Leaks/fistulas

Leaks are the most common serious adverse event associated with bariatric surgery, with rates varying from 0.4 to 5.6% after Roux‐en‐Y gastric bypass (RYGB) and 1.9–5.3% after laparoscopic sleeve gastrectomy (LSG), with increasing rates after revision surgeries [1–4]. Leaks are often located at the suture and anastomosis line and are defined as a communication between intra‐ and extraluminal compartments due to a defect in the gastrointestinal (GI) wall. Fistulas usually occur due to an untreated long‐term leak and can be divided into either internal (between an abdominal organ and another organ) or external (extending from an abdominal organ to the skin surface). Chronic fistulas involve an epithelialized tract that is typically surrounded by unhealthy tissue making this one of the most challenging adverse events to treat endoscopically [1, 3].

An upper endoscopy is performed, and suspected sites of leak or fistula are carefully evaluated. Precise diagnosis of the fistula site is essential prior to any therapy. Leak sites are confirmed with methylene blue injection through an existing drain and/or by fluoroscopy using water‐soluble contrast. Understanding the surgical anatomy, post‐procedural complications, and endoscopic techniques for optimal management is essential. In addition to treating the leak or fistula, it is essential to also treat any distal obstruction, either with balloon dilators or luminal stents, and to remove foreign bodies (FBs) from the leak site such as staples, sutures, and external drains that may be close to the defect [1] in order to optimize outcomes.

Leaks after RYGB may appear in several locations such as the gastric pouch, the GJA, and the excluded stomach and occasionally in the blind portion of the Roux limb and the GJA. Leaks after LSG occur along the superior staple line just below the gastroesophageal junction (GEJ). Timing of the leak, as classified in the international consensus, is essential in choosing the appropriate treatment [11]. If the leak is acute (<7 days) or early (<45 days), CSEMS are recommended. CSEMS work by covering the orifice of the leak and also shaping the stomach and treat distal obstruction/stenosis [12]. The overall success rate of CSEMS was 72.8% for LSG leaks and 76.1% for RYGB leaks, with a migration rate of about 30% [13]. Therefore, proximal stent fixation, either with endoscopic suturing or cap‐mounted clips or with the nasal bridle technique, should be considered [13–15]. More distal leaks are not good candidates for stent placement and have worse outcomes. In the literature, some case series describe several options for endoscopic treatment of these leaks, including TTSCs, cap‐mounted clips, suturing devices, and tissue sealants [16, 17]. In case of extraluminal collections in early leaks, drainage is needed (surgical, radiological, or endoscopic). During endoscopic internal drainage (EID), it is possible to introduce the endoscope into the cavity to wash the contents, followed by placement of double pigtail stents or endoscopic vacuum therapy (EVT) [12, 18, 19].

In chronic bariatric leaks and leaks with a well‐defined extraluminal cavity, stents are not effective, and therefore EID is indicated, either with pigtails, EVT, or septotomy [18, 20, 21]. Septotomy should only be performed if there is a well‐defined septum between the perigastric cavity and the gastric lumen to allow communication between them [12, 19]. Additionally, the use of a cardiac septal occluder (CSO) showed satisfactory results in the management of chronic fistulas after bariatric surgery [3, 22]. Gastrogastric fistulas can be managed with closure devices, such as endoscopic suturing. However, long‐term outcomes remain suboptimal, especially for fistulas larger than 1 cm [14, 23]. An alternative approach to treat a large gastrogastric fistula in RYGB patients who present with weight regain is to perform endoscopic sleeve gastroplasty (ESG) of the remaining stomach through the fistula [24].

It is important to note that there is not enough data to establish a precise algorithm for post‐bariatric leaks and fistulas. Local expertise should be considered when choosing the best approach. Figure 23.3 shows several endoscopic devices and techniques for the treatment of leaks and fistulas after bariatric surgery.

Stenosis

GJA stenosis following bariatric surgery has been reported to be as high as 31% [5, 6]. Patients usually present with obstructive symptoms especially when the GJA diameter is <10 mm [25]. Endoscopically this can be managed by balloon dilation, injection therapy, or incisional therapy. Therapy should not be performed in the setting of active ulceration. Balloon dilation is the standard approach and is successful in over 95% of cases, often requiring 2–3 sessions [5, 6, 25]. Caution should be made to not overdilate the GJA to greater than 15 m as patients may experience weight gain. Outlets refractory to balloon dilation should be carefully examined for suture material in the adjacent area, as this may prevent balloons from achieving their maximal radial force. If suture material is present, endoscopic shears and forceps may be used for removal. If no extrinsic barriers are present, inflammatory, fibrotic, and postsurgical tissue changes should be considered and potentially addressed using injection therapy with saline or steroids. This potentially breaks up scar tissue and may aid with subsequent dilations. A more invasive approach for stenosis refractory to dilation involves incisional therapy using an electrocautery needle‐knife. This is an advanced technique and is performed by creating short perpendicular linear incisions around the outlet with subsequent dilation [26, 27]. Additionally, lumen‐apposing metal stent has been used in the management of benign strictures, with satisfactory results [28]. Key concepts for the management of outlet stenosis include avoidance of overdilation as this carries an increased risk of perforation and weight regain and careful inspection of the surrounding mucosa for suture material.

Sleeve stenosis is the second most common adverse event following sleeve leaks, with an incidence rate between 0.7 and 4%. Two different entities can cause the obstruction: mechanical stenosis, often in the body of the sleeve, and axial deviation, occurring at the level of the incisura angularis [2, 29, 30]. Clinically, these patients present with obstructive symptoms such as nausea, vomiting, retrosternal burning, epigastric pain, early satiety, and rapid weight loss. To confirm the diagnosis of sleeve stenosis, radiologic imaging and upper endoscopy are essential [29, 30]. Endoscopic management with achalasia balloon dilation (ABD), stent placement, or both can be used, with success rates up to 86.6%. Additionally, a recent technique to treat stenosis after LSG was described by de Moura et al. [2], named endoscopic tunneling stricturotomy. This technique involves advanced endoscopic techniques, including submucosal tunneling, stricturotomy, and suturing.