• Case Report
  • |
  • Open Access

Multimodality Imaging Evaluation of a Unilateral Madelung Deformity

  • David Cyruz Jan
    • Resident, Department of Radiology, University of the Philippines -Philippine General Hospital.
  • Sydiongco-Inocencio Paula Marie
    • Attending, Department of Radiology, University of the Philippines -Philippine General Hospital.

  • Corresponding Author(s): DAVID Cyruz Jan

  • Resident, Department of Radiology, University of the Philippines – Philippine General Hospital.

  • cyruzjandavid@gmail.com

  • DAVID CJ (2023).

  • This Article is distributed under the terms of Creative Commons Attribution 4.0 International License

Received : May 01, 2023
Accepted : May 18, 2023
Published Online : May 25, 2023
Journal : Journal of Case Reports and Medical Images
Publisher : MedDocs Publishers LLC
Online edition : http://meddocsonline.org

Cite this article: DAVID CJ, Sydiongco-Inocencio PM. Multimodality Imaging Evaluation of a Unilateral Madelung Deformity. J Case Rep Clin Images. 2023: 6(1): 1141.

Clinical History

A Filipino female teenager with gross deformity of her right wrist, came as an outpatient for radiographic evaluation nonspecific pain and numbness after prolonged repetitive, active wrist movements like writing and clapping, are noted with no history of trauma, infection, or surgical intervention of the aforementioned wrist.

Imaging Findings

Plain radiography of the right wrist showed a bayonet deformity characterized by increased radial inclination, proximal migration of the lunate, triangulation of the carpus, volar subluxation of the carpus, and subluxation of the distal ulna.

Multiple axial tomographic sections of the right wrist confirm the bayonet configuration. Moreover, there is a triangulation of the proximal carpus as the lunate subsides proximally with wedging in between the radius and ulna (Chevron carpus). There is no note of fractures or other potential causes of deformity.

On magnetic resonance imaging of both wrists without contrast, a Vicker ligament on the right is noted as seen in Figure 5a, appearing as a prominent right radiolunate ligament. The triangular fibrocartilage appears thickened with heterogeneous intermediate signals on the proton-density weighted and T2-weighted sequences.

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Figure 1: Postero-anterior Views of the Bilateral Wrists.

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Figure 2: 3D reconstruction of right wrist.

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Figure 3: Magnetic resonance imaging of the bilateral wrist. Note: Pointed by the green arrows are the radiolunate ligaments of the bilateral wrists.

Discussion

Background: Madelung deformity is a rare abnormality of the wrists, exhibiting female predominance and approximately less than 2% prevalence among pediatric hand deformities [1].

Clinical Perspective: During adolescence and young adulthood, clinical manifestations such as gross deformity, pain, and fatigue, with associated limited dorsal extension, ulnar deviation, and supination are observed [2]. One of the most common considerations for the development of Madelung deformity is the presence of a Vicker ligament which is an abnormally short and thickened radiolunate ligament, which is postulated by previous studies to exerting a compressive effect on the epiphyseal plate, restricting medial and volar growth of the radius [3,4].

Imaging Perspective: Plain radiography of the wrists is the imaging of choice for diagnosing Madelung deformity. Four radiographic measurements are defined to recognize it, namely: ulnar tilt, lunate fossa angle, lunate subsidence, and palmar carpal displacement [5,6].

Among these, ulnar tilt, lunate subsidence, and palmar carpal displacement are considered reliable and reproducible for quantifying the severity of the deformity on plain radiographs. Moreover, the lunate fossa angle has acceptable reliability and reproducibility for assisting in early diagnosis [5].

Magnetic resonance imaging and computed tomography are not routinely performed for radiographic assessment of Madelung deformity. However, the aforementioned Vicker ligament is only seen radiographically through MRI [7].

Plain computed tomography and 3D volume rendered imaging serves a purpose in surgical planning, as well as in excluding fractures and causes, especially in severely affected joints [4].

Madelung deformity presenting with mild pain and slight limitation of motion is managed conservatively by analgesics, activity restriction and volar splint. The aforementioned management shows reduction of intensity and number of episodes of pain [8].

Relative indications for surgical management of Madelung deformity include wrist pain, loss of wrist motion, and severe deformity of the wrist. Physiolysis of the Vicker ligament is hypothesized to prevent thinning of the radial physis, hence preventing further radial deformity [9].

Teaching points: Imaging evaluation is pivotal for diagnosing Madelung deformity, with plain radiography as its imaging of choice.

Ulnar tilt, lunate fossa angle, lunate subsidence, and palmar carpal displacement are reliable and reproducible radiographic measurements for objectively recognizing Madelung deformity.

MRI can reveal a Vicker ligament which may exert compressive effects on the epiphyseal growth plate of the affected radius, causing Madelung deformity.

CT offer better visualization of the osseous structures; hence it can be used to rule out other causes of deformity like fractures.

Written informed patient consent for publication has been obtained.

Final Diagnosis

Madelung deformity, right

Differential Diagnosis List

1. Deformity secondary to trauma and/or infection

2. Congenital as part of Leri-Weill dyschondrosteosis or Turner syndrome

3. Skeletal dysplasias, such as Ollier disease, diaphyseal aclasia, and mucopolysaccharidases

References

  1. Peymani A, Johnson AR, Dowlatshahi AS, Dobbe JGG, Lin SJ, et al. Surgical Management of Madelung Deformity: A Systematic Review. Hand (N Y). 2019; 14: 725-734.
  2. Resnick D, Kransdorf M. Bone and Joint Imaging (3rd ed.). Saunders. 2004.
  3. De Leucio A, Castelein S, Bellemans M, Simoni P. Radiotriquetral Ligament in Madelung’s Deformity Associated with Leri-Weill’s Dyschondrosteosis. Cureus. 2020; 12: e7100.
  4. Babu S, Turner J, Seewoonarain S, Chougule S. Madelung’s Deformity of the Wrist-Current Concepts and Future Directions. J Wrist Surg. 2019; 8: 176-179.
  5. McCarroll HR Jr, James MA, Newmeyer WL, Molitor F, Manske PR. Madelung’s deformity: quantitative assessment of x-ray deformity. J Hand Surg Am. 2005; 30: 1211-1220.
  6. McCarroll HR Jr, James MA, Newmeyer WL, Manske PR. Madelung’s deformity: diagnostic thresholds of radiographic measurements. J Hand Surg Am. 2010; 35: 807-812.
  7. Hanson TJ, Murthy NS, Shin AY, Kakar S, Collins MS. MRI appearance of the anomalous volar radiotriquetral ligament in true Madelung deformity. Skeletal Radiol. 2019; 48: 915-918.
  8. Shahi P, Sudan A, Sehgal A, Meher D, Meena U. Madelung Deformity of the Wrist Managed Conservatively. Cureus. 2020; 12: e8225.
  9. Ghatan AC, Hanel DP. Madelung deformity. J Am Acad Orthop Surg. 2013; 21: 372-382.

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