Osteitis Condensans Ilii

Peter Williams; Doug Byerly

Osteitis Condensans Ilii

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Free Review Questions

Continuing Education Activity

Osteitis condensans ilii is a non-progressive condition marked by sclerosis of the iliac bone found incidentally on imaging or in the setting of lower back pain. Given its self-limiting nature, management for this condition is conservative. This activity reviews the evaluation and management of osteitis condensans ilii and highlights the role of the healthcare team in evaluating patients for this condition.

Objectives:

Describe the pathophysiology of osteitis condensans ilii.
Outline the typical presentation of a patient with osteitis condensans ilii.
Summarize the treatment for osteitis condensans ilii.
Identify interprofessional team strategies for improving care coordination and outcomes in patients affected by osteitis condensans ilii.

Introduction

Osteitis condensans ilii (OCI) is a self-limiting condition marked by sclerosis of the iliac bone, found either incidentally on imaging in asymptomatic patients or those presenting with lower back pain. Imaging and clinical findings are localized to the sacroiliac joint(s) and thus, must be differentiated from other conditions that may present in a similar fashion (spondyloarthritis, degenerative arthritis, septic arthritis). Although some of the presenting features at times may overlap, OCI is distinct in that it spares the joint space, is not progressive, and most commonly presents in the absence of lab value abnormalities.

Etiology

Although there have been several proposed theories, the pathophysiology involved in the development of osteitis condensans ilii (OCI) essentially remains unclear. Because this condition is most prevalent in perigestational/postpartum women,[1][2] it was initially postulated that it was related to physiologic changes brought on by pregnancy. These changes are marked by both mechanical and vascular components. Mechanical considerations include joint space widening and ligamentous laxity of the sacroiliac joints as well as an increased stress load placed on the pelvis in the gravid state.[2]

From a vascular standpoint, an enlarged uterus may exert a mild mass effect upon the adjacent abdominal aorta/iliac arteries. This may cause mild hemodynamic flow alteration and transient ischemia to the downstream distal ileum.[3] This does not account for the fact that OCI also occurs in males and nulliparous females. But the findings do remain commonly associated with weight gain,[2][4] and thus, a mechanical etiology is still felt most likely. Of note, a genetic predisposition has also been questioned, as there have been cases in which human leukocyte antigen-B27 (HLA-B27) was found; however, a consistent link has not been established. Most patients are HLA-B27 negative.[3] While there have been case reports of patients with an elevated erythrocyte sedimentation rate (ESR) suggesting an inflammatory component to the process, the vast majority of patients have normal ESR levels.[3]

Epidemiology

Osteitis condensans ilii (OCI) was named in 1926 by Sicard et al., as an exclusive entity used to describe a condition with characteristic sclerotic radiographic imaging findings localized to the periarticular (auricular) portion of the ileum at the sacroiliac joint without other joint space abnormalities such as erosions, effusion, or periarticular bone marrow or soft tissue edema.[1][3] The prevalence of OCI in the general population has been reported between 0.9% and 2.5%.[3] The prevalence of OCI in those specifically being imaged in evaluation for inflammatory arthropathy, however, has been shown in target populations to be as high as 8.9%.[5] As previously noted, the condition is more common in females,[2][6] especially in those with recent weight gain or in pregnancy.

Histopathology

Histopathologic findings are limited in osteitis condensans ilii (OCI); however, it has been shown that in affected regions of sclerosis, there is focal bone marrow fibrosis. In addition, there is increased density in trabeculation, as well as an increase in osteoblastic activity. There has also been shown to be a quantitative increase in lamellar bone in the affected region.[3][7]

History and Physical

Osteitis condensans ilii (OCI) is often asymptomatic, but can also present as nonspecific lower back pain. If present, pain symptoms are usually reported as worsened with exertion and improve with rest. In contrast, the lower back pain symptoms in spondyloarthritis commonly improve with activity. As previously noted, OCI symptoms are most commonly seen in association with weight gain or pregnancy.[6] Systemic symptoms such as fever, fatigue, weakness, and weight loss are absent, and for this reason, a detailed history and complete review of systems should be obtained to exclude other processes.

