The scapholunate interosseous ligament (SLIL) is the primary stabilizing ligament between the scaphoid and lunate bones(1). SLIL is a U-shaped structure composed of three distinct parts: the dorsal, the proximal (or membranous) and the volar. The dorsal component of the SLIL is composed of short, transversely oriented collagen fibers, and it is the thickest and strongest portion, therefore playing the most crucial role in midcarpal stabilization. The proximal or membranous part is principally composed of fibrocartilage and extends into the scapholunate joint space, resembling a meniscus. Finally, the volar portion consists of thinner collagen fascicles(1,2).
Traumatic injuries or progressive degenerative changes of SLIL can lead to internal derangement of carpal bones(3,4), instability of midcarpal joints (often associated to production of synovial ganglion cysts), and eventually to scapholunate advanced collapse (SLAC), which is the most common cause of osteoarthritis involving the wrist(5). Both calcium pyrophosphate dihydrates (CPPD) crystal deposition disease (CPDD) arthropathy and rheumatoid arthritis (RA) are rheumatologic conditions associated with wrist instability and SLAC(6–9).
In case of nontraumatic wrist pain, and especially in the suspicion of rheumatologic diseases, the evaluation of internal wrist derangement is often neglected, as the majority of clinical and imaging studies are focused on synovitis(10). Moreover, even if ultrasound (US) and power Doppler US (PDUS) has been extensively used in rheumatologic settings to detect wrist synovitis, scanty US studies have assessed degenerative changes of radiocarpal and midcarpal joints(11), and recent guidelines have ruled US as a second-choice technique or not appropriate for SLIL evaluation(12,13).
The improvement of US systems with high resolution transducers has improved the quality of evaluation of SLIL and the scapholunate space, defining its measurements in healthy subjects(14,15). Moreover, wrist ganglia are not infrequently associated with internal derangement of the wrist, and are characteristically located close to the SLIL(14,16,17). Dorsal synovial cysts of the wrist can sometimes exhibit vascular signals on PDUS, and they can be misinterpreted as a radiocarpal synovitis.
In this context, we aimed to describe US abnormalities of the SLIL region in patients referring for wrist pain and/or swelling in a rheumatologic secondary setting, and to correlate these findings with clinical data, presence of dorsal ganglion cysts and conclusive diagnoses of associated rheumatic conditions.
Seventy-four consecutive outpatients (28 males, 46 females, mean age 59.2 years) referred in our secondary care setting for unilateral or bilateral wrist pain and/or swelling, were evaluated between December 2019 and August 2020, with routine bilateral PDUS examination by an expert rheumatologist sonographer, at the beginning of the diagnostic pathway. The exclusion criterion was a history of major trauma of the wrist or hand region.
All patients were clinically re-evaluated at the end of the diagnostic pathway, when a definite diagnosis of rheumatic disease was available (the diagnosis was based on shared diagnostic criteria and the experience of the referring rheumatologist). The whole group was then divided into 3 sub-groups: 1 – no rheumatic disease or biomechanical conditions, 2 – degenerative diseases (osteoarthritis), 3 – inflammatory rheumatic diseases (rheumatoid arthritis, spondylarthritis, connective tissue diseases, crystal deposition diseases).
At the time of examination, the sonographer was blinded to the patient’s definite diagnosis. Each patient underwent bilateral dynamic B-mode US and PDUS examination of both wrists with a standardized scanning method(11). PDUS was performed using an Esaote MyLab Twice (Esaote SpA, Genoa, Italy) unit equipped with broadband 6–18 MHz (LA435) and 10–22 MHz (SL3116) linear transducers and standardized B-mode and Doppler settings, which were optimized for all examinations. The Doppler parameters included pulse repetition frequency within 500–750 Hz and Doppler frequency within 6.3–11.1 MHz.
The scapholunate region was studied in longitudinal and axial dorsal scans. A dynamic scanning technique (using slight movements of the probe from side to side, and rotation) was carried out in order to allow the best visualization of the dorsal portion of SLIL and the scapholunate space (between the radial margin of the dorsal horn of the lunate and the ulnar-dorsal margin of the scaphoid, as described by Manske)(14). The width of the scapholunate joint was measured at the central interval, immediately underneath the dorsal portion of SLIL, as reported by Manske(14). The mean value of three repeated measurements was recorded for each wrist. The examination was first completed with the 6–18 MHz transducer, while the 10–22 MHz device was eventually used to better define the smallest details of ligament structures.
