rss
BMJ Case Reports 2009; doi:10.1136/bcr.09.2008.0900
  • Rare disease

The “fish-vertebra” sign

  1. Panagiotis G Ntagiopoulos1,
  2. Dimitrios Anestis Moutzouris2,
  3. S Manetas2
  1. 1
    Guy’s and St Thomas’, NHS Trust, London, SE1, UK
  2. 2
    ‘Evangelismos’ General Hospital, Athens, Athens, 11521, Greece
  1. ntagiopoulos{at}hotmail.com
  • Published 2 February 2009
 
Next Section

Summary

The “fish-vertebra” sign appears as biconcave lumbar vertebrae with bone softening in lateral and posterior–anterior radiographs of the spine as an exaggeration of the normal concavity of the superior and inferior surfaces of one or more vertebral bodies. This is due to ischaemia of the central growth plate of the spine, and is typically seen in sickle cell disease.

Previous SectionNext Section

BACKGROUND

This is a case report about a radiological sign appearing in the spinal x ray of a 58-year-old patient with sickle cell disease (SCD), who presented at the emergency department with lumbar pain. The “fish-vertebra” sign appears as biconcave lumbar vertebrae with bone softening in lateral and posterior–anterior radiographs of the spine as an exaggeration of the normal concavity of the superior and inferior surfaces of one or more vertebral bodies (fig 1).1 The above vertebral changes, characteristic of SCD, are the result of ischaemia (due to micro-infarctions) of the central portion of the vertebral growth plate, with a consequent disturbance of vertebral growth.2,3

Figure 1
View larger version:
Figure 1 Thoracolumbar x ray (lateral view) of a 58-year-old man with sickle-cell disease (SCD), showing the characteristic “fish-vertebra” sign.

Survival of this range is uncommon for a patient with SCD, as death in men usually occurs before the age of 48 years.

Previous SectionNext Section

CASE PRESENTATION

A 58-year old man presented with lumbar back pain. Plain radiographs demonstrated the “fish-vertebra” sign.

Previous SectionNext Section

DIFFERENTIAL DIAGNOSIS

Thalassemia, Legg–Calvé–Perthes and Gaucher disease.

Previous SectionNext Section

DISCUSSION

The fish-vertebra sign is a smooth deformity of the vertebral bodies, with a characteristic biconcave body occurring as a result of squared-off depression of the vertebral end-plates and compression by adjacent intervertebral discs.3 SCD is a systemic hereditary disorder most commonly found in African Americans, in which fetal haemoglobin is replaced by abnormal sickle cell haemoglobin. It manifests in the second half of the first year of life. Two forms are recognised: homozygotic, HbSS (sickle cell anaemia), and heterozygotic, HbSA (sickle cell trait) or HbSC (less severe form). Vaso-occlusive phenomena and haemolysis are the clinical hallmarks of the disease, resulting in several painful episodes (sickle cell crises) and a variety of striking organ system complications that can lead to lifelong disabilities or death.4 The radiological appearance of SCD depends on the severity and chronicity of the disease. Radiographic findings due to marrow hyperplasia include osteoporosis, “hair-on-end” appearance at the skull, “fish vertebra” and pathological fractures. Bone infarction causes avascular necrosis of long bones (mainly hip), epiphysial deformity and biconcave vertebrae. Infection-related radiographic findings include septic arthritis and periostitis.5 Diagnostic radiology is not specific for vaso-occlusive crises (VOC), and the differentiation between VOC and osteomyelitis can be a challenge. Nevertheless, VOC is much more frequent than osteomyelitis, responding rapidly to aggressive pain management, and presented in another healthy child with little or no fever.6 However, symptoms and clinical features may be identical.7 Radiographs may show bone infarcts but also signs of infection in a vascularly compromised bone.8 Although bone scans are not helpful in differentiating bone infarction from osteomyelitis, magnetic resonance imaging can be more specific.9 Differential diagnosis of the above radiological findings include thalassemia, Legg–Calvé–Perthes and Gaucher disease (table 1). However, radiological findings in thoracolumbar spine are characteristic for SCD.

