Bamboo spine – X-ray findings of ankylosing spondylitis revisited

Antoinette Reinders, MB ChB

Matthys J van Wyk, MB ChB, FCRad Diag (SA)

Department of Diagnostic and Interventional Radiology, University of the Free State, Bloemfontein

 

Corresponding author: A Reinders (antoinette.reinders@gmail .com)

Ankylosing spondylitis is a debilitating disease that is one of the sero-negative spondylarthropathies, affecting more males than females in the proportion of about 6:1 in the age group 15 - 35 years of age. Early radiographic findings include bilateral sacro-iliitis and early axial (lower lumbar spine) ankylosis. Typical X-ray findings are florid spondylitis (Romanus lesions), florid diskitis (Andersson lesions), early axial ankylosis, enthesitis, syndesmophytes and insufficiency fractures. Typical radiological abnormalities are pointed out on conventional X-rays and reviewed for early diagnosis and prompt treatment of patients at risk.

S Afr J Rad 2012;16(3):111-113. DOI:10.7196/SAJR.684

Ankylosing spondylitis (AS) is one of the sero-negative spondylo-arthropathies.1 This group of arthritides is characterised by specific skeletal imaging findings and, biochemically, by the absence of rheumatoid factor or nodules, and the presence of the HLA-B27 gene. These spondylo-arthropathies can be divided into 5 major groups: (i) ankylosing spondylitis, (ii) reactive arthritis/Reiter’s syndrome, (iii) arthritis associated with inflammatory bowel disease, (iv) psoriatic arthritis and (v) undifferentiated spondylo-arthropathy.1

AS is a debilitating disease, affecting mostly white men, with a male:female ratio of about 6:1 within the age group 15 - 35 years of age. Early lumbar axial ankylosis and spinal involvement is more marked in male patients than female, with early radiographic signs of hip involvement.2-4

Classic joint involvement includes: bilateral sacro-iliac, thoraco-lumbar and lumbo-sacral joints (early) and cervical spine (late).5 The peripheral skeleton is involved in 10 - 20% of cases, with apical fibrosis of the lung parenchyma reported in only 1% of AS patients.6 Additional cardiac manifestations, such as aortic valve and root abnormalities, and with conduction and rhythm abnormalities, have also been reported in 2 - 10% of patients.6

Genetic susceptibility has been mentioned as a causative factor, with 96% of patients testing positive for the HLA-B27 gene.1 Associated diseases include: ulcerative colitis, iritis and aortic insufficiency. Prognosis depends on age at first presentation, as well as the radiological grade, as defined by either the Bath Ankylosing Spondylitis Radiology Index (BASRI) – for cervical and lumbar spine and hips – or the Modified New York Criteria for the Extent of Sacro-iliitis, with lumbar and bilateral sacro-iliac joint involvement being marked in the early years of the disease.6

Pathology and imaging characteristics

In this pictorial essay, we focus on the characteristic axial skeleton imaging findings of AS, as it presents on conventional X-ray:1

• florid anterior spondylitis (Romanus lesions)

• florid diskitis (Andersson lesions)

• insufficiency fractures of the ankylosed spine

• syndesmophytes

• enthesitis of the interspinal ligaments

• ankylosis.

Romanus lesions (florid anterior spondylitis)

It is best to describe these lesions in terms of a disco-vertebral unit (DVU). This ‘unit’ comprises the superior half of the inferior vertebrae, plus the intervertebral disc, plus the inferior half of the superior vertebrae.1 Typical Romanus lesions are situated at the attachment of the annulus fibrosis to the vertebral endplate, and can be in the anterior, posterior or marginal regions of the DVU. Irregularities and erosions of the vertebral endplates are characteristic of acute inflammation. Post-inflammatory changes are known as ‘shiny corners’, which appear as sclerotic lesions in the same anatomical location on the vertebral endplate.1 When these lesions are present, ‘squaring’ of the vertebrae can be appreciated, with progressive loss of the lumbar lordosis (Fig. 1).

Fig 1. Lateral lumbar spine view. Note the ‘squaring’ of the lumbar vertebrae (open arrowhead), together with the central radio-dense region in the vertebral endplate of the 5th lumbar vertebra, superiorly (white arrowhead). This is known as an Andersson lesion.

Andersson lesions (florid diskitis)

These appear as irregularities and erosions of the vertebral endplates (Fig. 1), not related to the anterior or posterior edge but rather to the central portions of the intervertebral discs. These are better visualised by MR images of the spine, but can be seen on conventional X-ray and are indicative of active inflammation.1

Insufficiency fractures

These can be referred to as ‘non inflammatory Andersson lesions’ and are a not uncommon complication of advanced disease.1 They can be classified into 2 basic categories: (i) spontaneous or (ii) following minimal trauma.7 The fractures are typically 3-column, involving either the disc space or juxta-articular endplate. The second category typically occur near the cervico-thoracic or thoraco-lumbar junctions. Delay in treatment can cause pseudoarthrosis, which can be seen on conventional X-rays as subchondral sclerosis and vertebral endplate erosions.7

Syndesmosphytes

These are paravertebral ossifications that resemble an osteophyte, but run in the vertical rather than the horizontal plane (Fig. 2).8 They are not due to calcification of the anterior longitudinal ligament but rather ossification of the anterior portion of the annulus fibrosis of the intervertebral disc. The lesions are preceded by a Romanus lesion, and are symmetrical and marginal. About 15% of affected patients show evidence of syndesmophytes.1

Fig. 2. Lateral cervical spine X-ray. The white arrowhead indicates syndesmophytes, representing calcification of the anterior portion of the annulus fibrosis. Calcification of the interspinous ligaments can also be seen (open arrowhead).


Enthesitis (trolley track and dagger signs) 9

Ossification of the supraspinous and interspinous ligaments produces a characteristic single or double radio-dense sign on the AP view of the spine (Fig. 3). The trolley track sign derives from the 2 lateral lines of ossification representing the apophyseal joint capsules, and the dagger sign from the central line of ossification visible on the AP view. Enthesitis precedes ossification of the ligaments.9

Fig. 3. Antero-posterior view of the thoracic and lumbar spine. Note the calcification of the interspinous ligaments secondary to enthesitis, with the classic dagger sign (white arrowheads) stretching into the pelvis. The trolley track sign can also be seen in the lower lumbar spine and thoracic spine (open arrowheads), lateral to the calcified interspinous ligaments, representing the calcified apophyseal joint capsules.


Ankylosis

Ankylosis of several of the joints causes structural abnormalities of the axial skeleton. Marked ankylosis is seen at the sacro-iliac joints (Fig. 4) and facet joints of the thoracic spine, and costovertebral and costotransverse joints1 that causes an exaggerated kyphosis with decreased chest expansion during inhalation and increased susceptibility to respiratory tract infections.

Fig. 4. Antero-posterior view of the pelvis. The open arrowheads indicate marked ankylosis of the hips and sacro-iliac joints.


Conclusion

AS is a debilitating disease with very specific radiological abnormalities that can, if detected early, be successfully managed by medical and physical therapy. It remains the role of the radiologist to keep a look-out for early radiological abnormalities in susceptible patients.

 

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