid. The aim of the intraoperative laparoscopic lavage is the reduction of stoma rate and post-operative morbidity, as reported by the Consensus Conferences of EAES (European Association for Endoscopic Surgery) and SAGES (Society of American Gastrointestinal and Endoscopic Surgeons) [54]. This technique is feasible and safe, but advantages have been reported only in a selected group of patients, the success factors of LPL being still undefined [79]. In actual facts, a non-selective use of this technique causes a significant increase of postoperative intra-abdominal abscesses (RR 2.54, 95% CI 1.34–4.83) (Fig. 11) [80]. Different results reported in the three RCTs (LADIES) [81‐83] (SCANDIV) [84, 85] (DILALA) [86, 87] may possibly be due to the use of different selection criteria. The most recent guidelines suggest laparoscopic peritoneal lavage only in selected patients with Hinchey III peritonitis (American Society of Colon and Rectal Surgeons [17], World Society Emergency Surgery [23] and European Society of Coloproctology [18]).

Despite technical improvements and new surgical devices, anastomotic leak (AL) remains the most common cause of post-operative mortality and complications after sigmoidectomy [88]. Even if several studies identified several risk factors for AL (such as male sex, elderly age, obesity, severe comorbidities, prolonged surgery time, perioperative blood transfusions, and low anastomosis), an accurate anastomotic technique (tension-free, adequate blood supply, inverted anastomosis) is mandatory in order to reduce the incidence of AL [89]. Moreover, an anastomosis should be avoided in patients in critical conditions, under inotropes and on long-term steroid treatment.

The ESCP recommended the preservation of IMA (In cases where there is no suspicion of cancer, IMA-preserving surgery can be performed to optimize preservation of the vascularization and the autonomic nerves) [18] although a meta-analysis failed to demonstrate the advantages of IMA preservation at reducing the risk of anastomotic leakage (RR 0.59, 95% CI 0.26–1.33) (Fig. 12) [90]. The IMA-preserving technique is performed by ligating the sigmoid vessels close to the colon, but this manoeuvre can be challenging due to mesosigmoid fibrosis commonly associated with the inflammation of the myoenteric plexus (40%) [91]. For this reason, the skeletonization of the sigmoid mesentery close to the bowel wall might be safer with the use of “cut and tie” devices [92]. Another option would be the much easier low ligation of the IMA after the origin of the left colic artery. With this manoeuvre, the IMA is prepared at its bifurcation, well away from the preaortic and hypogastric nervus plexa, where it can be easily ligated along with the IMV that runs exactly above the bifurcation. This approach looks much more prudent than the intramesosigmoid dissection also as it guarantees an adequate lymphadenectomy in the case of an unexpected carcinoma in the surgical specimen.

In conclusion, the decision on whether to proceed with surgery in patients with DD should be individualized based on the most recent evidence. At present, judicious surgeons should exhaustively explain and discuss with the patients and their relatives about the uncertain benefits and the potential risks of the different type of surgical treatments and surgical access before performing the intervention in elective or emergency setting.

New studies are needed, especially in the long-term period, to provide additional data that can confirm the results of actually evidence reported.