Aortoesophageal fistula and arch pseudoaneurysm after removing of a swallowed chicken bone: a case report of one-stage hybrid treatment
- 549 Downloads
Aortoesophageal fistula (AEF) and arch pseudoaneurysm are rare complications induced by a foreign body, and considerable controversy remains regarding the appropriate management strategies. We herein report a successful one-stage hybrid treatment in a patient with AEF and arch pseudoaneurysm.
The patient, a 40-year-old man, presented to the emergency room because of intense retrosternal discomfort for 3 days and hematemesis for 3 h. The esophagoscopy and thoracic enhanced computed tomography (CT) showed two irregular mural ulcers in the esophagus and a large saccular pseudoaneurysm at the aortic isthmus, respectively. The laboratory examinations confirmed no widespread inflammation and infection. We have successfully performed a successful one-stage hybrid treatment for this patient. Six-month follow-up shows the patient is in good condition and the esophagoscopy reveals the two mural ulcers had completely healed.
The treatment decision-making process should depend upon the patients’ specific situations. Our case suggest the one-stage hybrid treatment could be an valuable alternative in some selected patients.
KeywordsAortoesophageal fistula Pseudoaneurysm Thoracic aorta Endovascular treatment Stent-graft
Thoracic endovascular aortic repair
Accidental swallow of foreign bodies is a relatively common condition encountered in the emergency room, but it rarely causes severe complications. Although some may become entrapped within the esophagus, it can be safely and effectively managed with endoscopy . Esophageal perforation and formation of a pathologic communication between the aorta and esophagus in the setting of a previous esophagoscopic treatment of impacted foreign body is particularly unusual. Here we present our successful experience in managing a patient with AEF and arch pseudoaneurysm late after removing of a chocked chicken bone by one-stage, multidisciplinary strategy of combined endovascular and open surgical approach.
After multidisciplinary discussion, one-stage hybrid approach was accepted as reasonable and life-saving. Firstly, the patient underwent urgent aortic endovascular repair. A 12 mm double-disk vascular occluder (SHSMA Co. Ltd., Shanghai, China) was advanced into the long sheath then the pseudoaneurysm through its neck. Under fluoroscopic guidance, the anterior disc of the occluder was deployed in the pseudoaneurysm and pulled back gently against the rim of the neck. Further withdrawal of the sheath was made to release the waist of the occluder cross the neck and then the posterior disc in the aortic lumen. A thoracic stent graft (straight 30 mm × 20 cm; Valiant Captiva, Medtronic) was then introduced and deployed at the distal aortic arch covering the occluder and the ostium of the left subclavian artery. Angiography on completion revealed no leakage into the aneurysmal sac. An additional movie file shows this in more detail [see Additional file 1]. Subsequently, an exploratory left thoracotomy through the 5th intercostal space was performed. The pseudoaneurysm and adjacent hematoma was found below the azygos arch, and no signs of significant infection and active bleeding were found in the mediastinum. Intraoperative cultures were negative. After careful debridement, the dead space between the aorta and esophagus was filled with a viable pedicle flap of the omentum. A jejunostomy fistula tube and nasogastric tube were inserted for nutritional support and to drain digestive juice separately for 10 days. Two chest tubes were inserted for mediastinal irrigation and drainage.
Discussion and conclusions
Esophageal perforation due to foreign body ingestion is relatively unusual in adults, and is rare when it causes an abnormal communication from the esophagus to aorta (0.08%–0.14%) [2, 3, 4]. Typical patients suffering from this complication were presented with a clinical triad of mid-thoracic chest pain, sentinel arterial hemorrhage and fatal hemorrhage, which was firstly summarized by Chiari  as “aorta-esophageal syndrome” or was also known as AEF.
The exact pathogenesis of AEF remains to be fully understood. Several studies suggested that esophageal ischemia secondary to elevated pressure in the posterior mediastinum, inflammation of the resorbed hematoma or mechanical compression by surrounding organs could be a causative factor [2, 6, 7]. In this case, impacted chicken bone could firstly lead to inflammation and ulceration of the esophageal wall. Moreover, the integrity of the adjacent aortic wall might also be impaired, which predisposed the formation of pseudoaneurysm. Although the chicken bone was removed uneventfully, pressure necrosis of the lacerated esophageal wall due to ongoing compression of the enlarged pseudoaneurysm would ultimately create an AEF late after initial impaction.
