Classification

As stated, many traumatic conditions involving rupture or stretching of wrist ligaments may result in an unstable carpus. Classifying such diversity of problems is difficult and probably unnecessary. ^, In fact, not a single classification can be thorough enough to allow categorizing all types of ligament-related carpal instabilities and yet simple enough to be easily remembered and used clinically. To overcome this, Larsen and co-workers developed a useful system to analyze each carpal instability case to rationalize its treatment. According to this scheme, any carpal instability can be described according to six independent parameters ( Table 74-1 ).

Scapholunate Dissociation

Scapholunate dissociation (SLD) describes the dysfunction that results from rupture of the links that connect the scaphoid to the lunate (primary stabilizers) and to the distal row (secondary stabilizers). Although the condition was already recognized by Destot in 1910, it was not until the publication by Linscheid and associates in 1972 that the clinical features of SLD were widely acknowledged. In some publications, the term rotary subluxation of the scaphoid has been used as a synonym of SLD; this term, however, should only be used in advanced cases in which both the SL ligaments and the scaphotrapezial-trapezoidal (STT) and scaphocapitate (SC) ligaments have failed, resulting in substantial carpal collapse with the scaphoid rotating into flexion and pronation. ^, If only the proximal SL ligaments (primary stabilizers) are disrupted, the scaphoid may appear normally aligned, with the secondary stabilizers (STT and SC ligaments) preventing carpal collapse (dynamic instability). In such circumstances, the case can be categorized as SLD but not as a rotary subluxation of the scaphoid.

Pathomechanics of SLD

Most SLDs are the consequence of a twisting injury to the wrist involving loaded hyperextension, ulnar deviation, and MC supination. Most often, this is the result of a motorcycle accident (head-on collision with the hand grasping the handlebar) or a fall from a height on the outstretched hand. There is a spectrum of injuries, from minor SL sprains to complete perilunar dislocations, all being different stages of the same pathomechanical event, as described by Mayfield and associates.

The mechanical consequences of the loss of the different scaphoid stabilizers have been investigated by different authors. ^, Partial tears of the SL membrane may be symptomatic despite minimal kinematic alteration (predynamic instability). Complete rupture of the SL membrane and ligaments, by contrast, may create substantial alteration of both kinematic and kinetic behavior of the carpus, but not necessarily a permanent malalignment (dynamic instability). In fact, as stated previously, permanent rotary subluxation of the scaphoid plus carpal collapse (static instability) is only seen if both the primary (SL) and secondary (STT and SC) ligaments have failed. Injury to the secondary stabilizers rarely occurs acutely, but as a result of the stress imposed by the distal row on the proximally unconstrained scaphoid. In such circumstances, the loaded lunate and triquetrum tend to rotate into abnormal extension (dorsal intercalated segment instability), supination, and radial deviation, whereas the scaphoid tends to collapse around the radioscaphocapitate ligament into abnormal flexion, ulnar deviation, and pronation ( Fig. 74-1 ).

A 24-year-old man who sustained a motorcycle accident. A , Four months after injury, a painful clunking in radial deviation appeared, together with weakness when loading the wrist. Posteroanterior view demonstrating static scapholunate (SL) dissociation. B , Schematic representation of the malalignment observed radiographically: the capitate is trying to edge into the SL gap, while the scaphoid has collapsed into flexion and the lunate has rotated into extension. C , Contralateral wrist showing normal SL relationships. D , MRI scan demonstrating the empty space created between the scaphoid and the lunate filled with inflammatory fluid.

When the scaphoid has collapsed in such a rotatory fashion, its proximal pole has a propensity to sublux dorsoradially ( Fig. 74-2 ). This creates increased compressive and shear stress on the dorsal and lateral corner of the scaphoid fossa, explaining the early development of degenerative changes at that level. The lunate, by contrast, even if abnormally extended, maintains normal congruency with the lunate fossa, and this explains why the radiolunate joint is so seldom affected by the degeneration process. The term scapholunate advanced collapse (SLAC) has been proposed to refer to this clinical condition in which there has been a progression of degenerative changes from an isolated radial styloid-scaphoid impingement (stage 1), to complete radioscaphoid osteoarthritis (stage 2) and MC arthritis (stage 3).

Lateral radiograph of the wrist of the patient of Figure 74-1 . A , The scaphoid subluxing dorsally during wrist radial deviation. B , Outlines of the bones as seen in the lateral projection. C , MRI scan demonstrating the scaphoid “skating” onto the edge of the scaphoid fossa, surrounded by intra-articular fluid.

Clinical Examination

After a thorough evaluation of the patient’s history, with special emphasis on the mechanism of injury, the clinical examination needs to be exhaustive, systematic, and bilateral. The external appearance of a wrist with SLD often is not particularly dramatic: swelling is generally moderate and motion may be almost normal. Palpation of areas of maximal tenderness is one of the keys in the diagnosis of this pathology, especially in patients with chronic SLD. If sharp pain is elicited by pressing the area just distal to Lister’s tubercle, the probability of an SLD problem is high.

A useful maneuver to investigate scaphoid instability is the scaphoid shift test, described by Watson and associates. If the SL ligaments are torn, pressure on the palmar-distal scaphoid tuberosity while the wrist is moved from neutral to radial deviation induces a dorsal subluxation of the proximal pole of the scaphoid out of the radius, inducing pain. When pressure is released, a clunking may occur, indicating self-reduction of the scaphoid. This test is very sensitive but poorly specific. Comparison with the contralateral normal side is important.

Radiographic Examination

Static SLD may be easily suspected by evaluating standard posteroanterior (PA) and lateral radiographs. Three major features define the lesion: (1) an increased asymmetrical SL joint space greater than 5 mm; (2) the scaphoid has a foreshortened appearance in the PA view, with the scaphoid tuberosity being projected in the form of a radiodense circle or ring over the distal two thirds of the scaphoid; and (3) on the lateral projection, the SL angle is greater than 70 degrees, being asymmetrical relative to the other side.

Because dynamic SLD is difficult to diagnose with standard radiographs, when the condition is suspected, wrist evaluation under fluoroscopy is recommended. The patient is to actively move the wrist while the examiner looks for any abnormal SL gap appearing in some wrist position. Passively stressing the joint (traction or axial compression) in different wrist positions may also be of help.

Injecting dye in the joint and analyzing postinjection MRI or computed tomography scans may also be useful to diagnose SLD. When interpreting these scans, however, care must be taken not to confuse degenerative perforations of the proximal carpal membranes with true ligament ruptures. One must also be aware that such abnormalities may be bilateral, with only one side being symptomatic. Because of these limitations, the use of these methods has diminished in favor of arthroscopy, certainly the gold standard technique in the diagnosis of intracarpal derangements, ^, as it is discussed in Chapter 77 .