On transverse computed tomographic (CT) scan cuts of the thoracolumbar spin
e, the naked facet sign occurs when the inferior articular facets of the ce
phalad vertebra do not appear adjacent to the superior facets of the subjac
ent caudal vertebra. The objective of this study was to determine the angle
s of rotation required for the naked facet sign to occur in the thoracolumb
ar spine, with the center of rotation located at various points in or anter
ior to the vertebral body. A commercial spinal model and visualization soft
ware were used to simulate various flexion injuries. Each functional spinal
unit (FSU; T11-T12, T12-L1, and L1-L2) was examined separately. In the mod
el, two CT scan slices (each 2 mm thick) were created parallel to the infer
ior end plate of the cephalad vertebra of each FSU. The cephalad vertebra w
as rotated in 0.5 degrees increments, and after rotation both modeled CT sl
ices were examined for the presence of the naked facet sign. If the sign di
d not occur, the process was repeated, rotating the cephalad vertebra an ad
ditional 0.5 degrees until the naked facet sign occurred. The angle of rota
tion necessary for the sign to occur increases as the point of rotation of
the vertebra moves from anterior to posterior and from superior to inferior
. The naked facet sign occurred at a minimum rotation angle of 5 degrees (w
ith respect to the anterior-superior point on T11) and at a maximum rotatio
n angle of 16.5 degrees (with respect to the posterior-inferior paint on L1
). For rotations about a point located 3 cm anterior to the vertebral body,
the minimum angles required for the sign decreased only 1 degrees for each
FSU. These results suggest that the naked facet sign does not consistently
imply the presence of posterior column vertebral instability. This will he
lp clinicians to relate the mechanism of injury, radiographic findings (inc
luding the naked facet sign), and the implied injury pattern to the determi
nation of stability, and ultimately the management options for the injury.