View this table:
Table 1 Differential diagnosis of radiological findings in sickle cell disease

Advances in medical treatment have led to a prolongation of life expectancy in patients with sickle cell haemoglobinopathies. Median age at death for patients with SCD is 42 years for men and 48 years for women.10 Treatment of pain and hydration remain the main interventions in the management of sickle cell crises. Hydroxyurea has been shown to prevent VOC by increasing the amount of fetal haemoglobin. Allogeneic stem-cell transplantation is the only curative treatment.11

In conclusion, the fish-vertebra sign is part of the spectrum of SCD and is distinguished by the biconcavity and the bone softening of the vertebral bodies. It is mostly characteristic in SCD and can be helpful in the differential diagnosis of other conditions with similar radiological findings.

LEARNING POINTS

  • The fish-vertebra sign is part of the spectrum of Sickle Cell Disease

  • Characterized by the biconcavity and the bone softening of the vertebral bodies.

  • Can be helpful in the differential diagnosis of other conditions with similar radiological findings.

Previous SectionNext Section

Acknowledgments

This article has been adapted with permission from Ntagiopoulos PG, Moutzouris DA, Manetas S. The “fish-vertebra” sign. Emerg Med J 2007;24:674–5.

Previous SectionNext Section

Footnotes

  • Competing interests: None.

Previous Section
 

REFERENCES

    1. Resnick D
    1. Resnick D
    . Hemoglobinopathies and other anemias. In: Resnick D, ed. Diagnosis of bone and joint disorders. 4th edn. Philadelphia: WB Saunders, 2002: 214787.
    1. Kooy A,
    2. de Heide LJM,
    3. ten Tije AJ,
    4. et al
    . Vertebral bone destruction in cell disease-infection, infarction or both. Neth J Med 1996; 48: 22731.
    [CrossRef][Medline]
    1. Williams HJ,
    2. Davies AM,
    3. Chapman S
    . Bone within a bone. Clin Radiol 2004; 59: 13244.
    [CrossRef][Medline]
    1. Bunn HF
    . Pathogenesis and treatment of sickle cell disease. N Engl J Med 1997; 337: 762.
    [FREE Full text]
    1. Stoller DW
    1. Stoller DW,
    2. Tirman PFJ,
    3. Bredella MA
    . Sickle cell anemia. In: Stoller DW, ed. Diagnostic imaging–orthopaedics. Canada: Amirsys, 2004; 1: 7.2225.
    1. Embury SH,
    2. Vichinsky EP
    . Overview of the clinical manifestations of sickle cell disease. Available at http://www.uptodate.com (accessed 9 Aug 2006).
    1. Keeley K,
    2. Buchanan GR
    . Acute infarction of long bones in children with sickle cell anemia. J Pediatr 1982; 101: 1705.
    [CrossRef][Medline][Web of Science]
    1. Dirschl DR,
    2. Osteomyelitis Almekinders LC
    : common causes and treatment recommendations. Drugs 1993; 45: 2943.
    [Medline][Web of Science]
    1. Moore SC,
    2. Bisset GS,
    3. Siegel MJ,
    4. et al
    . Pediatric musculoskeletal MR imaging. Radiology 1991; 179: 34560.
    [Abstract/FREE Full text]
    1. Platt OS,
    2. Brambilla DJ,
    3. Rosse WF,
    4. et al
    . Mortality in sickle cell disease. Life expectancy and risk factors for early death. N Engl J Med 1994; 330: 1639.
    [Abstract/FREE Full text]
    1. Schnog JB,
    2. Duits AJ,
    3. Muskiet FA,
    4. et al
    . Sickle cell disease; a general overview. Neth J Med 2004; 62: 36474.
    [Medline][Web of Science]

This Article

  1. Summary
  2. Full text

Responses

  1. Submit a response
  2. No responses published

Register for free content

The full text of all Editor's Choice articles and summaries of every article are free without registration

The full text of Images in ... articles are free to registered users

Only fellows can access the full text of case reports (apart from Editor's Choice) - become a fellow today, or encourage your institution to, so that together we can grow and develop this resource

Don't forget to sign up for content alerts so you keep up to date with all the case reports as they are published, and let us know what you think by commenting on the Editor's blog