BIOMAT Database Logo BIOMAT Database Logo

Comparison of dobutamine transesophageal echocardiography and dobutamine magnetic resonance imaging for detection of residual myocardial viability. 1996

F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Klinik III für Innere Medizin, Universität zu Köln, Germany.

A dobutamine-induced contraction reserve in akinetic but viable myocardium, observed by echocardiography or magnetic resonance imaging (MRI), is a reliable indicator of myocardial viability. However, the comparative diagnostic accuracy of these 2 techniques is unknown. Therefore, 43 patients with myocardial infarction (infarct age > or = 4 months) and regional akinesia underwent dobutamine transesophageal echocardiography (TEE) and dobutamine MRI (10 microg dobutamine/ min/kg). Both imaging techniques were compared with the reference standard 18F-fluorodeoxyglucose positron emission tomography (FDG PET). An infarct region was considered viable if a dobutamine contraction reserve could be assessed visually by TEE or quantitatively by MRI in > or = 50% of segments graded "a" or dyskinetic at rest. Infarct regions were graded viable by PET if FDG uptake was > or = 50% of the maximal FDG uptake in a region with normal wall motion by left ventriculography. A dobutamine contraction reserve was found in 21 of 43 patients (49%) by TEE and MRI. A viable infarct region by FDG PET was diagnosed in 26 of 43 patients (60%). FDG uptake and dobutamine TEE were concordant in 36 of 43 patients (84%) and dobutamine MRI and FDG PET were concordant in 38 of 43 patients (88%). Sensitivity and specificity of dobutamine TEE and dobutamine MRI for FDG PET-defined myocardial viability were 77% versus 81% and 94% versus 100%, respectively. Both imaging techniques yielded similar results for the detection of myocardial viability as defined by FDG uptake, with a slightly higher sensitivity and specificity for the quantitatively evaluated dobutamine contraction reserve by MRI.

UI MeSH Term Description Entries
D008279 Magnetic Resonance Imaging Non-invasive method of demonstrating internal anatomy based on the principle that atomic nuclei in a strong magnetic field absorb pulses of radiofrequency energy and emit them as radiowaves which can be reconstructed into computerized images. The concept includes proton spin tomographic techniques. Chemical Shift Imaging,MR Tomography,MRI Scans,MRI, Functional,Magnetic Resonance Image,Magnetic Resonance Imaging, Functional,Magnetization Transfer Contrast Imaging,NMR Imaging,NMR Tomography,Tomography, NMR,Tomography, Proton Spin,fMRI,Functional Magnetic Resonance Imaging,Imaging, Chemical Shift,Proton Spin Tomography,Spin Echo Imaging,Steady-State Free Precession MRI,Tomography, MR,Zeugmatography,Chemical Shift Imagings,Echo Imaging, Spin,Echo Imagings, Spin,Functional MRI,Functional MRIs,Image, Magnetic Resonance,Imaging, Magnetic Resonance,Imaging, NMR,Imaging, Spin Echo,Imagings, Chemical Shift,Imagings, Spin Echo,MRI Scan,MRIs, Functional,Magnetic Resonance Images,Resonance Image, Magnetic,Scan, MRI,Scans, MRI,Shift Imaging, Chemical,Shift Imagings, Chemical,Spin Echo Imagings,Steady State Free Precession MRI
D008297 Male Males
D008875 Middle Aged An adult aged 45 - 64 years. Middle Age
D009200 Myocardial Contraction Contractile activity of the MYOCARDIUM. Heart Contractility,Inotropism, Cardiac,Cardiac Inotropism,Cardiac Inotropisms,Contractilities, Heart,Contractility, Heart,Contraction, Myocardial,Contractions, Myocardial,Heart Contractilities,Inotropisms, Cardiac,Myocardial Contractions
D009203 Myocardial Infarction NECROSIS of the MYOCARDIUM caused by an obstruction of the blood supply to the heart (CORONARY CIRCULATION). Cardiovascular Stroke,Heart Attack,Myocardial Infarct,Cardiovascular Strokes,Heart Attacks,Infarct, Myocardial,Infarction, Myocardial,Infarctions, Myocardial,Infarcts, Myocardial,Myocardial Infarctions,Myocardial Infarcts,Stroke, Cardiovascular,Strokes, Cardiovascular
D003847 Deoxyglucose 2-Deoxy-D-arabino-hexose. An antimetabolite of glucose with antiviral activity. 2-Deoxy-D-glucose,2-Deoxyglucose,2-Desoxy-D-glucose,2 Deoxy D glucose,2 Deoxyglucose,2 Desoxy D glucose
D004280 Dobutamine A catecholamine derivative with specificity for BETA-1 ADRENERGIC RECEPTORS. It is commonly used as a cardiotonic agent after CARDIAC SURGERY and during DOBUTAMINE STRESS ECHOCARDIOGRAPHY. Dobucor,Dobuject,Dobutamin Fresenius,Dobutamin Hexal,Dobutamin Solvay,Dobutamin-ratiopharm,Dobutamina Inibsa,Dobutamina Rovi,Dobutamine (+)-Isomer,Dobutamine Hydrobromide,Dobutamine Hydrochloride,Dobutamine Lactobionate,Dobutamine Phosphate (1:1) Salt, (-)-Isomer,Dobutamine Tartrate,Dobutamine Tartrate (1:1), (R-(R*,R*))-Isomer,Dobutamine Tartrate (1:1), (S-(R*,R*))-Isomer,Dobutamine, (-)-Isomer,Dobutamine, Phosphate (1:1) Salt (+)-Isomer,Dobutrex,Lilly 81929,Oxiken,Posiject,Dobutamin ratiopharm,Hydrobromide, Dobutamine,Hydrochloride, Dobutamine,Lactobionate, Dobutamine,Tartrate, Dobutamine
D004562 Electrocardiography Recording of the moment-to-moment electromotive forces of the HEART as projected onto various sites on the body's surface, delineated as a scalar function of time. The recording is monitored by a tracing on slow moving chart paper or by observing it on a cardioscope, which is a CATHODE RAY TUBE DISPLAY. 12-Lead ECG,12-Lead EKG,12-Lead Electrocardiography,Cardiography,ECG,EKG,Electrocardiogram,Electrocardiograph,12 Lead ECG,12 Lead EKG,12 Lead Electrocardiography,12-Lead ECGs,12-Lead EKGs,12-Lead Electrocardiographies,Cardiographies,ECG, 12-Lead,EKG, 12-Lead,Electrocardiograms,Electrocardiographies, 12-Lead,Electrocardiographs,Electrocardiography, 12-Lead
D005462 Fluorine Radioisotopes Unstable isotopes of fluorine that decay or disintegrate emitting radiation. F atoms with atomic weights 17, 18, and 20-22 are radioactive fluorine isotopes. Radioisotopes, Fluorine
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man

