FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2953689573> ?p ?o ?g. }

• W2953689573 endingPage "144" @default.
• W2953689573 startingPage "137" @default.
• W2953689573 abstract "Muscle healing after injury occurs within a period of weeks following a three-phase physiological process. Disruption of the normal healing process may lead to a number of complications, including excessive scar formation, myositis ossificans, muscle atrophy, muscle cysts and hernias. Complications of muscle injury are important because they may be symptomatic, are associated with high risk of re-injury and compromise muscle performance, thus delaying return to sporting activity and requiring special treatment. High-resolution ultrasound imaging equipped with high-frequency probes and advanced B-mode and Doppler technology has emerged as a promising modality for the diagnosis, grading and follow-up of muscle injury. Ultrasound allows imaging of minimal scar formation, early detection of myositis ossificans and cysts, and dynamic evaluation of small muscle hernias. Ultrasound imaging combined with strain and shear wave elastography can also provide information on the mechanical properties of intact and diseased muscle tissue, thus allowing assessment of muscle biomechanics in the clinical setting. This article reviews the histology and ultrasound appearance of normal and abnormal muscle healing with an emphasis on the sonographic appearances of muscle injury complications. It also discusses pitfalls, provides tips for an less experienced sonographer and presents the possible role of strain elastography in the diagnosis of complications, such as scar tissue.Muscle healing after injury occurs within a period of weeks following a three-phase physiological process. Disruption of the normal healing process may lead to a number of complications, including excessive scar formation, myositis ossificans, muscle atrophy, muscle cysts and hernias. Complications of muscle injury are important because they may be symptomatic, are associated with high risk of re-injury and compromise muscle performance, thus delaying return to sporting activity and requiring special treatment. High-resolution ultrasound imaging equipped with high-frequency probes and advanced B-mode and Doppler technology has emerged as a promising modality for the diagnosis, grading and follow-up of muscle injury. Ultrasound allows imaging of minimal scar formation, early detection of myositis ossificans and cysts, and dynamic evaluation of small muscle hernias. Ultrasound imaging combined with strain and shear wave elastography can also provide information on the mechanical properties of intact and diseased muscle tissue, thus allowing assessment of muscle biomechanics in the clinical setting. This article reviews the histology and ultrasound appearance of normal and abnormal muscle healing with an emphasis on the sonographic appearances of muscle injury complications. It also discusses pitfalls, provides tips for an less experienced sonographer and presents the possible role of strain elastography in the diagnosis of complications, such as scar tissue." @default.
• W2953689573 created "2019-07-12" @default.
• W2953689573 creator A5046075679 @default.
• W2953689573 creator A5046755900 @default.
• W2953689573 creator A5057661500 @default.
• W2953689573 creator A5061727097 @default.
• W2953689573 date "2019-06-28" @default.
• W2953689573 modified "2023-09-30" @default.
• W2953689573 title "High resolution ultrasound for imaging complications of muscle injury: Is there an additional role for elastography?" @default.
• W2953689573 cites W124969525 @default.
• W2953689573 cites W1748721163 @default.
• W2953689573 cites W1827965616 @default.
• W2953689573 cites W1964216445 @default.
• W2953689573 cites W1967214972 @default.
• W2953689573 cites W1984068620 @default.
• W2953689573 cites W2005630738 @default.
• W2953689573 cites W2005651126 @default.
• W2953689573 cites W2007612722 @default.
• W2953689573 cites W2048035811 @default.
• W2953689573 cites W2062913904 @default.
• W2953689573 cites W2063533613 @default.
• W2953689573 cites W2064301425 @default.
• W2953689573 cites W2081411169 @default.
• W2953689573 cites W2082803737 @default.
• W2953689573 cites W2094889803 @default.
• W2953689573 cites W2116639332 @default.
• W2953689573 cites W2125070510 @default.
• W2953689573 cites W2130400238 @default.
• W2953689573 cites W2143225038 @default.