Degenerative changes of SLIL were recorded and graded on a 3-point scale where: 0 = normal SLIL (linear appearance, regular and homogeneous thickness, without discontinuity) (Fig. 1), 1 = moderate degeneration of SLIL (inhomogeneous and hypoechoic echostructure, maldefinition and/or convexity of superficial profile) (Fig. 2), 2 = severe degeneration of SLIL (absence of definite ligamentous structure, with dissociation >3.5 mm between scaphoid and lunate) (Fig. 3) (modified from Kashiyama(18)). If necessary, in order to better define scapholunate dissociation, a dynamic scanning technique was added to the routine scanning protocol: the patient was asked to slowly move the hand in palmar flexion and ulnar deviation.
The presence of dorsal synovial ganglion cysts was always assessed, and graded on a 3-point scale where: 0 = absence of ganglion cyst, 1 = cyst with superficial margin below the deep surface of extensor digitorum communis tendon (Fig. 2), 2 = voluminous cyst extending beyond the deep surface of extensor digitorum communis tendon (Fig. 4). PD signal was evaluated in the cyst walls and recorded as present (PD score 1) or absent (PD score 0) (Fig. 4).
The presence of hyperechoic deposits (calcifications suggestive for CPPD crystals) in the scapholunate joint space or SLIL was recorded (Fig. 5), as well as the presence of osteophytosis over the profile of the two bones (Fig. 6). A dichotomous score for the presence/absence of hyperechoic deposits (at least two distinct spots) in the ligament and osteophytosis of the scapholunate joint was adopted. CPPD crystal deposits were assessed and defined according to the Outcome Measure in Rheumatology (OMERACT) definitions(7,19,20).
The presence of radiocarpal and midcarpal synovitis, tenosynovitis, and erosions was recorded as performed in routine practice. PDUS grading of synovitis was graded on a 3-point scale as defined in European League Against Rheumatism (EULAR)-OMERACT combined scoring system for grading synovitis(21).
A preliminary observation of 40 wrists was performed in 20 normal subjects selected from hospital personnel in order to confirm the normal width of the scapholunate joint, and to calculate the coefficient of variation for this procedure. All subjects had a comparable age and sex, did not suffer from wrist pain or swelling, nor any rheumatic disease.
All patients gave their informed consent to undergo the routine diagnostic pathway. The study was carried out in compliance with the Helsinki Declaration, but ethical approval was not required in view of the retrospective nature of the study and the fact that all the procedures were performed as part of routine clinical practice.
The demographic and PDUS characteristics of patients, divided into three groups according to the final diagnosis, were compared. The data are reported as means ± standard deviation (SD) for continuous variables, whereas categorical and dichotomous variables are reported as frequencies and percentages. The Kruskal-Wallis test, with Dunn post-test for multiple comparisons, was used to compare the means of continuous variables between the groups. The Fisher’s exact test was used to compare the percentages between the groups for categorical variables. Multivariate and univariate linear regression analysis was applied to determine the effects of variables on the outcome, and to define the correlation. The non-parametric Spearman rank test was applied for the correlation of variables. The level of statistical significance was set at a p-level of 0.05. Statistical analyses were performed using the InStat GraphPad (La Jolla, California) statistical package.
The preliminary analysis of healthy wrists demonstrated a mean width of the scapholunate joint of 2.49 mm (SD ± 0.49). The coefficient of variation on repeated measurements was 3.662%.
A total of 74 patients (mean age 59.2 years, SD 14,2) underwent PDUS examination for wrist pain and/or swelling (128). The whole group was divided into 3 sub-groups on the basis of their final diagnosis, as shown in Tab. 1.
Demographic characteristics and ultrasound findings of patients as a whole and split up for final diagnosis. Data are expressed as means (± standard deviation) or percentages. The level of statistical significance was set at a p-level of 0.05
Overall | Group 1 (no rheumatic or biomechanical disorders) | Group 2 (degenerative diseases) | Group 3 (inflammatory diseases) |
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|
|
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|
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59.2 (± 14.2) [18–87] | 43.4 (±13.6) [18–60] | 64.1 (±6.2) [53–71] | 62.7 (±13.1) [30–87] |
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28/46 | 4/13 | 5/13 | 19/20 | |
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|
|
|
|
|
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1.1 (±0.63) | 0.8 (±0.56) | 1.18 (±0.53) | 1.15 (±0.67) |
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2.67 (±0.66) [1.8–4.6] | 2.51 (±0.49) [1.8–3.6] | 2.70 (±0.56) [1.9–4.4] | 2.69 (±0.7) [1.9–4.6] | ns 0.503 |
|
54 (42.1%) | 1 (3.8%) | 16 (50%) | 37 (52.8%) |
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28 (21.8%) | 0 | 4 (12.5%) | 23 (32.8%) |
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42 (32.8%) | 24 (92.3%) | 11 (34.3%) | 7 (10%) |
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52 (40.6%) | 0 | 8 (25%) | 44 (62.8%) |
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0.31 (±0.59) | 0 | 0 | 0.58 (±0.71) |
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0.27 (±0.55) | 0 | 0 | 0.50 (±0.67) |
