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Peer Review

Peer Reviewed

Case Report with Review

Campylobacter Fetus-Associated Infrarenal Abdominal Aortic Aneurysm

Sara Mokhtari, MD1,2,3; Jacques Besancenot, MD1; François Leroux, MD1

1Vascular and Thoracic Surgery Department, Nord Franche-Comté Hospital, Trévenans, France; 2Vascular Surgery Department, University Hospital Center Mohammed VI, Oujda, Morocco; 3University of Mohammed First, Faculty of Medicine and Pharmacy of Oujda, Morocco

February 2023
2152-4343

VASCULAR DISEASE MANAGEMENT 2023;20(2):E28-E35

Abstract

Infected abdominal aortic aneurysms are usually associated with poor outcomes. The management of this rare entity is demanding and requires a devoted joint multidisciplinary team. The aim of this article is to discuss diagnosis and management features of abdominal aortic aneurysms due to Campylobacter fetus bacteremia.

Introduction

It has been demonstrated that Campylobacter fetus bacteria has an affinity for vascular endothelium.1 Although rare, different vascular pathologies related to C. fetus include thrombophlebitis,2,3 endocarditis,4,5 and mycotic aneurysms.4-10 The aorta remains the main location of C. fetus-associated aneurysms. Given the increased risk of rupture in mycotic aneurysms, early diagnosis and rapid therapeutic management remain vital. Here, we report a case of abdominal aortic aneurysm (AAA) in a patient with C. fetus infection. Urgent surgical treatment was chosen following a large increase of the aneurysm diameter within 1 month of follow-up.

Case Report

A 61-year-old man with a history of cerebral stroke, hypertension, dyslipidemia, appendectomy, sinusitis, hiatal hernia, smoking, and alcohol abuse was admitted to the internal medicine department for investigation of a digestive disorder. Anamnesis revealed chronic intermittent abdominal pain associated with diarrhea and nausea. A loss of 12 kg over 6 months was reported. At his first admission, physical examination identified a thin, febrile patient (temperature: 39° C [102° F;] body mass index, 18.3 kg/m2) with a normal heart rate. The abdomen was slightly tender and painful at palpation without any other anomalies. Samples of blood, stool, and urine were obtained for culture. All of the cultures were negative except for the blood culture that grew C. fetus. Additional laboratory tests showed hemoglobin count, 14.2 g/dL; platelets, 242 G/L; leukocytes, 8 G/L; creatinine clearance, 98 mL/min; potassium, 3.9 mmol/L; calcium, 2.6 mg/dL; and albumin, 41.6 g/L. C-reactive protein (CRP) and natremia were abnormal at 174 mg/L and 127 mmol/L, respectively. A positron emission tomography scan showed esophagitis with an intense fixation at the stomach, and a fixation at the left colic angle as well. Fibroscopy and a thoraco-abdomino-pelvic computed tomography (CT) scan revealed no particularities. However, an infrarenal AAA was seen, measuring 42 mm x 33 mm (Figure 1).

Figure 1
Figure 1. Angio-computed tomography scans visualizing the augmentation of IRA diameter within 1 month (A/a before; B/b after).
Figure 2
Figure 2. Preoperative iconographies showing abdominal aortic aneurysm (a) and its replacement by bifurcated allograft (b).

Total colposcopy with resection of 3 polyps at the left colon showed tubular adenoma with low-grade dysplasia. Bronchoscopy with bronchoalveolar lavage as well as serology of human immunodeficiency virus, hepatitis B and C, Lyme disease, Epstein-Barr virus, prostate-specific antigen, and lactate dehydrogenase were negative. The patient was diagnosed with C. fetus colitis and was given IV amoxicillin clavulanate (1 g 3 times/day for 10 days). One month later, he was readmitted for recurrence of the same symptoms. This time, testing showed a patent biologic inflammatory syndrome (anemia, 9.4 g/dL; thrombocytosis, 1038 G/L; and CRP, 229 mg/L). An abdomino-pelvic CT scan identified left pyelocaliceal dilation without a detected obstacle and an empyema measured at 35 mm plus abscessed collections measuring at most 25 mm. The aortic aneurysm had increased in diameter, reaching 65 mm x 40 mm and 79 mm at its greatest axis (Figure 1). Ureterohydronephrosis of the left kidney was also identified. Findings on transthoracic echocardiogram were normal. A transesophageal echocardiogram ruled out endocarditis. Blood culture grew C. fetus, and urine and feces cultures were sterile. Ultimately, strong IV antibiotic therapy was immediately initiated based on a consult from infectious disease specialists (amoxicillin clavulanate 2 g/4 hours and gentamicin 180 mg/24 hours). Given the high risk of rupture, an urgent surgical repair of the AAA was considered, preceded by the placement of a double J stent to treat ureterohydronephrosis. Through a midline laparotomy, an excision of the mycotic aneurysm and establishment of vascular continuity using allograft bypass in the infrarenal aortic bilateral common iliac arteries were performed (Figure 2). Pre- and post-operative courses were uneventful except for a blood transfusion.

