Innovation in diagnostic tools for wrist surgery has been remarkable in this decade.
When I started treatment of the wrist in the late 1980s, magnetic resonance imaging
(MRI) or ultrasound showed sand storm-like images. Arthrography served as an important
diagnostic technique for triangular fibrocartilage complex (TFCC) lesions then. In
the early 1990s, I performed high-resolution MRI of the wrist using small surface
coil made of copper but the quality of the image was suboptimal. Now, we have MRIs
of 3T or more, noninvasive high-quality ultrasound, and three-dimensional computed
tomography (3D-CT) that can precisely delineate tendons. These innovations are a result
of the technological developments by manufacturing companies. However, static imaging
has limitations to completely understand the joint, as the objective is to know normal
and abnormal kinematics of the wrist. Computer simulation analysis of the carpal bones
is beneficial as it shows actual joint motion in patients. Recent four-dimensional
(4D)-CT delineates actual motion of the bones during joint motion. But what about
soft tissues? Ultrasound can demonstrate motion of the soft tissues, whereas bone
indicates the acoustic shadow field.
This issue includes the “Special Review” article “Cine MRI of the Triangular Fibrocartilage
Complex during Radial–Ulnar Deviation.” The authors describe that cine-MRI can demonstrate
behavior of the TFCC during radial and ulnar deviation. Please look at the videos
on the Journal website that demonstrate normal changes in the shape of the TFCC and
abnormal behavior of the TFCC in the patients. Interesting articles on wrist treatment,
such as the ulnar shortening, scaphoid fracture, TFCC lesion, scapholunate ligament
lesion in distal radius fracture, wrist biomechanics, and survey for scaphoid proximal
pole fracture, are also included in this issue. Don't miss it.
