Tendon injuries represent the second most common injury of the hand (after fractures) and are a common scanning indication in radiology. Pulley injuries are very frequent in rock climbers with the A2 pulley the most commonly affected. Tendon and pulley injuries can be reliably evaluated using ultrasound (US) and magnetic resonance imaging (MRI). US can be postulated as a first-line imaging modality, allowing dynamic examination. MRI is essential for cases with ongoing diagnostic doubt post-US and also for preoperative pulley reconstruction assessment.
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.
The second part of the Guidelines and Recommendations for Musculoskeletal Ultrasound (MSUS), produced under the auspices of EFSUMB, following the same methodology as for Part 1, provides information and recommendations on the use of this imaging modality for joint pathology, pediatric applications, and musculoskeletal ultrasound-guided procedures. Clinical application, practical points, limitations, and artifacts are described and discussed for every joint or procedure. The document is intended to guide clinical users in their daily practice.
Objectives
In sonography of clinically relevant small structures of the ankle and foot, the healthy contralateral side can be used as a reference to identify subtle abnormalities. Intrasubject side‐to‐side variability must be minimal. The aim of this study was to assess the reliability of side‐to‐side sonographic evaluation of small structures of the ankle and foot.
Methods
Thirty healthy volunteers were prospectively studied. Small structures of the ankle and foot were evaluated bilaterally by 2 musculoskeletal radiologists in separate sessions. The deep peroneal nerve, superior extensor retinacula, calcaneofibular ligament, superior peroneal retinacula, tibialis posterior tendon, tibial nerve, Achilles tendon, plantaris tendon, plantar fascia, and sural nerve were considered. To assess intra‐ and interreader agreements, 30 (100%) examinations were repeated. A nonparametric statistic was used.
Results
Data were not normally distributed (P > .001). Intrareader agreement was k = 0.67 (95% confidence interval, 0.57–0.78) and interreader agreement was k = 0.73 (95% confidence interval, 0.68–0.77). The mean values and standard deviation for all the structures were 0.36 ± 1.85 mm. The overall coefficient of variation was 18.5%. The intraclass correlation coefficient was 0.93 (95% confidence interval, 0.92–0.94).
Conclusions
In ankle and foot sonography, the healthy contralateral side can be used as a reference during a real‐time musculoskeletal ultrasound evaluation of small structures.
Traumatic and non-traumatic tendon lesions are common at the wrist and hand. For
the diagnosis, therapy management, and long-term prognosis of tendon lesions, a detailed
understanding of the complex anatomy and knowledge of typical injury patterns is crucial
for both radiologists and clinicians. Improvements in high-resolution ultrasound are
producing high quality images of the superficial tendinous and peritendinous structures.
Thus, ultrasound is a valuable first-choice tool for visualizing traumatic,
inflammatory, and degenerative conditions of the extensor and flexor tendons,
particularly with the advantage of possible dynamic examination. The additional use of
duplex-Doppler and power Doppler ultrasound imaging is recommended for detection of
tenosynovitis in overuse injury, inflammatory disease, infection, and after traumatic
conditions. In traumatic tendon injuries, knowing the precise injury zone is important
for treatment decision-making. In cases of tendon rupture, the radiologist should report
the tear type (i.e., complete or partial-thickness) and assess the degree of tendon
retraction and associated avulsion injury, including the degree of fragment
displacement. The function of intact flexor tendons may be impaired by thickening,
strain, or rupture of corresponding annular pulleys. This review describes in detail the
typical ultrasound imaging features of common pathologies of hand and wrist tendons,
including annular pulley lesions.
Introduction
Newly developed Doppler techniques enable the sampling of slow vascular flows and the extrapolation of spectral parameters in distal arterioles. The aim of this study was to investigate the role of spectral analysis performed by means of ultra‐high frequency ultrasound (US) in the evaluation of the peripheral vascular bed of systemic sclerosis (SSc) patients.
Methods
Both hands of 33 patients affected by diffuse cutaneous SSc and 34 volunteers were evaluated with a US machine equipped with 33‐9 MHz and 18‐5 MHz transducers. Proximal resistive index and the peak systolic velocity (pRI and pPSV, respectively), were calculated at the level of the second interdigital artery. The distal resistive index (dRI) was calculated at the level of a nailfold arteriole of the third finger. All SSc patients had been previously divided into 4 subgroups according to their nailfold videocapillaroscopic (NVC) patterns following accepted criteria.
Results
SSc patients showed a significantly slower systolic velocity at the level of the second interdigital artery (pPSV [SD] = 8.38 [3] cm/s vs pPSV [SD] = 11.14 [4.5] cm/s; P = .005) and a higher dRI (dRI [SD] = 0.65 (0.14) vs dRI [SD] = 0.57 [0.11); P = .0115). No differences were found between the pRI values measured in the SSc patients and those of the controls (pRI [SD] = 0.76 [0.11] vs pRI [SD] = 0.73 [0.12]; P = .359]. The subgroup analysis did not show any significant difference when pPSV, pRI and dRI were compared among NVC morphological patterns.
Conclusion
High‐resolution Doppler analysis of digital distal arterioles may disclose subtle abnormalities in the downstream microvasculature of SSc patients that could be missed when the examination is performed at a more proximal level and/or using lower Doppler frequencies.
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