The aims of this study were to assess the efficacy
of a newly designed radiological technique (the radial groove view)
for the detection of protrusion of screws in the groove for the
extensor pollicis longus tendon (EPL) during plating of distal radial
fractures. We also aimed to determine the optimum position of the
forearm to obtain this view. We initially analysed the anatomy of
the EPL groove by performing three-dimensional CT on 51 normal forearms.
The mean horizontal angle of the groove was 17.8° (14° to 23°).
We found that the ideal position of the fluoroscopic beam to obtain
this view was 20° in the horizontal plane and 5° in the sagittal
plane. We then intra-operatively assessed the use of the radial groove
view for detecting protrusion of screws in the EPL groove in 93
fractures that were treated by volar plating. A total of 13 protruding
screws were detected. They were changed to shorter screws and these
patients underwent CT scans of the wrist immediately post-operatively.
There remained one screw that was protruding. These findings suggest
that the use of the radial groove view intra-operatively is a good
method of assessing the possible protrusion of screws into the groove
of EPL when plating a fracture of the distal radius. Cite this article:
The October 2013 Wrist &
Hand Roundup360 looks at: Cost effectiveness of Dupuytren’s surgery; A 'new horizon' in distal radius imaging; Undisplaced means undisplaced; The mystery of the distal radial fracture continues; How thick is thick enough?: articular cartilage step off revisited; Is the midcarpal joint more important than we think?; Plates and Kirschner wires; Better early results with an IM nail?
Penetration of the dorsal screw when treating
distal radius fractures with volar locking plates is an avoidable complication
that causes lesions of the extensor tendon in between 2% and 6%
of patients. We examined axial fluoroscopic views of the distal
end of the radius to observe small amounts of dorsal screw penetration,
and determined the ideal angle of inclination of the x-ray beam
to the forearm when making this radiological view. Six volar locking plates were inserted at the wrists of cadavers.
The actual screw length was measured under direct vision through
a dorsal approach to the distal radius. Axial radiographs were performed
for different angles of inclination of the forearm at the elbow. Comparing axial radiological measurements and real screw length,
a statistically significant correlation could be demonstrated at
an angle of inclination between 5° and 20°. The ideal angle of inclination
required to minimise the risk of implanting over-long screws in
a