Echogenicity of Palmar Dupuytren's Nodules Is Not a Predictor of Disease Progression in Terms of Increase in Nodule Size

The association between echogenicity and progression of Dupuytren's disease (DD): Birth of an imaging biomarker?

BACKGROUND

The shift of focus towards disease-controlling treatments to prevent DD progression at an early stage underlines the need for objective and reliable measurements that can monitor and predict the course of disease. Ultrasound has been studied as a potential tool for this purpose. This study examined to what extent echogenicity of early DD nodules predicts clinical progression.

METHODS

Sonographic assessments of Dupuytren's nodules were performed by the same observer on 151 participants as part of an ongoing prospective cohort study on the course of DD. Echogenicity was assessed by determining the greyness of a nodule relative to the surrounding tissue, using ImageJ software. Progression of disease was defined as 1) an increase in total passive extension deficit (TPED) of ≥15 degrees and 2) surgical intervention of the examined ray, both occurring after the sonographic assessment. The associations between echogenicity and time to progression were estimated using Cox-regression models.

RESULTS

The association between echogenicity and time to TPED progression showed that for every additional decrease of 1% in relative greyness (darker image) of a nodule, the risk of TPED progression during follow-up increases by 3.4% (hazard ratio [HR] = 0.966, 95% confidence interval [CI]: 0.935-0.966). Similarly, echogenicity was also associated with time to surgical intervention (HR = 0.967, 95% CI: 0.938-0.997), which indicates a higher risk for surgery during follow-up for darker nodules.

CONCLUSIONS

These results suggest that echogenicity is predictive of the prognosis of the early stages of DD and might potentially be used as a prognostic imaging biomarker in the future.

Tardigrade and Manifold Sign: Two New Signs in Dupuytren's Disease

Dupuytren's disease (DD) is a chronic benign fibroproliferative disorder of the palmar and digital fasciae. It is characterized by formation of nodules and fibrous cords that may eventually lead to contractures with permanent flexion of the finger joints. Correction of the flexion contractures in advanced disease is still performed by open limited fasciectomy; ultrasonography (US)-guided minimally invasive treatment is preferred for early disease.We provide an overview of the detailed anatomy of the palmar aponeurosis and the structures that may be involved in DD. Although magnetic resonance imaging is used as the gold standard, these small anatomical structures are often better visible on US. We describe two new morphological signs due to thickening of these small structures in patients with DD: the tardigrade sign and the manifold sign. Familiarity with detailed imaging anatomy and these new imaging signs of DD will help confirm a correct and early diagnosis and distinguish this disease from various other entities.

Echogenicity of Dupuytren's nodules is correlated to myofibroblast load and nodule hardness

This study aimed to determine the association between the echogenicity of Dupuytren's disease nodules and myofibroblast load, and between echogenicity and nodule hardness. Thirty-eight nodules were assessed sonographically. The echogenicity of nodules was measured objectively with Image J (grey-value) and subjectively by visual inspection (hypo-, mixed and hyper-echogenicity). These findings were compared with myofibroblast load measured by histopathological analysis. In a different cohort, 97 nodules were assessed for grey-value and nodule hardness using a tonometer. There was a moderate, significant, negative association between grey-value and myofibroblast load and the subjective visual measurements corresponded to this finding. There was also a moderate, significant, negative association between grey-value and nodule hardness. Ultrasound and tonometry may be useful in the selection of patients for possible future preventive treatments.

The EFSUMB Guidelines and Recommendations for Musculoskeletal Ultrasound - Part I: Extraarticular Pathologies

The first part of the guidelines and recommendations for musculoskeletal ultrasound, produced under the auspices of the European Federation of Societies for Ultrasound in Medicine and Biology (EFSUMB), provides information about the use of musculoskeletal ultrasound for assessing extraarticular structures (muscles, tendons, entheses, ligaments, bones, bursae, fasciae, nerves, skin, subcutaneous tissues, and nails) and their pathologies. Clinical applications, practical points, limitations, and artifacts are described and discussed for every structure. After an extensive literature review, the recommendations have been developed according to the Oxford Centre for Evidence-based Medicine and GRADE criteria and the consensus level was established through a Delphi process. The document is intended to guide clinical users in their daily practice.