Introduction
Sepsis secondary to bacterial species such as Streptococcal bovis [1] and Clostridium septicum (C. septicum) [2] is associated with occult colorectal malignancy. C. septicum is a gram-positive spore that forms an obligate anaerobic rod. The colon may be a preferential site of growth for this organism based on the pH (5.5-7.0) of the large intestine and its resulting osmotic environment [3]. C. septicum sepsis can present as vasculitis [4], mycotic aneurysm [5], or pericarditis [6], and has a high mortality [2]. We present a case of C. septicum aortitis associated with colonic malignancy, along with its management and clinical outcome.
Case report
A 66-year-old male, originally from Puerto Rico, with no significant past medical history presented with three days of colicky upper abdominal pain associated with one episode of bright red blood mixed with stool. He reported subjective fevers with chills. He had new-onset intermittent constipation during the previous month. He denied nausea, vomiting, diarrhea, pruritus, weight loss, fatigue or jaundice. Family history was negative for colon cancer. He had no history of smoking or alcohol abuse; further, he denied any high-risk sexual behavior or any history of or exposure to tuberculosis and syphilis.
The patient presented to an outside hospital with stable vital signs except for being febrile (38.3°C). Lab results showed leukocytosis and anemia. This was followed by an abdominal ultrasound that was suspicious for right colon mass and infrarenal aortitis. The patient was started on broad-spectrum antibiotics and transferred to our hospital. On arrival he was febrile to 38.9°C, but remained hemodynamically stable. Initial blood tests here showed white blood cells 19,500 cells/μL with 87% neutrophils, and hemoglobin 9.0 g/dL with a mean corpuscular volume 71 fL. HIV, liver enzymes, carcino-embryonic antigen and lipase were within normal limits. Computed tomography (CT) of the abdomen and pelvis confirmed infrarenal aortitis and a right colon mass (Fig. 1A, B).
Figure 1 White arrows point to the right colon mass (A) and periaortic gas (B) seen on computed tomography scan
Colonoscopy revealed a 2-cm mass in the proximal ascending colon (Fig. 2A), as well as a 5-cm rectal mass (Fig. 2B). While both masses were grossly suspicious for malignancy, the rectal mass biopsy revealed only high-grade dysplasia. The right colon mass was not biopsied because a right hemicolectomy was already planned for the same day.
Figure 2 Right colon mass (A) and rectal mass (B) on colonoscopy
The patient underwent transabdominal excision of the infected infrarenal abdominal aorta, as well as the proximal bilateral common iliac arteries and proximal inferior mesenteric artery, followed by reconstruction with aorto-iliac cryopreserved homograft and left renal artery re-implantation. An extended right hemicolectomy and end ileostomy were also performed.
Cultures from blood and from the aorta grew C. septicum, sensitive to ampicillin-sulbactam. The right colon mass was an adenocarcinoma (Fig. 3A) (T3N0), negative for deficient mismatch repair protein expression, B-RAF (B-type rapidly accelerated fibrosarcoma) and K-RAS (Kirsten rat sarcoma oncogene) mutation but positive for N-RAS (neuroblastoma RAS oncogene).
Figure 3 Histology of right colon mass (A) and rectal mass (B)
The patient was treated with IV ampicillin-sulbactam and improved clinically, with subsequent negative blood cultures. He was discharged four weeks after admission and completed an additional two weeks of IV antibiotics. Follow-up positron emission tomography CT scan revealed a focus of nonspecific increased metabolic activity in the peritoneal cavity and mesenteric lymph nodes. Three months later, after full recovery from the surgery and sepsis, the patient underwent trans-anal intramural excision of the rectal mass, which was an invasive adenocarcinoma on histology but negative for C. septicum. Tumor-free margins were achieved (Fig. 3B). The tumor was negative for deficient mismatch repair protein expression, B-RAF and N-RAS mutation, but positive for K-RAS. The patient had a low oncotype DX recurrence score (11) and was offered but declined adjuvant chemotherapy.
Discussion
This case represents the first case of C. septicum aortitis in the setting of synchronous colon and rectal adenocarcinoma. Infection with this organism may occur in the presence of trauma, but commonly presents without trauma. A review conducted by Kornbluth et al reported that, out of 162 cases of atraumatic C. septicum infection, 23 patients had aortitis. Of these 23 patients, 21 (91%) had colonic adenocarcinoma or polyps, while 15 of the 21 (71%) had cancer of the ascending colon or cecum [7], suggestive of a strong association between right sided colon cancer and this infection.
Although C. septicum was initially thought to be a member of the normal gut flora, recent evidence from healthy volunteer stool studies may suggest the opposite [8]. Mildly acidic pH and a low propensity for oxidation-reduction reactions, as provided by cecal tumors, is a perfect milieu for the C. septicum to flourish. Its flagella and the ability to produce multiple enzymes allow it to grow within the host [9]. The virulence of C. septicum comes from its alpha toxin, a hemolysin [2].
The 6-month mortality for C. septicum aortitis has been reported to be as high as 100% in the absence of operative intervention, but can be reduced to 64% with appropriate surgical intervention [10]. The mortality is even higher among patients who present with distant myonecrosis (infection distant from the initial site of infection) [7]. This underscores the importance of searching for underlying malignancy in the setting of C. septicum aortitis.
All patients with suspected aortitis should be treated with broad-spectrum antibiotics while awaiting blood culture results. The antibiotic of choice for C. septicum infection is high-dose intravenous penicillin G [10], which should be given for a minimum of 6-8 weeks. Few patients require chronic antimicrobial therapy for severe infection or inability to control the source of infection. Early debridement and reconstruction of the aorta is essential, to prevent progression to aneurysm and aortic dissection [10].
Our patient underwent prompt source control for the infection and aortic reconstruction with appropriate antibiotic coverage for presumed C. septicum infection, which resulted in prompt recovery and a good prognosis. The finding of a synchronous lesion in the rectum raised a few interesting questions, including whether the rectal mass could have been the source of infection, and thus consideration for a total proctocolectomy and end ileostomy. After a review of the literature and a multidisciplinary discussion between the vascular and general surgeons, infectious disease specialists and gastroenterologists, it was thought that the right colon mass was more likely to be the culprit lesion; it was therefore resected at the same time as the aortic reconstruction. More experience with such an atypical scenario is required to make a better consensus treatment plan in the future for C. septicum aortitis associated with colon cancer, with the intent of improving outcomes and prognosis.