Korean Journal of Thoracic and Cardiovascular Surgery 2017; 50(6): 430-435  https://doi.org/10.5090/kjtcs.2017.50.6.430
Outcomes of Open Repair of Mycotic Aortic Aneurysms with In Situ Replacement
Hyo-Hyun Kim, Do Jung Kim, and Hyun-Chel Joo
Department of Cardiovascular Surgery, Severance Cardiovascular Hospital, Yonsei University College of Medicine
Corresponding author: Hyun-Chel Joo, Department of Cardiovascular Surgery, Severance Cardiovascular Hospital, Yonsei University College of Medicine, 50-1 Yonsei-ro, Seodaemun-gu, Seoul 03722, Korea, (Tel) 82-2-2228-8489 (Fax) 82-2-2228-8489 (E-mail) vietcomm@yuhs.ac
Received: May 12, 2017; Revised: July 27, 2017; Accepted: July 31, 2017.; Published online: December 5, 2017.
© The Korean Journal of Thoracic and Cardiovascular Surgery. All rights reserved.

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Mycotic aortic aneurysms are rare and life-threatening. Unfortunately, no established guidelines exist for the treatment of patients with mycotic aortic aneurysms. The purpose of this study was to evaluate the midterm outcomes of the open repair of mycotic thoracic and thoracoabdominal aneurysms and suggest a therapeutic strategy.


From 2006 to 2016, 19 patients underwent open repair for an aortic aneurysm. All infected tissue was extensively debrided and covered with soft tissue. We recorded the clinical findings, anatomic location of the aneurysm, bacteriology results, antibiotic therapy, morbidity, and mortality for these cases.


The median age was 62±7.2 years (range, 16 to 78 years), 13 patients (68%) were men, and the mean aneurysm size was 44.5±4.9 mm. The mean time from onset of illness to surgery was 14.5±2.4 days. Aortic continuity was restored in situ with a Dacron prosthesis (79%), homograft (16%), or Gore-Tex graft (5%). Soft-tissue coverage of the prosthesis was performed in 8 patients. The mean follow-up time was 43.2±11.7 months. The early mortality rate was 10.5%, and the 5-year survival rate was 74.9%±11.5%.


This study showed acceptable early and midterm outcomes of open repair of mycotic aneurysms. We emphasize that aggressive intraoperative debridement with soft-tissue coverage results in a high rate of success in these high-risk patients.

Keywords: Thoracic aortic aneurysm, Abdominal aortic aneurysm, Infected aneurysm, Aorta, surgery

Mycotic thoracic abdominal aortic aneurysms are rare, accounting for fewer than 1% of all aortic aneurysms. They are associated with a high incidence of fatal rupture when medical therapy alone is attempted. Although there are no standard guidelines for treatment, the most common practice is to combine antibiotic therapy with surgical resection and graft interposition [13]. The purpose of this study was to assess the midterm outcomes of open repair of mycotic aortic aneurysms with soft-tissue coverage during a 10-year period at the Severance Hospital, Yonsei University College of Medicine.


From January 2006 to December 2016, 19 patients underwent open repair of a mycotic aortic aneurysm. We reviewed prospectively collected data to identify patients who underwent surgical repair for mycotic aortic aneurysms. This study was conducted following approval by the Institutional Review Board of the Yonsei University College of Medicine (IRB number: 4_2011_0173). The individual patient consent was waived. Aneurysms were defined as mycotic if its characteristic appearance was observed in radiologic imaging or during an intraoperative examination, and if positive cultures were obtained from either blood or aortic tissue. Computed tomography (CT) imaging was used to determine whether the aneurysm was rapidly growing, had newly developed, and whether there was air in the aortic wall or a soft-tissue mass surrounding the aneurysmal aorta. The primary endpoints were in-hospital mortality and late death from any cause. The secondary endpoints were early major complications and a composite of late aortic events.

