The three-dimensional shape symmetry of the lunate and its implications

J Hand Surg Eur Vol. 2021 Jul;46(6):587-593. doi: 10.1177/17531934211004080. Epub 2021 Mar 30.

Abstract

We studied the three-dimensional (3-D) shape variations and symmetry of the lunate to evaluate whether a contralateral shape-based approach to design patient-specific implants for treatment of Kienböck's disease is accurate. A 3-D statistical shape model of the lunate was built using the computed tomography scans of 54 lunate pairs and shape symmetry was evaluated based on an intraclass correlation analysis. The lunate shape was not bilaterally symmetrical in (1) the angle scaphoid surface - radius-ulna surface, (2) the dorsal side and the length of the side adjacent to the triquetrum, (3) the orientation of the volar surface, (4) the width of the side adjacent to the scaphoid, (5) the skewness in the coronal plane and (6) the curvature of bone articulating with the hamate and capitate. These findings suggest that using the contralateral lunate to design patient-specific lunate implants may not be as accurate as it is intended.

Keywords: Avascular necrosis; Kienböck; implant; lunate; shape symmetry; statistical shape model.

MeSH terms

  • Capitate Bone*
  • Humans
  • Lunate Bone* / diagnostic imaging
  • Osteonecrosis*
  • Scaphoid Bone* / diagnostic imaging
  • Triquetrum Bone*