AEF is a devastating and usually life-threatening condition with a fatality rate of 40%–60% [2, 3, 4, 6, 7]. Conservative medical management of AEF patients almost invariably results in a fatal outcome . Thus, surgical intervention was regarded as the only effective solution . Traditional open repair includes combined replacement or bypass the involved aortic area of the fistula with concomitant repair or resection of the affected esophagus. However, the operative mortality was reported as high as 45.4–55% [8, 9, 10], which are due to the emergent nature of surgery, high risk of great vessel injury in an infected area, the need for aortic cross-clamping and significant blood loss.
Thoracic endovascular aortic repair (TEVAR) is less invasive than open surgery and enables rapid exclusion of aortic fistula and control of fatal hemorrhage. For AEF patients with unstable hemodynamics, TEVAR should be considered as a first-choice life-saving procedure [3, 4]. As our patient was admitted with hemorrhagic shock, we performed TEVAR at first without hesitation. However, the proximal landing zone was inadequate because of the short distance (<1.0 cm) between the neck of pseudoaneurysm and the ostium of left carotid artery. An occluder combined with aortic stent was used to facilitate a complete exclusion of the aneurysm sac. An innominate artery-to-left carotid artery-to-left subclavian artery bypass prior to the TEVAR procedure could be an alternative to obtain an adequate proximal landing zone. However, in this case, the instable hemodynamics prevented us from performing these time-consuming procedures. Moreover, the early trans-membrane leakage after stent deployment was another concern, and therefore we chose the occluder to secure a complete exclusion of the aneurysm.
Even if associated with favorable perioperative outcomes, TEVAR alone leaves the source of contamination (esophageal or bronchial perforation) untreated and incurs a risk of stent graft infection and/or fistula recurrence , which was also reported in the scenario of aortobronchial fistula . Debate has begun on whether TEVAR can be used as a definitive procedure or as a bridging measure for further open esophagectomy and aortic replacement [4, 7]. In this case, an exploratory thoracotomy was performed immediately after TEVAR. Because no sign of infection in the mediastinum was detected, the esophageal fistula was not treated. Even though, omentopexy, which was reported to be highly useful to enhance healing process in an infected or fragile area [3, 7], was performed to occupy the dead space after hematoma debridement.
Based on our limited experience learned from this unique case, we suggested that management options for AEF patients should depend upon the location and extent of aortic involvement, severity of mediastinal infection and patients’ overall health status. For patients with initial hemodynamic stability, aortic intervention preferably with TEVAR should be done as soon as possible, because this condition can deteriorate rapidly once started bleeding. For patients with initial hemodynamic instability, various endovascular techniques could be used to restore the integrity of the aorta. Subsequently, an exploratory open surgery is important for further treatment decision-making. If patient do not exhibit widespread inflammation and infection, extensive debridement followed by omentopexy and abundant mediastinal irrigation seem to offer satisfactory results. Otherwise, simultaneous or staged esophagectomy and aortic replacement might be reliable for better outcomes of this condition. Adequate antibiotic treatment and lifelong imaging surveillance is mandatory, and a PET-imaging is a useful technique for these patients with any suspected signs of post-surgery infection.
AEF and arch pseudoaneurysm induced by a foreign body are rare but severe complications. The treatment decision-making process should depend upon the patients’ specific situation. Our practice indicates that the one-stage hybrid treatment could be a valuable alternative in some selected patients.
This study was funded in part by the National Natural Science Foundation of China (No.81300155 and 81670327).
Availability of data and materials
All data generated or analyzed during this study are included in this published article.
All authors participated in the management of the patient in this case report. JYS drafted the manuscript. HWZ, KJF and HL wrote part of discussion and introduction. HJ supervised the case and also supervised the writing of the manuscript. EYZ is a chairperson of our department and supervised the entire process. All authors read and approved the manuscript.
Ethics approval and consent to participate
Consent for publication
Written informed consent was obtained from the patient for publication of this Case report and any accompanying images. A copy of the written consent is available for review by the editor of this journal.
The authors declare that they have no competing interests.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
- 5.Chiari H. Ueber Fremdkorperverletzung des Oesophagus mit Aortenperforation. Ber KlinWochenschr. 1914;51:7–9.Google Scholar
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.