Pain is usually bilateral and may extend to the buttocks and posterior thighs in a non-radicular fashion.[3] Symptoms may or may not correlate with point tenderness at the sacroiliac joint. Fortin finger sign reproduces pain when deep pressure is applied posteriorly over the joint. Likewise, the Faber/Patrick test (pain elicited by hip flexion in conjunction with abduction and external rotation) is variably positive and thus equally nonspecific. Additional provocative maneuvers to include sacral distraction test, thigh/sacral thrust test, and iliac compression tests are also unreliable indicators.

It is important to perform a full musculoskeletal exam to assess for other symptomatic joints, as OCI only localizes to the lower back. Additionally, post-traumatic and congenital causes for the pain, including leg-length discrepancy and spinal malalignment, should also be excluded on physical examination. In addition, there should be no neurologic findings of sensory or motor loss.[3]

Evaluation

As previously noted, osteitis condensans ilii (OCI) most commonly presents without lab value abnormality. Therefore laboratory studies are most helpful in ruling out other causes of sacroiliac disease. Inflammatory markers such as erythrocyte sedimentation rate (ESR) and C-reactive protein (CRP) are negative and should be obtained to rule out an inflammatory arthropathy such as rheumatoid or psoriatic arthritis, or infectious sacroiliitis. Rheumatoid factor is also negative and may, therefore, offer some diagnostic discriminatory value as well. HLA-B27 is rarely positive,[1][3][4] but in these instances, nonspecific, for a positive value, is also seen in as many as 85-95% of ankylosing spondylitis cases.[8][9] As previously described, a direct correlation between HLA-B27 and OSI has not been well established.

Classic radiographic findings of OSI include sclerosis arising along the subcortical articular surface of the iliac bone extending into the adjacent medullary space, a pattern that classically appears as a triangular area of increased density/sclerosis with apex cephalad.[1] The findings are most commonly symmetric. The important discriminator in the radiographic findings is no associated joint space narrowing or widening, ankylosis, bony destruction, erosion, effusion, bone marrow edema, or surrounding soft tissue edema.[3] Although isolated iliac involvement is a hallmark, it has also been shown that in some cases, mild sacral sclerotic involvement is seen as well.[10]

CT scan demonstrates the same findings as radiographs but to greater advantage and detail. Additionally, the axial nature of the exam may show an anterior predilection for sclerosis.[3] On MRI, regions of sclerosis appear as low signal intensity on both T1 and T2 weighted imaging. Bone marrow edema has not typically been described in association with this process; however, it has recently been reported in a minority of cases.[1] Despite these case reports surrounding edema should increase suspicion for alternative inflammatory etiologies. Pertinent negatives on MRI include no periosteal reaction and no localized soft tissue abnormality. Lastly, a nuclear medicine bone scan will generally demonstrate localized increased uptake in the sacroiliac region due to increased sclerosis (bone formation).[11][12] Advanced imaging is seldom required to diagnosis OSI as the triangular, symmetric, iliac-sided sclerosis in the absence of elevated inflammatory markers is an "Aunt Minnie" or pathognomic presentation.

Treatment / Management

The primary aim of treatment is to reduce the intensity and duration of pain, stiffness, and improve the patient's quality of life. The first step in the management of osteitis condensans ilii (OCI) is to reassure the patient regarding the benign nature of the disease and the lack of progression of disease clinically and radiographically. Given the non-progressive nature of OCI, the prognosis is highly favorable, and conservative therapy is preferred. This includes non-steroidal anti-inflammatory drugs (NSAIDs), physical therapy, and rest. Although not an inflammatory condition, corticosteroid/anesthetic therapeutic injections have been employed,[3] and in one refractory case, a surgical core decompression was reported.[12] The surgical resection of osteitis bone may also help to alleviate pain in some cases.