1) Surgical technique

All procedures were performed with sternotomy, left thoracotomy, or left thoracoabdominal or median abdominal incision, depending on the anatomic location of the aneurysm. Infected tissues were completely excised, and aortic continuity was restored with a Dacron prosthesis (Macquet Corp., Oakland, NJ, USA), homograft, or Gore-Tex (W. L. Gore & Associates, Elkton, MD, USA) graft. Cryopreserved arterial homografts were used in infections that were not controlled by antibiotic therapy. Soft-tissue coverage of the prosthesis was performed when permitted by the anatomy and patient condition [1,4,5].

2) Statistics

Data processing and analysis were performed using IBM SPSS ver. 20.0 (IBM Corp., Armonk, NY, USA). Results are expressed as frequency and percentage for categorical variables and as mean and standard deviation for continuous variables. All p-values <0.05 were considered to indicate statistical significance. Survival estimates were generated using the Kaplan-Meier method.


1) Patients and characteristics

Patient characteristics are listed in Table 1. The median age was 62±7.2 years (range, 16 to 78 years). The series of 19 patients consisted of 13 men (68.4%) and 6 women (31.6%). Nine patients (47.4%) had at least 1 comorbid condition associated with some degree of immunosuppression, including 6 (31.6%) with diabetes mellitus, 4 (21.0%) with chronic renal disease, or 2 (10.5%) with benign or malignant tumors.

2) Symptoms and clinical findings

In this study, 95% of patients presented with aneurysm-related symptoms: pain (n=10, 53%), fever (n=8, 42%), or hematochezia or hemoptysis (n=4, 21%). Preoperative CT was performed in all patients; the mean aneurysm size was 44.5±4.9 mm. Six patients (31.5%) had a contained rupture at the time of surgery. The average duration of symptoms before surgery was 14.5±4.7 days.

3) Anatomic location

Of the 19 mycotic aneurysms, 3 (15.8%) were ascending, 6 (31.6%) were descending thoracic, 2 (10.5%) were thoracoabdominal, and 8 (42.1%) were abdominal.

4) Surgical procedure

Following radical debridement of the infected tissue, Dacron grafts (n=15, 78.9%) (Fig. 1A), cryopreserved arterial homografts (n=3, 15.8%) (Fig. 1B), or a Gore-Tex graft (n=1, 5.3%) was placed in situ in the normal anatomic position. Nine patients (47.4%) had additional soft-tissue coverage, including 8 (42.1%) with an omental flap (Fig. 1C) and 1 (5.3%) with a pectoralis major muscle flap (Table 2).

5) Bacteriology and antibiotic treatment

Blood cultures were positive for Staphylococcus aureus in 4 patients (21%), while 3 (15.7%) had Enterobacter species. Nine (47%) had negative culture results. The remaining results of the bacteriological analysis are outlined in Table 2. Patients were initially administered broad-spectrum antibiotics, followed by targeted antibiotics after the causative organisms were identified and their susceptibility analyzed. Broad-spectrum intravenous antibiotics were administered in the early postoperative period for 4–6 weeks and then replaced by oral therapy based on the results of the bacteriological analysis [6,7].

6) Short-term outcomes

The mean intensive care unit (ICU) stay and in-hospital stay were 11±19.7 and 52±44.6 days, respectively. There were 2 in-hospital deaths (10.5%), secondary to sepsis and acute myocardial infarction.

7) Long-term outcomes

The mean follow-up time of the patients was 43.2±11.7 months. Two patients (10.5%) died of aneurysm-related complications during the follow-up period. One patient presented 32.4 months postoperatively with massive hematemesis due to an aorto-enteric fistula. Another patient died 61.9 months postoperatively due to sepsis from a mediastinal abscess resulting from graft reinfection (Table 1). During follow-up, 1 patient had a prosthetic graft reinfection, as mentioned above. None of the patients had a spinal cord injury or stroke. One patient required new-onset dialysis and developed permanent renal failure. None of the patients underwent reoperation. The 5-year survival rate after surgery was 74.9%±11.5% (Fig. 2).


Mycotic aneurysms were first described by Osler in 1885, referring to infected aneurysms secondary to septic embolisms due to endocarditis. The incidence of infected aneurysms is higher when invasive monitoring techniques, angiography, and other percutaneous techniques are performed; it is also higher in patients with immunosuppressive conditions and in intravenous drug users [8,9].