Figure 3
Figure 3. Angio-computed tomography scan of control at first month of postoperative treatment surgical showing no complications.

After 48 hours of surveillance in the intensive care unit, the patient was transferred to the internal medicine and infectious disease departments for management of undernutrition and close monitoring of antibiotic response. As cultures of all surgical specimens yielded C. fetus, the antibiotic regimen was continued for 6 weeks after surgery. Gentamycin was suspended after 2 weeks of treatment. The patient was discharged home on his 16th postoperative day. Findings of clinical and biological systemic inflammatory syndrome were completely regressed at the first follow-up (first month). The angio-CT scan showed no anomalies (Figure 3). The patient later benefited from removal of the double J stent.

Discussion

There are limited cases documenting aneurysms in patients with C. fetus.11 The first case of AAA associated with C. fetus bacteremia was reported by Dolev in 1971.12 Our review of the literature revealed that these aneurysms were seen in the abdominal aorta exclusively. However, different arteries may be involved as well (Table). Among the mechanisms implicated in mycotic aneurysms are septic emboli (endocarditis), local injury in cases of IV drug abuse, local extension of infection to the adjacent arteries, and bacteremia in the context of sepsis.13 These mechanisms can intertwine and result in a multifactorial disease.14 We assume that the reported case of aortic aneurysm was due to C. fetus bacteremia in a fragile predisposed patient. It was recorded that atherosclerosis appears to be a favoring factor for contamination of the arterial wall.15 Other prerequisite situations weakening the vessel have been identified, including advanced age, malignant diseases, immunosuppressive treatment, diabetes, and liver cirrhosis.16-21C. fetus infections are seen in patients with iatrogenic risk, including infections due to endovascular manipulations or implanted medical devices.21

The patient in question had multiple risk factors that predisposed him to C. fetus bacteremia. He had numerous cardiovascular risk factors (dyslipidemia, hypertension, cerebral stroke, and chronic tobacco abuse) and probably an atheromatous aortic aneurysm that predated the bacteremia. We believe that C. fetus bacteremia had a tremendous impact on the rupture of atherosclerosis in the wall of the abdominal aorta, eventually causing a rapid enlargement of the aneurysm within 1 month.

Table. Characteristics of Campylobacter fetus-associated arterial aneurysms (reported cases).

Reported case

Age/gender

Location of aneurysm

Therapeutic management (besides antibiotics)

Outcomes

Loeb H et al 19664

49/M

FA

Conservative treatment

Cured

Doley et al 197112

68/M

AA

Dacron Y graft after rupture

Died

File et al 197937

63/M

AA

ND

Died before surgery

Taylor et al 197938

67/M

AA

ND

Died before surgery

Marty et al 1998339

54/M

AA

Aorta replaced with polyester graft

Cured

Blabey et al 198340

68/M

AA

Aneurysm excision, ABF bypass

Cured

Anolik et 198341

73/M

AA

Aneurysm excision, ABF bypass

Cured

Perry 198542

70/M

AA

Woven Dacron bifurcation graft

Cured

Righter et al 198543

56/F

AA

Tube graft

Cured

Rutherford et al 19896

59/M

AA

Tube graft of knitted Dacron

Cured

Jacobs et al 19897

64/M

AA

Aneurysm excision, ABF bypass

Died

Kato et al 19908

61/M

AA

Aneurysm excision, ABF bypass

Cured

Allerberger et al 19915

84/F

AA

ND

Died before surgery

Grollier et al 19939

56/M

AA

Replaced with polyester graft

ND

Abassade et al 199410

64/M

As A

Excision of aneurysm (ND)

Died

Kuzniec et al 199544

70/M

AA

Interposition of a Dacron prosthetic graft

Cured

Montero et al 199745

69/M

PA

Femoropopliteal bypass

Cured

Sessa et al 199746

63/M

AA

Extra-anatomic bypass

Cured

La Scola et al 199847

64/M

AA

Bifurcated Dacron woven graft aorto-bi-common iliac arteries

Cured

Mii et al 199848

45/M

AA

Replaced with polyester

Cured

Lozano et al 199849

65/M

PA

Aneurysm resection through a posterior popliteal approach (ND)

Cured

Baty et al 199850

91/M

PA

Aneurysm resection (ND)