• W2953689573 cites W2154318378 @default.
• W2953689573 cites W2275432707 @default.
• W2953689573 cites W2278859415 @default.
• W2953689573 cites W2300057427 @default.
• W2953689573 cites W2314643335 @default.
• W2953689573 cites W2333559610 @default.
• W2953689573 cites W2396084610 @default.
• W2953689573 cites W2428047649 @default.
• W2953689573 cites W2461169608 @default.
• W2953689573 cites W2490970185 @default.
• W2953689573 cites W2554318904 @default.
• W2953689573 cites W2618810805 @default.
• W2953689573 cites W2765982437 @default.
• W2953689573 cites W2780823355 @default.
• W2953689573 cites W2791407027 @default.
• W2953689573 cites W2804302492 @default.
• W2953689573 cites W2809486678 @default.
• W2953689573 cites W2888881066 @default.
• W2953689573 cites W2895230731 @default.
• W2953689573 doi "https://doi.org/10.15557/jou.2019.0020" @default.
• W2953689573 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6750326" @default.
• W2953689573 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31355586" @default.
• W2953689573 hasPublicationYear "2019" @default.
• W2953689573 type Work @default.
• W2953689573 sameAs 2953689573 @default.
• W2953689573 citedByCount "20" @default.
• W2953689573 countsByYear W29536895732020 @default.
• W2953689573 countsByYear W29536895732021 @default.
• W2953689573 countsByYear W29536895732022 @default.
• W2953689573 countsByYear W29536895732023 @default.
• W2953689573 crossrefType "journal-article" @default.
• W2953689573 hasAuthorship W2953689573A5046075679 @default.
• W2953689573 hasAuthorship W2953689573A5046755900 @default.
• W2953689573 hasAuthorship W2953689573A5057661500 @default.
• W2953689573 hasAuthorship W2953689573A5061727097 @default.
• W2953689573 hasBestOaLocation W29536895731 @default.
• W2953689573 hasConcept C105702510 @default.
• W2953689573 hasConcept C126838900 @default.
• W2953689573 hasConcept C141071460 @default.
• W2953689573 hasConcept C142724271 @default.
• W2953689573 hasConcept C143753070 @default.
• W2953689573 hasConcept C2776263037 @default.
• W2953689573 hasConcept C2777690781 @default.
• W2953689573 hasConcept C2778514504 @default.
• W2953689573 hasConcept C2778642667 @default.
• W2953689573 hasConcept C2781172350 @default.
• W2953689573 hasConcept C71924100 @default.
• W2953689573 hasConceptScore W2953689573C105702510 @default.
• W2953689573 hasConceptScore W2953689573C126838900 @default.
• W2953689573 hasConceptScore W2953689573C141071460 @default.
• W2953689573 hasConceptScore W2953689573C142724271 @default.
• W2953689573 hasConceptScore W2953689573C143753070 @default.
• W2953689573 hasConceptScore W2953689573C2776263037 @default.
• W2953689573 hasConceptScore W2953689573C2777690781 @default.
• W2953689573 hasConceptScore W2953689573C2778514504 @default.
• W2953689573 hasConceptScore W2953689573C2778642667 @default.
• W2953689573 hasConceptScore W2953689573C2781172350 @default.
• W2953689573 hasConceptScore W2953689573C71924100 @default.
• W2953689573 hasIssue "77" @default.
• W2953689573 hasLocation W29536895731 @default.
• W2953689573 hasLocation W29536895732 @default.
• W2953689573 hasLocation W29536895733 @default.
• W2953689573 hasLocation W29536895734 @default.
• W2953689573 hasLocation W29536895735 @default.
• W2953689573 hasOpenAccess W2953689573 @default.
• W2953689573 hasPrimaryLocation W29536895731 @default.
• W2953689573 hasRelatedWork W2186270396 @default.
• W2953689573 hasRelatedWork W2355680408 @default.
• W2953689573 hasRelatedWork W2361996641 @default.

• next