Ilse M.P. Arts scite author profile

Ultrasonography can detect structural muscle changes caused by neuromuscular disease. Quantitative analysis is the preferred method to determine if ultrasound findings are within normal limits, but normative data are incomplete. The purpose of this study was to provide normative muscle ultrasonography data for muscle thickness and echo intensity for five different muscle groups in adults. Bilateral scans of the sternocleidomastoid, biceps brachii/brachialis, forearm flexor group, quadriceps femoris, and tibialis anterior were made in 95 volunteers, aged 17-90 years. Both muscle thickness and echo intensity showed gender differences and a muscle-specific non-linear correlation with age. The muscles of the upper extremities showed right-left differences. These data demonstrate the effect of age on muscle characteristics and provide normative values that can be used in clinical practice.

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Muscle ultrasound in neuromuscular disorders

Pillen

2008

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Muscle ultrasound is a useful tool in the diagnosis of neuromuscular disorders, as these disorders result in muscle atrophy and intramuscular fibrosis and fatty infiltration, which can be visualized with ultrasound. Several prospective studies have reported high sensitivities and specificities in the detection of neuromuscular disorders. Although not investigated in large series of patients, different neuromuscular disorders tend to show specific changes on muscle ultrasound, which can be helpful in differential diagnosis. For example, Duchenne muscular dystrophy results in a severe, homogeneous increase of muscle echo intensity with normal muscle thickness, whereas spinal muscular atrophy shows an inhomogeneous increase of echo intensity with severe atrophy. A major advantage of muscle ultrasound, compared to other imaging techniques, is its ability to visualize muscle movements, such as muscle contractions and fasciculations. This study reviews the possibilities and limitations of ultrasound in muscle imaging and its value as a diagnostic tool in neuromuscular disorders.

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Quantitative skeletal muscle ultrasound: Diagnostic value in childhood neuromuscular disease

Pillen

Verrips

Alfen

et al. 2007

Neuromuscular Disorders

178

179

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Quantitative Muscle Ultrasonography in Amyotrophic Lateral Sclerosis

Arts

Rooij

Overeem

et al. 2008

Ultrasound in Medicine & Biology

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Effects of visual center of pressure feedback on postural control in young and elderly healthy adults and in stroke patients

Dault

Haart

Geurts

et al. 2003

Human Movement Science

137

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Muscle changes in amyotrophic lateral sclerosis: A longitudinal ultrasonography study

Arts

Overeem

Pillen

et al. 2011

Clinical Neurophysiology

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Muscle ultrasonography: A diagnostic tool for amyotrophic lateral sclerosis

Arts

Overeem

Pillen

et al. 2012

Clinical Neurophysiology

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Ilse M.P. Arts

Skeletal Muscle Ultrasound: Correlation Between Fibrous Tissue and Echo Intensity

Normal values for quantitative muscle ultrasonography in adults

Muscle ultrasound in neuromuscular disorders

Quantitative skeletal muscle ultrasound: Diagnostic value in childhood neuromuscular disease

Quantitative Muscle Ultrasonography in Amyotrophic Lateral Sclerosis

Effects of visual center of pressure feedback on postural control in young and elderly healthy adults and in stroke patients

Muscle changes in amyotrophic lateral sclerosis: A longitudinal ultrasonography study

Muscle ultrasonography: A diagnostic tool for amyotrophic lateral sclerosis

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