­–

Tran et al 200751

78/M

AA

Replaced with polyester graft

Cured

Cochennec et al 200834

76/M

AA

Dacron tube graft

Cured

Cochennec et al 200834

76/M

AA

Zenith bifurcated stent graft

Died

Cochennec et al 200834

79/M

AA

Zenith aortomonoiliac stent graft

Cured

Cochennec et al 200834

79/M

AA

Aortoaortic bypass grafting with arterial cryopreserved allograft

Cured

Onoda et al 200852

67/M

Bilateral DFA

Resection of infected aneurysm and bilaterial obturator bypass

Cured

Shiferson et al 200953

69/M

Bilateral IIA

Excision of aneurysm (ND)

Cured

Brossier et al 201035

69/M

AA

Replaced with polyester graft (Dacron graft)

Cured

Brossier et al 201035

69/M

AA

Replaced with polyester graft alone (Silver graft)

Cured

Brossier et al 201035

76/M

AA

Replaced with polyester graft (Dacron graft)

Cured

Brossier et al 201035

76/M

AA

EVAR (Zenith bifurcated stent graft)

Died

Brossier et al 201035

78/M

AA

Replaced with polyester graft (allograft)

Cured

Maeda et al 201154

76/M

AA

Replaced with polyester graft

Cured

Maeda et al 201154

57/M

AA

Replaced with polyester graft

Cured

Noda et al 201155

72/M

AA

Replaced with polyester graft

Cured

Melendez et al 201456

85/M

PA

Excision of the aneurysm via a posterior approach with reconstruction through a medial approach using autologous saphenous vein bypass

Cured

Hagiya et al 201457

65/M

AA

Rifampicin (RFP) bonded J-graft

Cured

Dimitrief et al 201536

73/M

AA

EVAR (Endurant II stent graft)

Cured

Hannah et al 201611

41/M

CA

Coiling the common and external carotid arteries after 1 year of follow-up

ND

Ono et al 202058

76/F

SFA

Self-expandable covered stent

Cured

Eke et al 202159

36/M

AA

Resection of the inferior AA and neo-aorto-iliac replacement with femoral vein

Cured

Milanesio et al 202160

76/M

AA

Conservative treatment

Cured

Present case

61/M

AA

Bifurcated allograft aorto-bi-common iliac arteries

Cured

M = male; F = female; FA = femoral artery; AA = abdominal aorta; As A = ascending aorta, PA =  popliteal artery; DFA = deep femoral artery; CA = carotid artery; IIA = internal iliac artery; SFA = superficial femoral artery; PA = popliteal aneurysm; ABF = axillobifemoral; ND = not described

It is important to emphasize that infected aneurysms correspond only to 2% to 3% of all aneurysms.22,23 The fact that this pathology is rare makes its management challenging. The diagnosis of an infectious cause of AAA was highly suspected by aspects of the patient’s clinical course and confirmed by imaging and microbiological findings. Given the well-described association between AAA and endocarditis in patients with C. fetus bacteremia, it seems reasonable to perform cardiac workups.

C. fetus AAA management requires a multidisciplinary, medical-surgical team approach:

Medical component: It corresponds to early initiation of an adequate antibiotic regimen, antipyretics, and analgesics to relieve the patient’s symptoms.

Surgical component: Various surgical options of mycotic AAA were described. It is represented essentially by in situ reconstruction; using usually cryopreserved allografts, rarely autografts; or extra-anatomical revascularization bypass. Thanks to advances in antibiotics, resection of mycotic aneurysms and immediate revascularization using allografts was the method of choice adopted by many authors.24-27 Extra-anatomic reconstruction, widely advocated in the 1970s,28-32 seems to be a perfect feedback option in case of unavailability of the appropriate graft, immediate limb-threatening ischemia, or in cases of patients with instability.14

The management of mycotic peripheral arterial aneurysms and AAA has been revolutionized by the development of endovascular grafts. The arrival of these devices has had a tremendous impact on surgeons' decisions. Nowadays, a trend toward endovascular repair has been seen. According to a European study,33 endovascular aneurysm repair can be a durable treatment option for mycotic aortic aneurysms. However, literature on this approach outcome is still scarce.33-36 More studies comparing these therapeutic options are required.

Conclusions

C. fetus-associated AAA is a rare vascular disease but is an emergent condition associated with high mortality and morbidity. The therapeutic use of antibiotic irrigation and surgical management of the mycotic aneurysm have shown good outcomes. Results of the operation can be improved by prolonged monitoring. n

The authors have completed and returned the ICMJE Form for Disclosure of Potential Conflicts of Interest. The authors report no financial relationships or conflicts of interest regarding the content herein.

Manuscript accepted December 19, 2022. 

Address for correspondence: Sara Mokhtari, MD, Universite Mohammed Premier Oujda, Oujda, Morocco. Email: saramokhtari1904@gmail.com

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