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ns – not significant, *
The mean US grading of SLIL degeneration was significantly lower in group 1 (
In a model of multivariate regression analysis, the best predictors of SLIL degeneration (r squared 0.6176) were: older age (t = 4.147,
The presence of osteophytosis and calcifications of scapholunate joint was significantly higher (
The presence of radiocarpal effusion, midcarpal and radiocarpal synovitis was detected especially in inflammatory conditions (
In a model of multivariate regression analysis, the best predictors of the presence of dorsal ganglion cysts (r squared 0.5429) were: younger age (t = 2.474, p=0.0148), absence of radiocarpal effusion (t = 3.266,
The presence of PDUS signal into the dorsal ganglion cysts was correlated to the diameter of the cysts (
The measure of scapholunate joint enlargement showed a significant correlation with older age (
The mean scapholunate joint enlargement failed to demonstrate significant differences between the three groups. However, when considering patients affected with CPDD and RA taken together, their mean values of scapholunate joint enlargement were significantly higher (2.92 mm ± SD 0.71) than those observed in other rheumatic conditions as a whole (2.6 mm ± SD 0.63) (
The use of US for the evaluation of the dorsal component of SLIL has been well described, with some reports demonstrating excellent accuracy for the visualization of this carpal structure using high-frequency US(11,14,15,18). However, US was considered a second-choice technique or not appropriate for SLIL evaluation in recent US guidelines(12,13), and US evaluation of SLIL is often neglected in common rheumatological clinical practice(22,23).
Our preliminary data about scapholunate joint width measurements in healthy volunteers seem to be comparable with previous reports(14). The measurement of the scapholunate joint space, immediately underneath the dorsal portion of SLIL, appears to be a fast and repeatable procedure. Nevertheless, as previously reported by Manske
The results of our study demonstrate a frequent involvement of SLIL in patients undergoing US examination for wrist pain and/or swelling and suspected rheumatic diseases.
The main factors associated to SLIL degeneration seem to be inflammatory rheumatic diseases, especially in older male patients. The most severe cases of SLIL involvement, with scapholunate dissociation, were observed in CPDD and RA patients, as reported in previous works(6,8,9,25), and in these cases the presence of active midcarpal synovitis seems to be a causative factor. The data suggest that older patients with CPDD or RA and midcarpal synovitis should be considered at high risk of secondary wrist arthropathy, and specific pharmacological and orthotic therapies should be suggested to prevent secondary wrist instability.
Our study confirms that US examination of SLIL may add useful information in cases of suspected CPDD. Even if our data cannot confirm that CPPD crystals could be directly associated to SLIL degeneration, the US detection of hyperechoic foci suggestive for CPPD crystals confirms its high diagnostic accuracy in the diagnosis of CPDD(7,26).
Systematic US examinations for dorsal ganglion cysts and their description can add useful information in the differential diagnosis of early arthritis. Larger cysts may often exhibit Doppler signals and they could be misinterpreted as radiocarpal synovitis. When a dorsal ganglion cyst is identified in a young subject, the absence of US-detected midcarpal swelling is a useful indicator of a noninflammatory nature of this finding. Even if SLIL degeneration grading was lower in these subjects, we suppose that dorsal ganglion cysts could be one of the first imaging signs of midcarpal instability due to structural abnormalities of SLIL, in the same manner as meniscal cysts of the knee are associated to meniscal tears(27). As arthrographic studies demonstrated that wrist compartments are often well separated, so the finding of dorsal ganglion cyst immediately over a slightly degenerated SLIL should alert the clinician to possible wrist instability due to SLIL pathology(4,28).
The study has some limitations. Firstly, it is not designed to prove that wrists with wider scapholunate joint space develop carpal instability and osteoarthritis with advancing age: only a longitudinal study is able to reliably assess the progression from an early stage of SLIL degeneration to scapholunate dissociation and subsequent secondary wrist arthropathy.
Secondly, no comparison of US measurements and findings with the imaging gold standards such as radiography or MRI was made, since the study was carried out in a scenario of real clinical practice, where only a minority of patients need to undergo other imaging techniques. However, all US measurements were standardized and repeatable on the basis of previous studies(7,14,19,20). Thirdly, the small number of subjects and nonhomogeneity of the cohort in terms of age and disease duration do not allow to draw definitive conclusions about the causative factors of SLIL degeneration. Also, further longitudinal studies are needed to define the weight of various factors (such as synovitis, disease duration, chondrocalcinosis, age) on SLIL degeneration and scapholunate joint enlargement.
US findings of SLIL degeneration and calcification, scapholunate space enlargement, and presence of dorsal ganglion cysts should be systematically reported during wrist US evaluation, as they can add useful information about the causes of wrist pain or swelling in rheumatological settings.