Differential Diagnosis

The major differential for osteitis condensans ilii (OCI) is sacroillitis. Sacroiliitis refers to inflammation of the sacroiliac joint. This a nonspecific term that includes a multitude of etiologies with varying clinical presentations ranging from unilateral, bilaterally symmetric, or bilateral asymmetric.[10]

Unilateral
- Infection: In the setting of unilateral sacroiliitis, the infection has to be excluded as delay in diagnosis is associated with severe morbidity. The patients generally present with severe pain, decreased range of motion, fever, elevated inflammatory markers, and purulent fluid on joint aspiration. Risk factors include recent therapeutic injection, bacteremia, IV drug users, or immunocompromised states. Delayed diagnosis can lead to severe joint destruction leading to long-term disability, sepsis, or death in extreme cases. However, most patients have a positive outcome.[13]
- Destructive neoplastic process: Although uncommon, a primary osseous lesion or metastatic disease can involve the iliac wing or sacrum and mimic sacroiliac disease. In young patients, the primary considerations would include osteosarcoma, Ewing sarcoma, or lymphoma. In adults, metastatic disease is more common.
- SAPHO: This is a rare condition that presents with the constellation of findings to include synovitis, acne, pustulosis, hyperostosis, and osteitis.[14]

The unilateral processes can be distinguished from osteitis condensans ilii (OCI) primarily based on the distribution as OSI is most commonly bilateral symmetric. An infection will most commonly present with elevated laboratory values and fever in addition to surrounding soft tissue and bone marrow edema on advanced imaging. All of those features are absent in OSI. A neoplastic process will be easily distinguished based on history in the setting of a known primary malignancy or advanced imaging as neoplasm will commonly be a destructive process, and not have the symmetric triangular sclerotic appearance.

Bilateral Asymmetric
- Gout: This is a crystalline arthropathy most commonly affecting middle-aged men. The most common joints involved are the hands and feet, specifically the first metatarsophalangeal (feet) and radiocarpal (hands). Patients may have elevated serum uric acid levels on laboratory analysis. On imaging, gout is an erosive process, so there should be periarticular erosions, soft tissue swelling, and in some cases, a soft tissue mass (tophus). The demographics, involvement of the hands/feet, and inflammatory changes are key distinguishing features.[15]
- Psoriatic arthritis (PA): PA is a seronegative inflammatory arthropathy that most commonly affects the hands and feet. Most patients will have a precedent diagnosis of psoriasis with skin manifestations. Unlike gout or rheumatoid arthritis, there is no gender predilection. The involvement of the hands and feet is distal more than proximal. In other words, the interphalangeal joints are more commonly involved than the joints of the midfoot or wrist. There is commonly soft tissue swelling, erosive changes, periostitis, joint subluxations, or ankylosis. The characteristic imaging features and multifocal involvement distinguish it from OSI.[10][16][17]
- Osteoarthritis: The hallmarks of osteoarthritis are sclerosis, osteophyte formation, and subchondral cystic change. Osteoarthritis involvement of the sacroiliac joints will manifest as changes of both sides of the joint with small osteophytes. In addition, it will not have the classic triangular sclerosis seen in OSI.

Bilateral symmetric
- Ankylosing spondylitis (AS): AS is seronegative spondyloarthropathy most commonly in young adult males. Unlike other arthropathies discussed previously, this is a process that predominately involves the large joints, specifically the sacroiliac joints and spine, but can also involve the hips and shoulders. Patients will commonly be HLA-B27 positive, unlike OSI. Like OSI, the process is bilaterally symmetric. However, the gender predilection is male, and the dominant imaging feature is ankylosis starting in the sacroiliac joints progressing to the spine. OSI does not involve the joint space, will not result in ankylosis, and does not involve the spine.[18]
- Rheumatoid arthritis (RA): RA is a chronic inflammatory arthropathy more commonly involving women than men with peak presentation in middle-age. The hands and feet are most commonly involved; however, other joints such as the knee, shoulder, hip, sacroiliac, and spine can be involved. It is rare for a patient to have the involvement of a large joint without the involvement of the hands or feet. The patients will commonly present with periarticular osteopenia and erosions, unlike OSI.
- Enteropathic arthritis: The association with inflammatory bowel disease is the distinguishing feature from OSI in these patients.

