Septic arthropathy of the sacroiliac joint.
Article Type: Clinical report
Subject: Joint diseases (Diagnosis)
Joint diseases (Care and treatment)
Joint diseases (Case studies)
CT imaging (Methods)
Diagnosis, Radioscopic (Methods)
Authors: Wasserman, Evan
Crawford, Ryan
Ehrlich, Tim
Pub Date: 03/01/2010
Publication: Name: Applied Radiology Publisher: Anderson Publishing Ltd. Audience: Academic Format: Magazine/Journal Subject: Health Copyright: COPYRIGHT 2010 Anderson Publishing Ltd. ISSN: 0160-9963
Issue: Date: March, 2010 Source Volume: 39 Source Issue: 3
Geographic: Geographic Scope: United States Geographic Code: 1USA United States
Accession Number: 231094244

A 42-year-old man with a history of alcoholism presented to the emergency room with a several-week history of weight loss, low-grade fever, elevated sedimentation rate and a palpable, tender mass in the left gluteal region. At the time of presentation, the patient had a fever of 101 degrees, and leukocytosis (12,600 per mm). The patient had recently tested negative for the HIV virus, and denied any history of intravenous drug abuse. On physical exam, a palpable, fluctuant, tender mass was identified in the left gluteal region. Initial radiographs of the pelvis along with a follow-up computed tomography (CT) exam of the abdomen and pelvis was performed.


An AP radiograph of the pelvis demonstrated subtle erosive changes of the left sacroiliac joint with a large soft mass in the left gluteal soft tissues (Figure 1). A subsequent CT scan of the abdomen and pelvis (with oral and IV contrast) was obtained for further characterization.

CT examination of the abdomen and pelvis (with oral and IV contrast) demonstrated a large, complex, multiloculated fluid collection involving the left gluteal musculature, left illiacus muscle, left obturator internus muscle, left iliopsoas muscle, and the left iliopsoas bursae (Figures 2A, C and D) In addition, bone windows demonstrated erosive changes in the left sacroiliac joint (Figure 2B). Overall, the findings were consistent with septic arthropathy of the left sacroiliac joint with a large adjacent abscess. Subsequent surgical incision and drainage, along with blood cultures yielded Streptococcus pneumonia.


Pyogenic arthritis of the left sacroiliac joint and abscess related to Streptococcus pneumonia


Bacterial arthritis of the sacroiliac joint is relatively uncommon, accounting for 1% to 4% of all cases of septic arthritis. (1) Risk factors include pregnancy, trauma, immunocomprised status, rheumatoid arthritis, intravenous drug abuse, and coexistent infection. (2-5) Most cases are related to a hematogenous source of infection. Contiguous spread of infection from an adjacent source infection or direct implantation (related to manipulation) are less likely causes. (1,2)

Patients with pyogenic sacroilitis typically present with unilateral sacroiliac pain, sciatica, fever, leuckocystosis, and an elevated sedimentation rate. Patients with subacute pyogenic sacroilitis are often difficult to diagnose, and can be clinically confused with other conditions such as disc herniation, pyelonephritis, appendicitis or diverticulitis. Evaluation with radiographs, CT, magnetic resonance imaging (MRI) and nuclear medicine have all been shown to be useful in making an accurate diagnosis. (2) However, joint aspiration is required to confirm the diagnosis, and to identify the specific infectious agent.


Streptococcus pneumonia is an uncommon cause of septic arthritis, causing 6% of all cases. Half of adults with Streptococcus pneumonia septic arthropathy had another focus of pneumococcal infection. Most patients respond well with antibiotic treatment. (6,7)



In the proper clinical setting, erosive changes within the sacroiliac joint, along with an effusion are considered highly suspicious for septic arthritis. The presence of an adjacent fluid collection (abscess) would further support this diagnosis. Recognition of these radiographic findings can be critical to making the diagnosis and decreasing patient morbidity.


(1.) Brusch, JL. Septic Arthritis. EMedicine. 2005:Oct 18,1-16. Available at: Accessed online: December 29, 2009.

(2.) Resnick. Osteomyelitis, Septic Arthritis, and Soft Tissue Infection: Axial Skeleton. Bone and Joint Imaging 2nd ed. Philadelphia, PA: W.B. Saunders; 1996:674-683.

(3.) O'Brien CM, Darley ES, Kelly AJ, et al. Septic sacroiliitis: An unusual causative organism in a rare condition. Int J Clin Pract. 1998;52:206-207.

(4.) Karchevsky M, Schweitzer ME, Morrison WB, Parellada, JA. MRI findings of septic arthritis and qssociated osteomyelitis in adults. AJR Am J Roentgenol. 2004;182:119-122.

(5.) Brower AC. Septic arthritis. Radiol Clin North Am. 1996;34:293-309.

(6.) Pinson AG, Jolles PR, Balkissoon AR. Pneumococcal sacroiliitis. South Med J. 1997;90:649-652.

(7.) Ross JJ, Saltzman CL, Carling P, Shapiro DS. Pneumococcal septic arthritis: Review of 190 cases. Clin InfectDis. 2003;36:319-327. Comment in Clin Infect Dis. 2004;38:1645-1646.

Prepared by Evan Wasserman, MD, Ryan Crawford MD, Department of Radiology Norwalk Hospital, and Tim Ehrlich, MD, Department of Surgery Norwalk Hospital, Norwalk, CT.

Evan Wasserman, MD, Ryan Crawford, MD, and Tim Ehrlich, MD
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