Related Publications

F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Reason for discrepancies in identifying myocardial viability by thallium-201 redistribution, magnetic resonance imaging, and dobutamine echocardiography.
September 2002, The American journal of cardiology,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
[Magnetic resonance in the assessment of myocardial viability after infarction: comparison with dobutamine echocardiography and thallium scintigraphy].
June 1996, La Radiologia medica,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Dobutamine stress magnetic resonance imaging suffices for the demonstration of myocardial ischaemia and viability.
February 2003, Netherlands heart journal : monthly journal of the Netherlands Society of Cardiology and the Netherlands Heart Foundation,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Magnetic resonance imaging for myocardial viability.
May 2010, EuroIntervention : journal of EuroPCR in collaboration with the Working Group on Interventional Cardiology of the European Society of Cardiology,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Dobutamine echocardiography versus nuclear cardiac imaging for evaluation of myocardial viability.
November 1997, Current opinion in cardiology,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Assessment of myocardial viability with two-dimensional echocardiography and magnetic resonance imaging.
January 1996, Journal of nuclear cardiology : official publication of the American Society of Nuclear Cardiology,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
[Influence of image quality on the diagnostic accuracy of dobutamine stress magnetic resonance imaging in comparison with dobutamine stress echocardiography for the noninvasive detection of myocardial ischemia].
September 1999, Zeitschrift fur Kardiologie,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Assessment of myocardial viability: comparison of echocardiography versus cardiac magnetic resonance imaging in the current era.
June 2008, Heart, lung & circulation,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Comparison of magnetic resonance imaging and transesophageal echocardiography in detection of thrombus in the left atrial appendage.
October 2003, Stroke,
F M Baer, and E Voth, and K LaRosée, and C A Schneider, and P Theissen, and H J Deutsch, and H Schicha, and E Erdmann, and U Sechtem
Comparison of acoustic densitometry and dobutamine echocardiography for an assessment of myocardial viability.
August 2005, Echocardiography (Mount Kisco, N.Y.),
Copied contents to your clipboard!