Other differential considerations would include spondylosis of the lumbar spine, osteoarthritis of the femoroacetabular joints, piriformis syndrome, trochanteric or iliopsoas bursitis, muscle strain, or tendinosis. Low back and hip pain can have similar clinical presentations and physical exam findings; however, these processes can be easily distinguished from OSI on advanced MRI imaging of the lumbar spine and pelvis.

Prognosis

Osteitis condensans ilii (OCI) is associated with chronic lower back pain and sclerotic lesions on the radiographs but it is a self-limiting and nonprogressive disease. Most patients with OCI have an excellent outcome and symptoms regress in the majority of patients that's why OCI is rare in elderly patients.

Complications

Osteitis condensans ilii (OCI) is a benign and self-limiting condition that's why there are no known complications associated with it, but chronic lower back pain can affect the quality of life of patients.

Deterrence and Patient Education

As osteitis condensans ilii (OCI) is self-limiting with no proven cause, therefore there is no specific deterrence for the patients. Weight gain may be a risk factor, and thus patient education should focus on promoting healthy lifestyle choices and proper nutrition. Physical therapy has a central role in the management of pain so patients are taught different exercises to strengthen their muscles and help their pain.

Enhancing Healthcare Team Outcomes

An interprofessional approach to osteitis condensans ilii (OCI) is generally not needed as conservative management is favored. But if a rheumatologist, orthopedic surgeon, and physiotherapist along with radiologist work as a team, the outcomes in patients with OCI can be improved.

Details

References

[1]

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Level 3 (low-level) evidence

[11]

Loneragan R, Archer K, Perry A, Beale P, Van Der Wall H. Scintigraphy in osteitis condensans ilii. Clinical nuclear medicine. 2004 May:29(5):320-1 [PubMed PMID: 15069334]

[12]

Lee YC, Chen KY, Chiu JS, Kao CH, Hung GU. FDG uptake in sacroiliac joint due to osteitis condensans ilii shown on PET/CT in a patient with breast cancer: the value of coregistered CT in avoiding misinterpretation. Clinical nuclear medicine. 2012 May:37(5):e121-3. doi: 10.1097/RLU.0b013e31824c5d60. Epub [PubMed PMID: 22475923]

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Rashed R, Younis F. Methicillin Resistant Staphylococcus Aureus Sacroiliac Joint Septic Arthritis in an Adult Patient Treated with Daptomycin. Journal of bone and joint infection. 2017:2(3):143-148. doi: 10.7150/jbji.18358. Epub 2017 Apr 5 [PubMed PMID: 28540151]

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Gupta N, Verma R, Belho ES. Bone Scan and SPECT/CT Scan in SAPHO Syndrome. Indian journal of nuclear medicine : IJNM : the official journal of the Society of Nuclear Medicine, India. 2019 Oct-Dec:34(4):349-350. doi: 10.4103/ijnm.IJNM_139_19. Epub [PubMed PMID: 31579189]

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Haroon M, Ahmad M, Baig MN, Mason O, Rice J, FitzGerald O. Inflammatory back pain in psoriatic arthritis is significantly more responsive to corticosteroids compared to back pain in ankylosing spondylitis: a prospective, open-labelled, controlled pilot study. Arthritis research & therapy. 2018 Apr 17:20(1):73. doi: 10.1186/s13075-018-1565-4. Epub 2018 Apr 17 [PubMed PMID: 29665824]

Level 3 (low-level) evidence

[18]

Aslam F, Chivers FS, Doshi KB, Chang-Miller A. Positive HLA-B27 and sacroiliitis is not always spondyloarthritis. International journal of rheumatic diseases. 2019 Dec:22(12):2213-2217. doi: 10.1111/1756-185X.13738. Epub 2019 Nov 10 [PubMed PMID: 31709741]