|Diverse presentation of secondary aortoenteric fistulae.|
|Jump to Full Text|
|PMID: 22242028 Owner: NLM Status: PubMed-not-MEDLINE|
|Secondary aortoenteric fistula, due to mechanical erosion or infection of a prosthetic graft, is a very rare cause of gastrointestinal bleeding and an uncommon complication of abdominal aortic aneurysm repair. A retrospective chart review conducted at our institution revealed 5 cases of secondary AEF occurring between 2006 and 2010. Presentations were diverse, including hematemesis, coffee-ground emesis, and unexplained sepsis. Delay in diagnosis was common. In reporting these cases, we seek to highlight the diverse clinical spectrum and potentially misleading features of this condition. Clinicians must retain a high index of suspicion to avoid potentially catastrophic outcomes.|
|Tracey Simon; Edward Feller|
Related Documents :
|16828678 - Peering at peer review revealed high degree of chance associated with funding of grant ...
9165418 - Teleradiology for remote diagnosis: a prospective multi-year evaluation.
17183008 - Why do peer reviewers decline to review? a survey.
18666388 - Physiologic anemic macules.
19505558 - Local uses of aristolochia species and content of nephrotoxic aristolochic acid 1 and 2...
2599258 - Chronic tuboovarian abscess due to staphylococcus aureus: a case report and literature ...
|Type: Journal Article Date: 2011-12-29|
|Title: Case reports in medicine Volume: 2011 ISSN: 1687-9635 ISO Abbreviation: Case Rep Med Publication Date: 2011|
|Created Date: 2012-01-13 Completed Date: 2012-08-23 Revised Date: 2013-02-21|
Medline Journal Info:
|Nlm Unique ID: 101512910 Medline TA: Case Rep Med Country: United States|
|Languages: eng Pagination: 406730 Citation Subset: -|
|Department of Health Services, Policy and Practice, Alpert Medical School, Brown University, Providence, RI 02912, USA.|
|APA/MLA Format Download EndNote Download BibTex|
Journal ID (nlm-ta): Case Report Med
Journal ID (publisher-id): CRIM
Publisher: Hindawi Publishing Corporation
Copyright © 2011 T. Simon and E. Feller.
Received Day: 1 Month: 8 Year: 2011
Accepted Day: 6 Month: 10 Year: 2011
Print publication date: Year: 2011
Electronic publication date: Day: 29 Month: 12 Year: 2011
Volume: 2011E-location ID: 406730
PubMed Id: 22242028
|Diverse Presentation of Secondary Aortoenteric Fistulae|
|Department of Health Services, Policy and Practice, Alpert Medical School, Brown University, Providence, RI 02912, USA
|Correspondence: *Tracey Simon: firstname.lastname@example.org
[other] Academic Editor: Gerald S. Supinski
Aortoenteric fistula (AEF), due to mechanical erosion or infection of a prosthetic graft into the duodenum, is a very rare cause of gastrointestinal (GI) bleeding and an uncommon complication of abdominal aortic aneurysm (AAA) repair [1–3]. The most frequent presenting feature is upper GI (UGI) bleeding, which can range from a minor “herald” bleed to exsanguinating hemorrhage. Infrequently, AEF may manifest with atypical, nonspecific symptoms such as fever, sepsis, or unexplained abdominal pain. We report 5 cases of AEF to highlight the diverse clinical spectrum and potentially misleading features of this catastrophic condition.
Retrospective chart review at a general medical-surgical hospital over a 4-year period identified five patients, including three men and two women (age range 59–85) with AEF and a prior history of open abdominal aorta repair (Table 1). Presentations were diverse, including hematemesis, coffee-ground emesis, massive hematochezia, chronic, intermittent UGI bleeding, and unexplained sepsis. Delay in diagnosis was common. Two of three patients who underwent UGI endoscopy had initial false-negative results. One of these three had a graft visualized in the descending duodenum on repeat UGI endoscopy, performed because of rebleeding. Three patients underwent CT; however, only one was diagnostic of AEF. One patient had unsuccessful emergent, exploratory laparotomy, after cardiac arrest from exsanguinating hemorrhage. Two patients underwent successful surgical correction.