A European multicenter collaboration of 16 centers was conducted to retrospectively evaluate the durability of endovascular aortic repair in patients with mycotic aortic aneurysms, by assessing late infection-related complications and long-term survival. In that study, 5% of patients were converted to open repair during a mean follow-up period of 35 months, and the 5-year survival rate was 55% [10]. In another study, in-hospital mortality was 22.7% in the extra-anatomic reconstruction group and 18.9% in the in situ repair group [11]. Our hospital has considerable experience with in situ repair; the in-hospital mortality rate was 10.5% and the 5-year survival rate was 74.9%±11.5% during the 43.2-month follow-up period. In situ revascularization has gradually become a standard procedure, based on good results reported in the literature [1113]. Therefore, the use of stent grafts in the setting of infection could be performed just as a bridge procedure to open repair, because the endograft inevitably becomes infected and fails.

The choice of the ideal conduit is still controversial [12]. To reduce the risk of reinfection, rifampicin-impregnated grafts or cryopreserved arterial homografts can be used instead of prosthetic grafts. However, no studies have confirmed the superiority of rifampicin-impregnated grafts. Cryopreserved arterial homografts have lower rates of reinfection (approximately 20%) but higher rates of aneurysmal degeneration and rupture (0%–9%) [7,14,15]. Lau et al. [1] reported that the 5-year survival rate of aortic surgical repair using Dacron prostheses was 71%, with no prosthetic graft infection observed during follow-up. This study also demonstrates that using Dacron prosthetic grafts led to acceptable outcomes in terms of reinfection and surgical outcomes.

To reduce the risk of reinfection, we covered the graft with a pedicle of uninfected tissue, such as the omentum; increased the blood supply; and increased the antibiotic concentration in the area [11]. In our series, we observed only 1 case of reinfection (5.2%) after in situ reconstruction. Our data show that favorable results can be obtained by in situ revascularization, aggressive debridement, and soft-tissue coverage in cases without an advanced-stage infection.

Although mycotic aneurysms have been reported in all age groups, the typical patient is elderly and has atherosclerosis [5,16,17]. In our study, the mean age of the patients was 62±7.2 years. Compared with noninfected aortic aneurysms, mycotic aneurysms tend to be symptomatic [18]. Almost all of our patients had aneurysm-related symptoms, including fever and pain (Tables 1, 2). Therefore, early operative intervention is indicated in these cases, especially for older patients with symptomatic aortic aneurysms.

In the literature, the most frequently reported microorganisms related to mycotic aneurysms are Staphylococcus, Streptococcus, and Gram-negative microorganisms, such as Klebsiella pneumoniae and Salmonella [5]. Gram-negative microorganisms are thought by many to exhibit a more virulent course, because of their ability to invade the normal intima and cause early aneurysm rupture [3]. In this study, the patient with Salmonella presented with a rupture at admission; she also had the longest ICU and hospital stay due to sepsis. Therefore, if a positive culture is found for Gram-negative microorganisms, aggressive surgical treatment and antibiotic suppression therapy are needed to prevent a fatal outcome.

The outcome of surgery depends on several factors, including the type and location of the aneurysm, the form of presentation, the patient’s comorbidities, the microorganism that is isolated, the type and duration of antibiotic therapy, and the type of surgery [11]. Our results suggest that uncontrolled fever, rupture, and Gram-negative microorganisms are risk factors for adverse surgical outcomes.

In our series, because of the lack of power in the sample and the retrospective nature of the study, a robust statistical analysis was not possible. Therefore, a much greater number of cases than were available for this series is necessary to demonstrate any influence of the surgical technique on outcomes.

In conclusion, the early and midterm outcomes of the open repair of mycotic aneurysms were favorable. Aggressive intraoperative debridement with in situ prosthetic reconstruction and soft-tissue coverage yielded a high rate of success in these very high-risk patients.


This study was supported by a Grant of the Samsung Vein Clinic Network (Daejeon, Anyang, Cheongju, Cheonan; Fund no. KTCS04-090).

