Introduction
Squamous cell carcinoma of the esophagus is the eighth most frequent cancer in the world, whereas carcinoma of esophagogastric junction (OGJ) is the tumor with the highest dynamics of incidence in the last two decades [
1‐
4].
It is estimated that in North America there are 5–10 cases of esophageal cancer per 100,000 inhabitants; however, depending on the geographical area, the incidence may increase up to 100/100,000, such as in Iran [
5,
6].
Multimodal treatment consisting of preoperative chemoradiation therapy followed by complete resection and lymphadenectomy is a standard in therapeutic management. However, curative-intent treatment is possible in only 20–40% of patients. In a majority of them, palliative management is the only option, due to local advancement and/or distant metastases [
7]. In such cases, options of palliative treatment include: chemo- and/or radiation therapy, brachytherapy, stenting, laser ablation and photodynamic therapy. Among them, stenting has a unique advantage of immediate relief of dysphagia. Although stenting is a safe and effective way to relieve the symptoms of dysphagia and to improve the comfort of life, it is not free from side effects, which may occur in the early and late period after its implantation. Among the side effects, mild symptoms can be distinguished, which do not require intervention, but also life-threatening and fatal ones [
8,
9].
In this study, we present one of the largest retrospective analyses with prospective follow-up of patients with esophageal cancer, who underwent esophageal stenting due to unresectability of the tumor or medical inoperability. The aim of this study was to evaluate the safety and efficacy of stenting in patients with esophageal squamous cell carcinoma and carcinoma of the esophagogastric junction, complications, re-interventions and survival after the treatment.
Materials and methods
This retrospective analysis of hospital records included data of a consecutive group of patients with advanced esophageal carcinoma, treated between 2008 and 2015 in Department of Thoracic Surgery, Jagiellonian University Collegium Medicum. Demographic and clinical data including age, sex, weight, dysphagia, dyspnea, chemotherapy/chemoradiation, technical success rate, stent migration, complications and survival were evaluated.
Inclusion criteria
The study included all patients treated in the period 2008–2015 for unresectable or medically inoperable esophageal or (OGJ) cancer, regardless of histological type.
Exclusion criteria
Exclusion criteria included:
-
Preterminal condition, Karnofsky score ≤ 40%;
-
Patients with mediastinal infiltration causing dysphagia in the course of lung cancer, lymphomas and other malignancies.
Pre-treatment assessment
Unresectability was determined on the basis of chest radiography, abdominal ultrasound, computed tomography (CT) of the chest and the upper abdomen, positron-emission tomography (PET) and endoscopy, with the endoscopic ultrasound (EUS) and endobronchial ultrasound (EBUS). Disease staging was based on the UICC classification [
10]. Dysphagia was assessed according to a four-grade scale [
11]:
-
0—no dysphagia;
-
1—swallowing of a semiliquid diet;
-
2—swallowing of a liquid diet;
-
3—dysphagia to the liquids and saliva.
Patients diagnosed with fistula in the course of esophageal or bronchogenic cancer were classified into four groups according to fistula location [
12]:
-
Type 1—fistula to the mediastinum;
-
Type 2—fistula to the trachea;
-
Type 3—fistula to the bronchus;
-
Type 4—fistula after stenting.
Dyspnea severity was assessed with a four-grade scale [
12]:
-
0—less than 30% of tracheal or/and bronchial stenosis, no dyspnea;
-
1—30–50% stenosis, dyspnea upon exercise;
-
2—50–70% stenosis, dyspnea during daily activities;
-
3—more than 70% stenosis, dyspnea while resting.
Patient performance status was assessed according to Karnofsky score [
13].
Intervention
Esophageal stenting was performed under general anesthesia. Location of the stenosis was endoscopically identified, and in case of narrow stenosis, dilatation was performed with Savary–Gilliard dilators, up to the size of 10 Fr. After the dilatation, the neoplastic infiltration length was assessed using a small-diameter endoscope, then a guidewire was inserted and the esophageal stent was introduced over it. Deployment of the stent was performed under endoscopic control. Partially covered self-expandable metallic stents (70, 90 or 120 mm long and 18 mm diameter, Ultraflex, Boston Scientific, Natick, MA, USA) were used.
Double stenting was performed in patients with unresectable esophageal cancer involving the airway, with dysphagia and dyspnea;
As a rule, airway stenting was performed before esophageal stenting. The double stenting procedure was performed under general anesthesia. The self-expandable Ultraflex stents (Boston Scientific, Natick, MA, USA) were used for stenting of fistulas to the trachea and silicone Y stents (Demed, Mikołów, Poland) in case of fistula located in the tracheal bifurcation and main bronchi. Stenting with the use of silicone Y stents was performed using the Freitag forceps according to the technique described elsewhere [
14].
Complications
Peri-, intra- and postoperative complications and any additional procedures were recorded. Complications after stenting were classified as minor or major. Minor complications were defined as those subsiding spontaneously or following pharmacological treatment only, potentially requiring endoscopy. All other, including life threatening or fatal, were defined as major complications.
Postoperative complications were defined as early (occurring within ≤ 30 days following stenting) or late (occurring later than > 30 days following stenting).
Follow-up
Following the procedure, patients received a liquid diet the same day. Routinely, on the first day after the procedure a follow-up chest radiogram was obtained and dyspnea and dysphagia scores were assessed. Patients received detailed instructions regarding nutrition at discharge from the hospital. Patients were followed up every 30 days thereafter. If the follow-up visit in the clinic was not feasible, patients were interviewed by phone. During the follow-up visit, the patients’ general condition, dysphagia and dyspnea were assessed.
