Femoral artery aneurysm with large hematoma from Pasteurella: case report and literature review

Pasteurella multocida (P. multocida) is a well-known gram-negative facultative anaerobic coccobacillus present in the normal oral flora of animals, with cats and dogs having the highest carriage rates. The bacteria typically are introduced to the body through animal bites, scratches, or oral secretions in licking. Infection with P. multocida commonly manifests as localized cellulitis, abscesses, tenosynovitis, osteomyelitis, and septic arthritis [1]. Disseminated infection is rare and more frequently impacts cirrhotic patients and those with additional immunocompromising comorbidities such as malignancy and renal disease [2]. In these patients, P. multocida infection can cause meningitis, peritonitis, and urogenital infections. Mycotic aneurysm caused by P. multocida is rare and only 10 reports of P. multocida mycotic aneurysm have been described to date. In this case report, we describe a 62-year-old male with a mycotic aneurysm of superficial femoral artery due to P. multocida. To the best of our knowledge, this is the first case of peripheral artery mycotic aneurysm caused by P. multocida.

A 62-year-old man with a past medical history of treated hepatitis C, hepatitis B, cirrhosis, chronic obstructive pulmonary disease, chronic low back pain status post lumbar laminectomy and fusion presented to a local community hospital with progressively worsening right leg pain and swelling of 2–3 weeks duration. Physical examination revealed profound swelling and erythema of the right medial thigh and tenderness of right thigh to palpation. Social history was significant for a 40-pack year history of cigarette smoking, intravenous drug use and alcohol abuse. The last intravenous drug use was more than 5 years ago and he only used superficial veins of his left arm. Upon further questioning, the patient reported living at a friend’s home for the past 2.5 years with 15 dogs and 1 cat. He claims that he sustained numerous scratches on his bilateral arms and abdomen from the pets.

Laboratory analysis revealed a leukocyte count of 13.9 × 109/L (4.5–11 × 109/L), hemoglobin of 10.2 g/dL (13.5–17.5 g/dL), prothrombin time 17.1 s (11.4–14.4s), international normalized ratio (INR) 1.4 (0.9–1.1s), aspartate transaminase level of 48 U/L, alanine aminotransferase level of 18 U/L, and total bilirubin of 2.1 mg/dL. Doppler ultrasound of the affected area revealed focal dilation of the right superficial femoral artery with “to and fro” type flow, concerning for a pseudoaneurysm. Subsequent computerized tomography angiogram confirmed pseudoaneurysm of the right superficial femoral artery, measuring 2 cm × 2 cm × 3 cm with active hemorrhage into a large right medial thigh hematoma measuring 10 cm × 8 cm × 24 cm (Fig. 1). Blood cultures grew gram-negative bacilli, but multiplex molecular blood culture panel failed to detect any of the organisms included in the panel.

He was transferred to our tertiary care hospital for further management. He underwent emergent open resection of the right femoral mycotic aneurysm and interposition bypass with the left greater saphenous vein. Intraoperatively, the site was noted to be grossly infected with multiple pockets of abscess. Pus cultures obtained during surgery grew P. multocida which was susceptible to ampicillin, ceftriaxone, and trimethoprim-sulfamethoxazole, and antibiotics were changed to ceftriaxone 2 g every 24 h. Blood cultures from the first hospital ultimately grew the same organism. Magnetic resonance imaging (MRI) of spine revealed small bilateral soft tissue abscesses in the medial paraspinal muscles at L3 without evidence of osteomyelitis. Transthoracic echocardiogram showed no findings suggestive of infective endocarditis. Because of a high index of clinical suspicion for infective endocarditis, tansesophageal echocardiogram was obtained and showed severe tricuspid regurgitation without evidence of endocarditis. Histologic examination of the aneurysm revealed acute inflammation with organizing thrombus and calcification. Histologic pictures in Fig. 2 were taken using Olympus BX46 microscopy with mounted Olympus UC90 camera and cellSens Entry software. The pictures have resolution of 3840 × 2160 with 96 dpi and no manual enhancement or editing of the pictures was done. Bacterial colonies were present on hematoxylin and eosin staining of the tissue (Fig. 2B) and gram stain confirmed that gram-negative bacteria were present within the excised aneurysm (Fig. 2C). Therefore, the diagnosis of P. multocida bacteremia with right femoral mycotic aneurysm, and right thigh and L3 lumbar paraspinal abscesses was made. The patient was discharged to a rehabilitation facility where he completed 6 weeks of intravenous ceftriaxone therapy. Patient had weekly complete blood count and complete metabolic panel and treatment adherence/tolerability was ascertained by regular telephone calls. Patient had in person infectious disease clinic visits every 3 weeks. His surgical wound healed.