Fig. 1. Photographs taken intraoperatively showing replacement with a Dacron graft (A) and homograft (B) with omental flaps (C).
Fig. 2. Kaplan-Meier survival estimates of mycotic aortic aneurysms.

Patient characteristics and early outcomes (N=19)

Age (yr)62±7.2
 Men13 (68)
 Women6 (32)
Underlying disease
 Chronic renal disease4 (21)
 Diabetes mellitus6 (32)
 Hypertension5 (26)
 Tumors2 (11)
Symptoms and clinical findings
 Pain10 (53)
 Fever8 (42)
 Hematochezia, hemoptysis4 (21)
 Extremities weakness2 (11)
 None1 (5)
Location of mycotic aneurysm
 Ascending aorta3 (16)
 Descending thoracic aorta6 (32)
 Thoracoabdominal aorta2 (11)
 Abdominal aorta8 (42)
In-hospital mortality2 (10.5)
 Sepsis1 (5.2)
 Acute myocardial infarction1 (5.2)
 Postoperative bleeding1 (5.2)
 Acute renal failure1 (5.2)
 Pulmonary complications4 (21.1)
Length of stay in intensive care unit (day)11±19.7
Length of hospital stay (day)52±44.6
Reinfection1 (5.2)

Values are presented as mean±standard deviation or number (%).

Individual case details

No.Age (yr)GenderComorbiditySymptomPreoperative duration (day)BacteriologyLocationConduitSoft tissue coverageOutcome
Gram stainSpecies
171MESRD-peritoneal dialysisFever, back pain75EnterobacterAbdominalDacronNoDied
277MAbdominal pain1+S. aureusAbdominalDacronNoDischarged
378MInfrarenal aortic aneurysm s/p graft replacementHematochezia, hematemesis1NoneAbdominalGore-TexNoDied
416MDesmoplastic small round cell tumor s/p autologous peripheral blood stem cell transplantationFever, cough, hematemesis1KlebsiellaDescendingDacronNoDied
557MDM, military pulmonary tuberculosisChest pain, hemoptysis10EnterobacterDescendingDacronOmentalDied
672MDM, ESRD-hemodialysisUpper extremity weakness0NoneAbdominalDacronNoDischarged
738FLeft atrial myxoma s/p excision of cardiac massEpigastric pain7PseudomonasAscendingHomograftPectoralisDischarged
873MHTN, CAOD 3VD, s/p off-pump coronary artery bypass 3 graftsChest pain7+S. aureusThoracoabdominalDacronNoDied
972FEmpyema s/p decorticationFever46NontyphoidalDescendingDacronNoDischarged
1065FDMFever, abdominal pain, both flank pain8+S. aureusDescendingDacronNoDischarged
1165MHTN, DM, basal cell carcinoma (derma)Fever, abdominal pain1NoneDescendingDacronOmentalDischarged
1245FSLE, ESRD, CAOD 2VD9NoneAbdominalDacronOmentalDischarged
1366FHTN, DM, chronic heart failure, ESRDAbdominal pain7NoneThoracoabdominalDacronOmentalDischarged
1471MHTNFever, weight loss, cough, sputum, chest discomfort30+NoneAbdominalHomograftOmentalDischarged
1576MHTN, ESRD, CAOD 3VD s/p multiple percutaneous transluminal coronary angioplasty, rule out SLEAbdominal pain30NoneAbdominalHomograftOmentalDischarged
1653MVentricular septal defect s/p patch repairHemoptysis7S. aureusAscendingDacronOmentalDischarged
1771MInfectious spondylitis, endocarditisFever, lower extremities weakness7EnterobacterAscending and archDacronNoDischarged
1865FRuptured abdominal aorta s/p endovascular aneurysm repairBack pain60NoneDescendingDacronOmentalDischarged
1947MRectal cancer s/p radio therapyFever, chills60NoneAbdominalDacronNoDischarged

ESRD, end-stage renal disease; S. aureus, Staphylococcus aureus; s/p, status post; DM, diabetes mellitus; HTN, hypertension; CAOD, coronary artery occlusive disease; VD, vessel disease; SLE, systemic lupus erythematosus.

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