Muscle ultrasound in neuromuscular disorders

Pillen, Sigrid; Arts, Ilse M.P.; Zwarts, Machiel J.

doi:10.1002/mus.21015

Cited by 366 publications

(349 citation statements)

References 95 publications

(208 reference statements)

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“…When considering the reliability of ultrasound as a measure of abdominal muscle function, our results with high ICC value of 0.957 in the control group are supported by previous work; 15,22 however, we observed less reliability in the SCI group. This finding may be because of difficulties in identifying fascial borders, as observed in the atrophied muscles of patients with Duchenne's muscular dystrophy or motor neuron disorders 23 and/or mislabelling of fascia borders owing to increased intramuscular fat, causing loss of contrast. 24 Compared with EMG, ultrasound measures of voluntary activity were highly specific (no false positive), but had poor sensitivity in detecting muscle activity when present.…”

Section: Discussionmentioning

confidence: 99%

Diagnostic accuracy of common clinical tests for assessing abdominal muscle function after motor-complete spinal cord injury above T6

et al. 2014

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Study design: Diagnostic study. Objectives: The objective of this study was to compare patterns of electromyography (EMG) recordings of abdominal muscle function in persons with motor-complete spinal cord injury (SCI) above T6 and in able-bodied controls, and to determine whether manual examination or ultrasound measures of muscle activation can be accurate alternatives to EMG. Setting: Research center focused on SCI and University laboratory, Vancouver, Canada. Methods: Thirteen people with SCI (11 with American Spinal Injury Association Impairment Scale (AIS) A and 2 AIS B; C4-T5), and 13 matched able-bodied participants volunteered for the study. Participants completed trunk tasks during manual examination of the abdominal muscles and then performed maximal voluntary isometric contractions, while EMG activity and muscle thickness changes were recorded. The frequency of muscle responses detected by manual examination and ultrasound were compared with detection by EMG (sensitivity and specificity). Results: All individuals with SCI were able to elicit EMG activity above resting levels in at least one abdominal muscle during one task. In general, the activation pattern was task specific, confirming voluntary control of the muscles. Ultrasound, when compared with EMG, showed low sensitivity but was highly specific in its ability to detect preserved abdominal muscle function in persons with SCI. Conversely, manual examination was more sensitive than ultrasound but showed lower specificity. Conclusion:The results from this study confirm preserved voluntary abdominal muscle function in individuals classified with motorcomplete SCI above T6 and highlight the need for further research in developing more accurate clinical measures to diagnose the level of trunk muscle preservation in individuals with SCI.

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Section: Discussionmentioning

confidence: 99%

Diagnostic accuracy of common clinical tests for assessing abdominal muscle function after motor-complete spinal cord injury above T6

et al. 2014

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“…MUS findings including EI and MT in denervated hand muscles correlated with the severity of EMG abnormalities and facilitated the discrimination between moderate‐to‐severe muscle denervation and healthy hand muscles (Kim et al., 2016; Pillen et al., 2008; Simon et al., 2015). In this study, the quantitative MUS assessment on small hand muscles in patients with CIDP revealed that six out of 45 muscles with abnormally high EI and/or low MT suggested denervation following secondary axonal degeneration.…”

Section: Discussionmentioning

confidence: 99%

“…Pillen et al. insisted that MUS was equally or slightly less capable of detecting focal neuropathies than EMG, with a sensitivity estimated at 70% (Pillen et al., 2008). Simon et al.…”

Section: Discussionmentioning

confidence: 99%

“…The ICC (1, 1) was calculated from the three examinations. Stepwise multiple linear regression analysis was performed in the NC group to evaluate whether gender and age were independent predictors of EI and MT, as previously reported (Pillen et al., 2008). Based on the analysis, NCs were classified into several groups according to gender as well as age (40 years or less, 41–60 years, and 61 years or more).…”

