Background

The definition of Lemierre’s syndrome remains controversial. It was initially described by André Lemierre in 1936 as an “anaerobic postanginal septicemia”, most often due to Fusobacterium necrophorum and responsible for thrombosis of the superior internal jugular vein paralleled with embolic abscesses. However, the syndrome can also be considered during anaerobic septicemia originating from diverse sources of infection, such as the upper respiratory tract, the gastrointestinal system or the genitourinary tract [1]. Of note, it is necessary to differentiate septic cases with thrombophlebitis from (un) complicated bacteremia due to Fusobacterium, the so-called “necrobacillosis” (Table 1) [1, 2].

Table 1 Examples of atypical Lemierre’s syndrome

Gram-negative anaerobic bacilli involved in Lemierre‘s syndrome are mostly F. necrophorum or F. nucleatum, but F. gonodiaformans, Bacteroides fragilis and B. melaninogenicus have been also reported [4]. The risk factors that trigger the invasive process are not clearly known, but they appear to depend upon the location of the initial infection. Patients with a post-anginal septicemia are generally young and healthy, although some authors have postulated a previous viral infection or a damage of the oral mucosa related to tobacco consumption. The gastrointestinal and genitourinary sources of infection seem to develop in elderly patients with a higher risk of an underlying malignant disease. Indeed, any digestive mucosal injury, e.g. due to cancer or diverticulitis, promotes the risk of bacterial translocation. Finally, preterm delivery and chorioamnionitis constitute a third group of specific obstetrical conditions favoring the development of anaerobic septicemia [5, 7].

Case presentation

A previously healthy 58-year-old male was transferred from another hospital to our department due to sepsis of undetermined origin with an unfavorable evolution under broad-spectrum antibiotic therapy (imipenem-cilastatin and clarithromycin). The patient complained of pain in the lumbar region and fever throughout the preceding two weeks. He also described asthenia, anorexia and a recent weight loss of 3 kg. The medical history was unremarkable. He was a non-smoker and reported no drug abuse, recent travel or contact with animals.

Upon admission to our hospital, the patient presented a high fever of 39.3 °C with hemodynamic stability. The physical examination showed no heart murmur or signs of cardiac congestion, but the presence of bilateral painless swollen legs was observed. Pulmonary auscultation showed respiratory crackles on the right side. The neurological, abdominal, cutaneous and osteoarticular examinations were unremarkable.

Laboratory examinations revealed the following results: hemoglobin 116 g/l (normal range: 140–180 g/l); leukocyte count, 33.3*109 cells/l (4–11*109 cells/l) without left-band shift; C-reactive protein, 114.6 mg/l (0–10 mg/l); creatinine, 56 μmol/l (62–106 μmol/l), aspartate transaminase, 174 U/l (12–50 U/l); alanine aminotransferase, 209 U/l (14–50 U/l); alkaline phosphatase, 406 U/l (25–102 U/l); gamma-glutamyl transpeptidase, 517 U/l (9–40 U); total bilirubin, 76 μmol/l (7–25 μmol/l); conjugated bilirubin, 66 μmol/l (0.5–9.5 μmol/l); International Normalized Ratio, 1.38. Serology assays for hepatitis B virus, hepatitis C virus and human immunodeficiency virus were negative. Urinary sediment was unremarkable.

As there was a high suspicion of spondylodiscitis, blood cultures were ordered and a thoraco-abdominal computed tomography (CT) scan was performed. The scan revealed thromboses of the two iliac veins, abscesses in the right iliac muscle (2.3 × 2.0 cm) and the left psoas muscle (6.0 × 4.8 cm), a right pleural effusion complicating a pneumonia, as well as a L4-L5 spondylodiscitis (Fig. 1). Lumbar magnetic resonance imaging confirmed an L4-L5 spondylodiscitis and the presence of abscesses in the muscles. One blood culture (taken initially as an outpatient before antibiotic administration) and the culture of the pus drained from the right psoas muscle grew F. nucleatum. The right pleural effusion was also drained and confirmed the presence of an empyema without bacterial growth (under antimicrobial therapy). Antibiotic therapy was then switched to amoxicillin-clavulanate in combination initially with clindamycin as F. nucleatum is pan-susceptible to these antimicrobials.

Fig. 1
figure 1

Frontal view of the CT scan. The yellow arrow shows L4-L5 spondylodiscitis, the red arrow shows the left iliac abscess and the blue arrow shows the left iliac thrombosis

When considering the presence of F. nucleatum bacteremia with a complicated pneumonia, a spondylodiscitis and multiple muscle abscesses, we suspected a case of Lemierre’s syndrome and attemted to identify the source of the infection. An orthopantomogram, a transoesophageal echocardiography as well as a cerebral CT scan were unremarkable. The duplex sonography confirmed bilateral venous iliac thromboses. As the patient presented lower gastrointestinal bleeding under anticoagulation (acenocoumarol), a colonoscopy was performed, but revealed no sign of malignancy or mucosal lesions. An inferior vena cava filter was put in place and withdrawn at one month and anticoagulation was continued for a total duration of 3 months. Antibiotic treatment was given intravenously for 6 weeks. At 3 months, duplex ultrasound showed complete resolution of the thromboses and clinical follow-up was normal. Spinal magnetic resonance imaging at 9 months showed sequelae of the L4-L5 spondylodiscitis.

We searched PubMed using the following terms “atypical + Lemierre syndrome” and then selected the atypical cases as illustrations. The search was not exhaustive.

Discussion and conclusions

Whereas a typical Lemierre’s syndrome consists of a septic cervical thrombophlebitis, usually complicated by septic emboli, atypical presentations have been reported in the abdomen, either in the context of genitourinary infections [8] or related to other intra-abdominal [9] or lower limb infections [5] (Table 1). Based on the absence of septic thrombophlebitis, these cases should be formally considered as different from bacteremia due to Fusobacterium [6, 10]. In our case, the presentation and evolution of Lemierre’s syndrome were atypical, as well as the identification of the less frequent F. nucleatum [8]. The source of infection was likely of colonic origin due to the lower gastrointestinal bleeding and the occurrence of two iliac thromboses.

The second observation in our case was the thromboembolic behavior of Fusobacterium spp., probably due to the production of endotoxins, which promote platelet aggregation [11]. The localization of the thromboses in the iliac veins was also atypical, but it was most likely related to the proximity of the site of infection, as reported in other cases [5, 7]. The use of anticoagulant therapy is controversial in Lemierre’s syndrome. Some authors propose to introduce anticoagulation in the case of antibiotic failure or when thrombosis extends further [1]. However, due to the severity of the infection in our patient and the swollen legs, we decided to treat the septic iliac thrombophlebitis with a 3-month course of anticoagulants.

In summary, treatment of Lemierre’s syndrome typically consists of surgical drainage of the abscess, if present, and intravenous antibiotic therapy for 4–6 weeks, although the overall treatment duration is not well established. Antibiotic therapy with anaerobic coverage must be rapidly introduced. Mortality is difficult to estimate, but can be high (up to 25%) and depends on the timing of antibiotic initiation [4, 7] . As penicillin-resistant strains have been reported, empiric therapy should consist of clindamycin or metronidazole or the use of a combination of beta-lactams with beta-lactamase inhibitors [3].