Fistulas may occur when an intact, unruptured prosthesis erodes into the duodenum or—more commonly—when the lumen of the aorta communicates directly with the bowel lumen, following graft disruption (Figure 1). Mechanisms for fistula formation include (1) bacterial seeding of a prosthetic graft, allowing extension of infection to a suture line, producing anastomotic failure. This results in perigraft infection or subsequent AEF. (2) Bowel damage, especially during emergency graft insertion, may lead to bowel wall trauma and ischemia. (3) Mechanical injury, including foreign body inflammation, trauma, devascularization, suture line failure, or graft enlargement. (4) Pseudoaneurysms or paragraft abscesses may compress, erode, or invade the bowel lumen. (5) Mechanical erosion of the GI tract may be facilitated by prosthesis-induced inflammation and adhesions.
Most AEFs are found at the 3rd or 4th portions of the duodenum, near the surgical site, but can occur in atypical locations [4, 5]. Infection is the most frequent fistula precipitant . The classic, self-limited “herald bleed” may be due to mucosal bleeding from an initially intact graft or to transient occlusion of a small fistula, by clot. However, it is important to note that the classic triad of pain, UGI bleeding, and a pulsatile abdominal mass are present in less than 25% of cases . Further, the self-limited nature of the “herald” bleed increases the risk that it may be missed or ignored [1, 2, 8].
Sepsis may be the predominant clinical manifestation, particularly in the early stages of fistula formation, if the bowel contents remain confined to the paragraft space. In such a “paraprosthetic-enteric fistula,” the fistula tract has not yet extended into the vascular lumen. These patients will more likely present with nonspecific symptoms related to the infection itself . As in one of our cases, CT imaging may reveal periaortic graft gas (Figure 2). If, over time, the infection erodes into the aorta, GI bleeding may then occur.
Fistulas present in diverse guises, including GI bleeding of any magnitude, subacute or chronic abdominal or back pain, fever, or sepsis. Unexplained fever is an uncommon and underrecognized early manifestation of AEF, as in one of our cases (Table 1). Rare and nonspecific manifestations include weight loss or malaise, lower extremity ischemia, visceral or muscle abscess, or septic arthritis due to septic emboli [5, 10]. When a patient with a prior abdominal aortic graft develops abdominal pain, GI bleeding, or sepsis, the presence of a fistula should be considered until disproved.
Delayed diagnosis is common and potentially catastrophic. A review of 18 studies indicated a median time to correct diagnosis of eight days (range: 0 hours–18 months) . This group also reported a median elapsed time between the primary surgery and the occurrence of AEF of 47 months, with a range of 2 days to 24 years . Possible explanations for diagnostic delay include (1) inappropriately low index of suspicion in GI bleeding; (2) GI bleeding that may be disarmingly benign; (3) occurrence of the event many years after surgery; (4) difficulty in evaluating the distal duodenum with possible false-negative result from UGI endoscopy or imaging studies; (5) atypical, nonspecific manifestations such as isolated fever or sepsis, weight loss, malaise, or abdominal pain; (6) rare occurrence without prior surgery (primary AEF from trauma, tumor, penetrating ulcer, or expanding aneurysm); (7) atypical fistula locations, such as esophagus, distal small bowel, or colon [10, 11].
Diagnostic strategy depends upon hemodynamic stability. The most frequent initial diagnostic test for possible UGI bleeding is UGI endoscopy. Visualization of a pulsatile bleeding mass or graft in the 3rd or 4th portion of the duodenum is diagnostic. AEF is strongly suggested by bleeding arising from a point distal to the 2nd portion of the duodenum—a location difficult to visualize endoscopically, with accuracy as low as 30 percent [5, 10]. Endoscopy may be most useful in detecting or excluding an alternative cause of bleeding. Use of a long, side-viewing duodenoscope may enhance fistula diagnosis by optimizing visualization of the distal duodenum .
