Application of real-time sonoelastography in musculoskeletal diseases related to physical medicine and rehabilitation.
Identifieur interne : 005084 ( Main/Exploration ); précédent : 005083; suivant : 005085Application of real-time sonoelastography in musculoskeletal diseases related to physical medicine and rehabilitation.
Auteurs : Gi-Young Park [Corée du Sud] ; Dong Rak KwonSource :
- American journal of physical medicine & rehabilitation [ 1537-7385 ] ; 2011.
Descripteurs français
- KwdFr :
- Cartilage (imagerie diagnostique), Humains, Imagerie d'élasticité tissulaire (), Lymphoedème (imagerie diagnostique), Maladies ostéomusculaires (diagnostic), Muscles squelettiques (imagerie diagnostique), Nerfs périphériques (imagerie diagnostique), Reproductibilité des résultats, Torticolis (), Torticolis (imagerie diagnostique), Échographie.
- MESH :
- diagnostic : Maladies ostéomusculaires.
- imagerie diagnostique : Cartilage, Lymphoedème, Muscles squelettiques, Nerfs périphériques, Torticolis.
- Humains, Imagerie d'élasticité tissulaire, Reproductibilité des résultats, Torticolis, Échographie.
English descriptors
- KwdEn :
- Cartilage (diagnostic imaging), Elasticity Imaging Techniques (methods), Humans, Lymphedema (diagnostic imaging), Muscle, Skeletal (diagnostic imaging), Musculoskeletal Diseases (diagnosis), Peripheral Nerves (diagnostic imaging), Reproducibility of Results, Torticollis (congenital), Torticollis (diagnostic imaging), Ultrasonography.
- MESH :
- congenital : Torticollis.
- diagnosis : Musculoskeletal Diseases.
- diagnostic imaging : Cartilage, Lymphedema, Muscle, Skeletal, Peripheral Nerves, Torticollis.
- methods : Elasticity Imaging Techniques.
- Humans, Reproducibility of Results, Ultrasonography.
Abstract
Real-time sonoelastography is a recently developed ultrasound-based technique that evaluates tissue elasticity in real time, and it is based on the principle that the compression of tissue produces a strain (displacement) that is lower in hard tissue and higher in soft tissue. Real-time sonoelastography provides information on tissue elasticity, in addition to the shape or vascularity, which is obtained via B-mode ultrasound. Similar to B-mode ultrasound, freehand manipulation with the transducer and real-time visualization are now available for real-time sonoelastography in actual clinical practice. Tissue elasticity not only varies among different tissues but also seems to reflect disease-induced alternations in tissue properties. Real-time sonoelastography was recently applied to the normal and pathologic tissues in muscle and tendon disorders, and it showed promising results and new potentialities. Therefore, it is expected to be a useful modality for providing novel diagnostic information in musculoskeletal diseases because tissue elasticity is closely related to its pathology. It can also be used as a research tool to provide insight into the biomechanics and pathophysiology of tissue abnormality.
DOI: 10.1097/PHM.0b013e31821a6f8d
PubMed: 21552109
Affiliations:
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Le document en format XML
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<term>Torticolis (imagerie diagnostique)</term>
<term>Échographie</term>
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<term>Torticollis</term>
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<front><div type="abstract" xml:lang="en">Real-time sonoelastography is a recently developed ultrasound-based technique that evaluates tissue elasticity in real time, and it is based on the principle that the compression of tissue produces a strain (displacement) that is lower in hard tissue and higher in soft tissue. Real-time sonoelastography provides information on tissue elasticity, in addition to the shape or vascularity, which is obtained via B-mode ultrasound. Similar to B-mode ultrasound, freehand manipulation with the transducer and real-time visualization are now available for real-time sonoelastography in actual clinical practice. Tissue elasticity not only varies among different tissues but also seems to reflect disease-induced alternations in tissue properties. Real-time sonoelastography was recently applied to the normal and pathologic tissues in muscle and tendon disorders, and it showed promising results and new potentialities. Therefore, it is expected to be a useful modality for providing novel diagnostic information in musculoskeletal diseases because tissue elasticity is closely related to its pathology. It can also be used as a research tool to provide insight into the biomechanics and pathophysiology of tissue abnormality.</div>
</front>
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