E. Sauer scite author profile

Background: Perfusion-cardiovascular magnetic resonance (CMR) is generally accepted as an alternative to SPECT to assess myocardial ischemia non-invasively. However its performance vs gated-SPECT and in sub-populations is not fully established. The goal was to compare in a multicenter setting the diagnostic performance of perfusion-CMR and gated-SPECT for the detection of CAD in various populations using conventional x-ray coronary angiography (CXA) as the standard of reference.

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Quantifizierung der Aortenklappen�ffnungsfl�che und der linksventrikul�ren Muskelmasse bei gesunden Probanden und bei Patienten mit symptomatischer Aortenklappenstenose mittels MRT

Haimerl

Freitag-Krikovic

Sauer

2005

ZS Kardiologie

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MRI allows visualization and planimetry of the aortic valve orifice and accurate determination of left ventricular muscle mass, which are important parameters in aortic stenosis. In contrast to invasive methods, MRI planimetry of the aortic valve area (AVA) is flow independent. AVA is usually indexed to body surface area. Left ventricular muscle mass is dependent on weight and height in healthy individuals. We studied AVA, left ventricular muscle mass (LMM) and ejection fraction (EF) in 100 healthy individuals and in patients with symptomatic aortic valve stenosis (AS). All were examined by MRI (1.5 Tesla Siemens Sonate) and the AVA was visualized in segmented 2D flash sequences and planimetry of the performed AVA was manually. The aortic valve area in healthy individuals was 3.9+/-0.7 cm(2), and the LMM was 99+/-27 g. In a correlation analysis, the strongest correlation of AVA was to height (r=0.75, p<0.001) and for LMM to weight (r=0.64, p<0.001). In a multiple regression analysis, the expected AVA for healthy subjects can be predicted using body height: AVA=-2.64+0.04 x(height in cm) -0.47 x w (w=0 for man, w=1 for female).In patients with aortic valve stenosis, AVA was 1.0+/-0.35 cm(2), in correlation to cath lab r=0.72, and LMM was 172+/-56 g. We compared the AS patients results with the data of the healthy subjects, where the reduction of the AVA was 28+/-10% of the expected normal value, while LMM was 42% higher in patients with AS. There was no correlation to height, weight or BSA in patients with AS. With cardiac MRI, planimetry of AVA for normal subjects and patients with AS offered a simple, fast and non-invasive method to quantify AVA. In addition LMM and EF could be determined. The strong correlation between height and AVA documented in normal subjects offered the opportunity to integrate this relation between expected valve area and definitive orifice in determining the disease of the aortic valve for the individual patient. With diagnostic MRI in patients with AS, invasive measurements of the systolic transvalvular gradient does not seem to be necessary.

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201Tl-redistribution analysis in early and delayed myocordial scintigrams of patients with coronary heart disease (CHD)

et al. 1979

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Klinische und experimentelle Untersuchungen mit²⁰¹Tl zur nichtinvasiven Myokardszintigraphie

Lichte¹,

Kriegel²,

Sebening³

et al. 1976

Fortschr Röntgenstr

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The biological distribution of 201Tl after intravenous injection was studied experimentally in 42 rats. It was found (see figure 1) that the kidneys showed the greatest affinity for 201Th, reaching an activity concentration of 6.6% per gramme of tissue, almost independently of time. Within the first 30 minutes of injection, myocardial activity exceeds that of the surrounding structures (10 min. p.i.: 4.24%/g; 30 min. p.i.: 2.58%/g). During this time the myocardium can be well demonstrated by "image processing". The relatively fast myocardial kinetics of 201Tl (half value time 33 minutes) make it necessary, strictly speaking, to use a scintillation camera. The clinical value of this method is illustrated by a number of case histories.

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E. Sauer

MR-IMPACT II: Magnetic Resonance Imaging for Myocardial Perfusion Assessment in Coronary artery disease Trial: perfusion-cardiac magnetic resonance vs. single-photon emission computed tomography for the detection of coronary artery disease: a comparative multicentre, multivendor trial

Superior diagnostic performance of perfusion-cardiovascular magnetic resonance versus SPECT to detect coronary artery disease: The secondary endpoints of the multicenter multivendor MR-IMPACT II (Magnetic Resonance Imaging for Myocardial Perfusion Assessment in Coronary Artery Disease Trial)

Quantifizierung der Aortenklappen�ffnungsfl�che und der linksventrikul�ren Muskelmasse bei gesunden Probanden und bei Patienten mit symptomatischer Aortenklappenstenose mittels MRT

201Tl-redistribution analysis in early and delayed myocordial scintigrams of patients with coronary heart disease (CHD)

Klinische und experimentelle Untersuchungen mit²⁰¹Tl zur nichtinvasiven Myokardszintigraphie

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E. Sauer

MR-IMPACT II: Magnetic Resonance Imaging for Myocardial Perfusion Assessment in Coronary artery disease Trial: perfusion-cardiac magnetic resonance vs. single-photon emission computed tomography for the detection of coronary artery disease: a comparative multicentre, multivendor trial

Superior diagnostic performance of perfusion-cardiovascular magnetic resonance versus SPECT to detect coronary artery disease: The secondary endpoints of the multicenter multivendor MR-IMPACT II (Magnetic Resonance Imaging for Myocardial Perfusion Assessment in Coronary Artery Disease Trial)

Quantifizierung der Aortenklappen�ffnungsfl�che und der linksventrikul�ren Muskelmasse bei gesunden Probanden und bei Patienten mit symptomatischer Aortenklappenstenose mittels MRT

201Tl-redistribution analysis in early and delayed myocordial scintigrams of patients with coronary heart disease (CHD)

Klinische und experimentelle Untersuchungen mit201Tl zur nichtinvasiven Myokardszintigraphie

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Klinische und experimentelle Untersuchungen mit²⁰¹Tl zur nichtinvasiven Myokardszintigraphie