Statistical analysis
Statistical analysis was performed using the STATISTICA 11 PL software package (StatSoft, Tulsa Oklahoma, USA). The Mann–Whitney test was used to compare two samples. Kruskal–Wallis test was used to compare three or more attempts. In order to evaluate the changes over time (dysphagia before and after stenting, migration), the Wilcoxon signed rank test was applied. To assess the significance of connections between data on nominal scale, the Fisher’s Chi-square test or Fisher’s exact test was used. The logistic regression model was used to find the risk factors for complications after stenting. If an important factor was found, odds ratio (OR) was calculated along with 95% confidence interval. Survival was calculated using Kaplan–Meier method. Gehena–Wilcoxon test was used to compare survival curves. p < 0.05 was considered as statistically significant.
Discussion
A primitive stent was used for the first time for intubation of the esophageal stenosis in 1885, and rapid development of stenting occurred together with the development of endoscopy [
5,
15]. In the 1970s and 1980s, rigid and semirigid stents were used, and since the 1990s, non-covered, partially covered and fully covered self-expandable stents have been available. Despite technological advancements and simplicity of implantation, their use is not free from life-threatening complications [
8,
16,
17]. Stenting in inoperable esophageal cancer is an attractive alternative to surgical gastro-jejunostomy, enabling oral nutrition, improvement in metabolic status and comfort of life, but also allowing complementary treatment (chemo and/or chemo-radiotherapy). It is a relatively simple procedure; however, due to the anatomical relationship of the esophagus to the bronchial tree, possible complications and re-interventions after stenting, this treatment should be planned in reference centers.
One of the most frequent complications of esophageal stenting is ingrowth or overgrowth of granulation tissue or tumor at the ends of the stent. In our study, the percentage of tissue overgrowth was 11.99%, with the applied stenting margin of 4 cm. These results are consistent with the literature data, showing its incidence of 4–47% (higher in cases of the use of non-covered stents) [
17,
18]. Results are much better if covered stents are used: Ingrowth of granulation tissue can occur only at the uncovered ends of the stent. Reportedly, it was observed in 3–18% of cases [
19‐
22] which, again, corresponds with our results. The mechanism of overgrowth of granulation tissue is not precisely known, but according to some authors it grows more slowly in stents with lumen diameter of 18 mm [
23]. This was, however, not confirmed in other studies using stents with wide diameter of 23 mm [
24,
25].
The second most frequent complication is stent migration, which reportedly occurs in 0–20% cases [
21‐
23]. Our results confirm the finding of chemotherapy or chemoradiation as an independent risk factor for migration. In the randomized study on stenting in unresectable gastric cancer, Lee et al. observed statistically significant differences in migration and obstruction for uncovered stents compared to covered stents (9.5 vs. 5.4 and 7.1 vs. 37.8%) [
26]. Van den Berg et al. [
27] performed stenting procedures of OAF and of postoperative anastomotic leaks using the 23 mm stents and did not confirm their superiority regarding risk of migration. In a randomized study, Siersma et al. demonstrated that 12 out of 13 migrations were associated with smaller stent diameter and only one was associated with larger diameter of the stent [
28]. As we only used 18-mm-wide stents, we could not analyze the impact of stent diameter on the risk of migration. On the other hand, the use of stents of larger diameter can be associated with a higher rate of perforations and bleeding [
23]. Sgourakis et al. [
29] did not observe an advantage of any kind of stents with regard to complications and reflux, even in cases of application of stents with antireflux valves. Based on the analysis of a group of 332 patients, Park et al. observed that stenting of an obstruction present in the area of EGJ and the administration of adjuvant chemoradiation therapy were independent risk factors for migration [
30]. Also, the stents with anti-migration mechanism (SX Ella, Niti S, Alimaax) do not always prevent migration effectively [
19,
31]. In our series, we did not find significant difference in migration rate regarding location of the stent.
Although esophageal stenting is characterized by a very high technical success rate, it is associated with the risk of life-threatening complications. One of them is development of an OAF following the procedure. According to the literature, it occurs in up to 10% of patients after the stenting procedure. Ferreira et al. reported the occurrence of such fistulas in 7 out of 126 treated patients and Uitdehaag et al. in 2 out of 44 patients, after the application of SX Ella stents with anti-migration mechanism [
20,
32]. In our group, OAF occurred after stenting in 15 (3.4%) patients.
Other most frequent severe complications include: hemorrhage, which occurs in 2–28%, perforations, perioperative mortality, which was estimated to be 0.5–7%, and a 30-day mortality that ranges from 7 to 18% [
20,
23,
32‐
37]. In our series, bleeding occurred in 6 (1.3%) patients, perforation in 3 (0.7%), perioperative mortality in 2 (0.4%) and 30-day mortality in 3 (0.7%). These results compare favorably with the literature data.
Esophageal stenting may enable the introduction of chemotherapy or chemoradiation. Chemotherapy enables relief of dysphagia and full oral nutrition, so the European Society of Gastrointestinal Endoscopy recommends its administration [
38,
39]. There is no clear statement whether it should be introduced before the stenting or after it. Also, adjuvant therapy is associated with risk of life-threatening complications [
38‐
40]. Yakami et al. reported a case of death as a result of fistula between the esophagus and the left atrium, which occurred after radiation therapy. The author suggests the application of stenting procedure in patients who do not respond to chemotherapy or chemoradiation [
41]. Park et al. reported that the administration of adjuvant therapy is an independent risk factor for the occurrence of stent migration and obstruction [
30]. In our series, chemotherapy or chemoradiation was associated with higher risk factor for stent migration and stent obstruction.
Generally, the use of partially covered self-expandable metallic stents in inoperable/unresectable esophageal cancer is safe and effective palliative procedure, with low rate of complications and perioperative mortality.