Mycotic aneurysms of peripheral arteries are rare and can arise due to bacteremia, direct bacterial inoculation, septic emboli, or spread from a nearby infection sites such as osteomyelitis [3]. Timely diagnosis is essential to prevent complications from untreated mycotic aneurysm including rupture, hemorrhage, distant embolization, and loss of limb viability [4]. However, diagnosis can be difficult because symptoms are often nonspecific, commonly including fever, pain, and inflammation at the site of infection. Patients with preexisting aneurysms, atherosclerosis, recent infection, and impaired immunity are at higher risk for development of mycotic aneurysm [4]. Numerous bacteria and fungi have been implicated in the formation of mycotic aneurysms, however Staphylococcus species and Salmonella species remain the most common causative organisms [3, 5]. Our patient had an extensive work up for endovascular infection including blood cultures, computerized tomography, and echocardiograms. Management of our patient included both surgical intervention and targeted antibiotic therapy.

Mycotic aneurysm can be diagnosed with imaging, intraoperative findings, and culture of the affected tissue [5]. Blood culture may also be useful in patients with suspected disseminated infection. In this case, both tissue and blood cultures confirmed P. multocida infection. The multiplex molecular blood culture panel did not detect any organisms as P. multocida is not included in the panel. Histologic examination of the tissue supports the diagnosis when bacteria are present, as seen in Fig. 2, demonstrating gram-negative bacteria within the aneurysmal tissue.

Only 10 cases of mycotic aneurysms due to P. multocida have been described in the literature (Table 1). In 8 of these 10 cases, the mycotic aneurysm involved the abdominal and thoracic aorta, and the 2 remaining cases had mycotic aneurysm cerebral vessels. To our knowledge, this is the first case of mycotic aneurysm of the superficial femoral artery due to P. multocida. Like our patient, nearly all previously reported patients had a known history of contact with a dog or cat (9/10), and infection was often associated with bacteremia (8/10). Our patient also had involvement of the paraspinal muscles, likely due to hematogenous spread.

Interestingly, a history of cirrhosis and/or heavy alcohol consumption was mentioned in three of the previously described cases and in our case [6‐8]. A positive correlation between cirrhosis and P. multocida bacteremia has been shown in several studies. Chatelier et al. described 119 patients with P. multocida bacteremia and found that 24.4% of the patients had preexisting cirrhosis [2]. Similarly, Raffi et al. described 95 patients with P. multocida bacteremia, 34% of which were cirrhotic [9]. It is hypothesized that impaired reticuloendothelial function and portosystemic shunting allow for bacterial spread in these patients [2]. Simultaneously, cirrhosis and heavy alcohol consumption have been associated with the formation of mycotic aneurysms due to impaired immunity [10]. Our patient also had the additional risk factor of heavy cigarette smoking that likely contributed to underlying atherosclerosis, allowing bacterial seeding in the damaged vessel.

Treatment of mycotic aneurysms requires both surgical intervention and antibiotic therapy. Surgical intervention involves debridement of the infected tissue and revascularization when possible [4]. Our patient underwent en bloc resection of the aneurysm and adjacent femoral artery with autologous reconstruction using greater saphenous vein harvested from the contralateral leg. While there are no standardized guidelines for the duration of antibiotic treatment, the American Heart Association recommends 6 weeks of post-operative treatment for patients with peripheral mycotic aneurysms or extended up to 6 months for cases complicated by gross purulence or multidrug-resistant organisms [3]. P. multocida is typically sensitive to numerous antibiotics including penicillin, aminopenicillins, third and fourth generation cephalosporins, carbapenems, fluoroquinolones, doxycycline, and trimethoprim-sulfamethoxazole. Our patient is being treated with intravenous ceftriaxone.

This case highlights the importance of detailed history taking and prompt intervention in patients with mycotic aneurysms. Our patient had numerous risk factors that contributed to his presentation, including cirrhosis, cigarette smoking, and significant animal exposure. While animal scratches are somewhat common in pet owners, complications from bacterial invasion can occur and a complete history is essential for identifying risk factors.