sg:pub.10.1007/s11547-010-0594-0 - Springer Nature SciGraph

Article Info

DATE

2010-10-06

AUTHORS

M. Francone, I. Carbone, L. Agati, C. Bucciarelli Ducci, M. Mangia, I. Iacucci, C. Catalano, R. Passariello

ABSTRACT

T2-weighted short-tau inversion recovery (T2w-STIR) imaging is the best approach for oedema-weighted cardiac magnetic resonance imaging (MRI), as it suppresses the signal from flowing blood and from fat and enhances sensitivity to tissue fluid. The purpose of this pictorial review is to illustrate the clinical use and application of this technique in various ischaemic and non-ischaemic conditions. In ischaemic heart disease, T2w-STIR represents the technique of choice for detecting oedema in patients with acute myocardial infarction (MI), allowing discrimination of acute and chronic injuries. Myocardial haemorrhage may also be depicted as a region of signal abnormality characterised by a central hypointense core with a peripheral hyperintense rim, presumably reflecting the presence of intracellular methaemoglobin within the necrotic area. In the acute setting, elevated T2 relaxation times in association with regional contractile dysfunction but no signs of delayed enhancement may also signify a reversible ischaemic injury without necrosis. In acute myocarditis, the distribution pattern of T2w hyperintensity may be focal in approximately 30% of patients or diffuse in the remaining 70%, and myocardial oedema may be the only marker of disease. Tissue oedema may also be observed in various other conditions, such as primary cardiomyopathies (CMP), storage disease, pulmonary hypertension and cardiac transplant rejection. T2w-STIR represents an appealing and versatile technique that can be applied in a wide variety of ischaemic and non-ischaemic conditions, allowing detection of segmental or global increase of myocardial free water content, reflecting an acute myocardial injury. More... »

PAGES

32-46

References to SciGraph publications

2007-03-15. Value of MRI in patients with a clinical suspicion of acute myocarditis in EUROPEAN RADIOLOGY

2007-10-21. How to quantify infarct size on delayed-enhancement MR images: a comparison between visual and quantitative approach in LA RADIOLOGIA MEDICA

2008-04. 3-Tesla MRI for the evaluation of myocardial viability: a comparative study with 1.5-Tesla MRI in LA RADIOLOGIA MEDICA

2006-04-20. Characterization of the peri-infarction zone using T2-weighted MRI and delayed-enhancement MRI in patients with acute myocardial infarction in EUROPEAN RADIOLOGY

2009-05-04. Cardiovascular magnetic resonance in pericardial diseases in JOURNAL OF CARDIOVASCULAR MAGNETIC RESONANCE

Journal

TITLE

La radiologia medica

ISSUE

VOLUME

116

Subjects

FOR: Medical And Health Sciences

FOR: Cardiorespiratory Medicine And Haematology

MESH: Cardiomyopathies

MESH: Edema, Cardiac

MESH: Graft Rejection

MESH: Humans

MESH: Hypertension

MESH: Magnetic Resonance Imaging

MESH: Myocardial Infarction

MESH: Myocardial Ischemia

MESH: Myocarditis

MESH: Pericarditis

Author Affiliations

Dipartimento di Scienze Radiologiche, “Sapienza” Università di Roma, Policlinico Umberto I, V.le Regina Elena 324, 00161, Roma, Italy

Dipartimento di Scienze Cardiovascolari e Respiratorie, “Sapienza” Università di Roma, Policlinico Umberto I, V.le Regina Elena 324, 00161, Roma, Italy

Cardiovascular Magnetic Resonance Unit, Royal Brompton Hospital, Imperial College, National Heart and Lung Institute, London, UK

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s11547-010-0594-0

DOI

http://dx.doi.org/10.1007/s11547-010-0594-0

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1024797625

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/20927650

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48	″	″	clinical use
49	″	″	conditions
50	″	″	content
51	″	″	contractile dysfunction
52	″	″	core
53	″	″	detection
54	″	″	diffuse
55	″	″	discrimination
56	″	″	disease
57	″	″	distribution patterns
58	″	″	dysfunction
59	″	″	edema
60	″	″	enhancement
61	″	″	fat
62	″	″	fluid
63	″	″	free water content
64	″	″	global increase
65	″	″	heart disease
66	″	″	hemorrhage
67	″	″	hyperintense rim
68	″	″	hyperintensity
69	″	″	hypertension
70	″	″	hypointense core
71	″	″	imaging
72	″	″	increase
73	″	″	infarction
74	″	″	injury
75	″	″	inversion recovery imaging
76	″	″	inversion recovery sequence
77	″	″	ischemic heart disease
78	″	″	ischemic injury
79	″	″	magnetic resonance imaging
80	″	″	markers
81	″	″	methaemoglobin
82	″	″	myocardial edema
83	″	″	myocardial hemorrhage
84	″	″	myocardial infarction
85	″	″	myocardial injury
86	″	″	myocarditis
87	″	″	necrosis
88	″	″	necrotic areas
89	″	″	non-ischemic conditions
90	″	″	non-ischemic heart disease
91	″	″	only marker
92	″	″	overview
93	″	″	patients
94	″	″	patterns
95	″	″	peripheral hyperintense rim
96	″	″	pictorial review
97	″	″	presence
98	″	″	primary cardiomyopathy
99	″	″	pulmonary hypertension
100	″	″	purpose
101	″	″	recovery sequence
102	″	″	region
103	″	″	regional contractile dysfunction
104	″	″	rejection
105	″	″	relaxation time
106	″	″	resonance imaging
107	″	″	reversible ischemic injury
108	″	″	review
109	″	″	rim
110	″	″	sensitivity
111	″	″	sequence
112	″	″	setting
113	″	″	short tau inversion recovery imaging
114	″	″	short tau inversion recovery sequences
115	″	″	signal abnormalities
116	″	″	signals
117	″	″	signs
118	″	″	stir
119	″	″	storage disease
120	″	″	technique
121	″	″	technique of choice
122	″	″	time
123	″	″	tissue edema
124	″	″	transplant rejection
125	″	″	use
126	″	″	utility
127	″	″	variety
128	″	″	versatile technique
129	″	″	water content
130	″	″	wide variety
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