Section: Methodsmentioning

confidence: 99%

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Quantitative muscle ultrasound is useful for evaluating secondary axonal degeneration in chronic inflammatory demyelinating polyneuropathy

et al. 2017

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IntroductionIn chronic inflammatory demyelinating polyneuropathy (CIDP), exclusion of secondary axonal degeneration is challenging with conventional methods such as nerve conduction study (NCS), needle electromyography, and nerve biopsy. Increased echo intensity (EI) and decreased muscle thickness (MT) identified on muscle ultrasound (MUS) examination represent muscle denervation due to axonal degeneration in neurogenic disorders, suggesting MUS as a new tool to detect secondary axonal degeneration in patients with CIDP.Methods EI and MT of abductor pollicis brevis, abductor digiti minimi, and first dorsal interosseous muscles were measured in 16 CIDP patients. Raw values were converted into z‐scores using data from 60 normal controls (NCs).ResultsSix of 45 muscles showed abnormally high EI and low MT, suggesting denervation following secondary axonal degeneration. These six muscles belonged to two patients with long disease history, unresponsiveness to treatment, and long interval from onset to initial therapy. There were no significant differences in EI and MT (p = .23 and .67, respectively) between the CIDP and NC groups, although NCS results revealed obvious demyelinating abnormalities in all CIDP patients, suggesting the fact that muscle structures will be preserved, and EI and MT will not change unless secondary axonal degeneration occurs in CIDP.Conclusion MUS is a promising tool for evaluating secondary axonal degeneration in patients with CIDP.

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“…In this heterogeneous class of disorders, US has proved effective for measuring the muscle bulk. Semiquantitative scales based on muscle echogenicity have been used to estimate dystrophic changes in terms of fatty degeneration and connective tissue replacement [58][59][60]. In this class of disorders, US allows dynamic scanning during muscle contraction and may reveal spontaneous muscle activity (e.g.…”

Section: Musclementioning

confidence: 99%

Paediatric musculoskeletal US beyond the hip joint

et al. 2011

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US is a technique particularly suited to the investigation of musculoskeletal disorders in children and adolescents. This review paper describes a range of clinical settings beyond the hip joint where US has a significant role to play, including sports injuries, infectious diseases, inflammatory and degenerative conditions, congenital and developmental disorders, acute trauma of bone and joints, and peripheral nerve injuries. In some circumstances, US can be regarded as the most effective means of diagnostic imaging, whereas in other instances, it is an alternative or supplement to other more comprehensive imaging modalities, like MRI and CT. Although MRI offers superior soft-tissue contrast resolution, US is low-cost, non-invasive and has higher spatial resolution and real-time capability for the assessment of musculoskeletal structures during joint movement and stress manoeuvres.Keywords Ultrasound . Musculoskeletal system . Trauma . Child High-resolution US is particularly well suited to examine the paediatric musculoskeletal system. An exquisite depiction of the immature skeleton and soft tissues can be obtained in a well-tolerated and non-invasive way without using ionising radiation or sedation. Although US has been widely used in the diagnosis of hip disorders in children, many other applications for US of the paediatric musculoskeletal system have been developed [1,2]. Over other imaging techniques, US is ideally suited for the evaluation of tendons, muscles, joints, ligaments and nerves. In addition, it may provide specific information on bone and cartilage. In this article, we review the use of US in a variety of musculoskeletal applications beyond the hip, including sports injuries, infectious diseases, inflammatory and degenerative conditions, congenital and developmental disorders, acute trauma of bone and joints, and peripheral nerve injuries. Sports-related injuries Apophyseal injuriesIn children and adolescents, apophyseal injuries are commonly related to sporting and recreational activities. Especially in the age range between 12 and 16 years, the ossification centres of most apophyses are still immature and the cartilage, under hormonal influence, loses elasticity and is unable to give firm stability to the osteotendinous junction. Hence, the rough shear or torsion forces exercised upon them by tendons and ligaments can overcome the threshold of cartilage and bone resistance causing fragmenDisclaimer The supplement this article is part of is not sponsored by the industry. Dr.

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Muscle ultrasound in neuromuscular disorders

Cited by 366 publications

References 95 publications

Diagnostic accuracy of common clinical tests for assessing abdominal muscle function after motor-complete spinal cord injury above T6

Diagnostic accuracy of common clinical tests for assessing abdominal muscle function after motor-complete spinal cord injury above T6

Quantitative muscle ultrasound is useful for evaluating secondary axonal degeneration in chronic inflammatory demyelinating polyneuropathy

Paediatric musculoskeletal US beyond the hip joint

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