CT with contrast enhancement is another useful diagnostic tool. It can demonstrate the fistula itself or detect indirect signs of infection, such as gas or liquid surrounding the graft [9, 10, 12]. CT angiography, rather than conventional angiography, is being used increasingly to visualize the aortic lumen, the aortic/graft wall, and the duodenum/jejunum, as well as to document any extravascular collections or active contrast extravasation.
In the emergent setting—common in AEF with exsanguinating bleeding—there is often insufficient time for any diagnostic procedure. Data indicates the CT scan confirms the diagnosis in only 33–80% of patients, and emergent endoscopy is rarely employed in the absence of GI bleeding . Confirmation of diagnosis is therefore made by emergency surgical exploration.
AEF is an infrequent, life-threatening complication of aortic reconstructive surgery. Presenting features are diverse, frequently atypical, nonspecific, or disarmingly benign. Clinicians must have a high index of suspicion to avoid delayed or missed diagnoses. Endoscopists should attempt to visualize the fourth portion of the duodenum, by using a side-viewing duodenoscope, if available. If a patient with prior aortic reconstruction develops GI bleeding of any magnitude, fever, or sepsis, the presence of a fistula should be considered until disproved.
|1.||Alankar S,Barth MH,Shin DD,Hong JR,Rosenberg WR. Aortoduodenal fistula and associated rupture of abdominal aortic aneurysm after endoluminal stent graft repairJournal of Vascular SurgeryYear: 200337246546812563224|
|2.||Heikkinen L,Valtonen M,Lepantalo M,Saimanen E,Jarvinen A. Infrarenal endoluminal bifurcated stent graft infected with Listeria monocytogenesJournal of Vascular SurgeryYear: 199929355455610069921|
|3.||Velázquez OC,Carpenter JP,Baum RA,et al. Perigraft air, fever, and leukocytosis after endovascular repair of abdominal aortic aneurysmsAmerican Journal of SurgeryYear: 1999178318518910527435|
|4.||Geraci G,Pisello F,Li Volsi F,et al. Secondary aortoduodenal fistulaWorld Journal of GastroenterologyYear: 200814348448618200675|
|5.||Saratzis N,Saratzis A,Melas N,Ktenidis K,Kiskinis D. Aortoduodenal fistulas after endovascular stent-graft repair of abdominal aortic aneurysms: single-center experience and review of the literatureJournal of Endovascular TherapyYear: 200815444144818729556|
|6.||Ueno M,Iguro Y,Nagata T,Sakata R. Aortoenteric fistula after endovascular stent grafting for an abdominal aortic aneurysm: report of a caseSurgery TodayYear: 200636654654816715427|
|7.||Busuttil SJ,Goldstone J. Diagnosis and management of aortoenteric fistulasSeminars in Vascular SurgeryYear: 200114430231111740838|
|8.||Bastounis E,Papalambros E,Mermingas V,et al. Secondary aortoduodenal fistulaeJournal of Cardiothoracic Surgery (Torino)Year: 200445334347|
|9.||Chenu C,Marcheix B,Barcelo C,Rousseau H. Aorto-enteric Fistula after endovascular abdominal aortic aneurysm repair: case report and reviewEuropean Journal of Vascular and Endovascular SurgeryYear: 200937440140619211278|
|10.||Bergqvist D,Bjorck M. Secondary arterioenteric fistulation—a systemic literature analysisEuropean Journal of Vascular and Endovascular SurgeryYear: 2009371314219004648|
|11.||Mylona S,Ntai S,Pomoni M,Kokkinaki A,Lepida N,Thanos L. Aorto-enteric fistula: CT findingsAbdominal ImagingYear: 200732339339717021648|
|12.||Balink H,Reijnen MMPJ. Diagnosis of abdominal aortic prosthesis infection with FDG-PET/CTVascular and Endovascular SurgeryYear: 200741542843217942858|
|13.||Wheelock FC Jr.,Prat J. Gastrointestinal bleeding in a man with a history of duodenal ulcer and peripheral vascular diseaseNew England Journal of MedicineYear: 197729715828834302413|
Previous Document: Acute management of cocaine-associated methaemoglobinaemia.
Next Document: Topical ophthalmic cyclosporine in the treatment of toxic epidermal necrolysis.