N. Kozarevic scite author profile

In patients with single-vessel coronary artery disease, the extent and severity of perfusion and RWMAs assessed by gated SPECT MIBI are greater after anterior MI than inferior MI. Global left ventricular function is significantly more affected after anterior MI only in patients with reversible ischemia in addition to fixed wall defect. Decrease in EF from post-stress to rest is closely associated with the severity of perfusion and RWMAs. Overall results suggest that the extent and severity of perfusion and RWMAs are more prominent in the myocardial region supplied by left anterior descending coronary artery than by right coronary artery, which may explain significantly worse post-stress left ventricular function after anterior MI.

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Wszystko co świeci w PET nie jest nowotworem złośliwym! Wychwyt 18F-deoksyglukozy a biologia nowotworu: incidentaloma przysadki mózgowej u chorego, który przebył dwie niezwiązane choroby nowotworowe

Miljić

Manojlović-Gačić

Skender-Gazibara

et al. 2017

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A new radionuclide approach for the quantification of left ventricular volumes: the ‘geometric count based’ method

Veljović

Šobić-Šaranović

Pavlović

et al. 2003

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A new radionuclide method, called the 'geometric count based' (GCB) method, has been developed for the quantification of absolute left ventricular volume. As the method is based on planar radionuclide ventriculography, it is non-invasive and simple, and avoids the relatively cumbersome and longer lasting, dynamic procedure using single photon computed emission tomography, which can be used for achieving the same goal. The purpose of this study was to describe the exactness of the theoretical approach to the method and validate its accuracy both by physical experiments and the initial clinical trial, as compared to contrast ventriculography. Count based data were combined with the geometric based data assuming an ellipsoid left ventricular shape with identical short axes. The following equation for computing left ventricular end diastolic volume, EDV (in ml) was developed: EDV=2cMCtot/Cmax, where c is the manually drawn short axis (one row pixel ROI) of the prolate ellipsoid in LAO 45 degrees (cm), M is the calibrated pixel size (in cm2), Ctot is the total counts in LV ROI, and Cmax is the maximum pixel counts in the LV ROI. Physical experiments with two different 'heart shaped' phantoms were used to compare the results obtained by the GCB method with the true phantom volumes and with the method assuming LV ball shape (BLV), developed by other authors. The true volumes of cylindrical and ellipsoid phantoms of 112.5 ml and 190.5 ml were computed to be 114 ml and 196 ml by the GCB and 168 ml and 180 ml by the BLV methods, respectively. In a clinical study, GCB volumes were compared to volumes measured by using single plane contrast ventriculography in 38 coronary patients. A good correlation between the GCB method and contrast ventriculography was obtained both for EDV and end systolic ventricular volumes (r=0.94, r=0.90). Both phantom and initial clinical studies indicate that the GCB method is an accurate, non-invasive and simple radionuclide method for measuring left ventricular volumes. Additionally, it could be used even in the smallest nuclear medicine units, for example in intensive care units where there are mobile cameras.

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N. Kozarevic

Evaluation of Undifferentiated Carcinoma of Nasopharyngeal Type with Thallium‐201 and Technetium‐99m MIBI SPECT

The Utility of Two Somatostatin Analog Radiopharmaceuticals in Assessment of Radiologically Indeterminate Pulmonary Lesions

Site of myocardial infarction and severity of perfusion abnormalities impact on post-stress left ventricular function in patients with single-vessel disease: gated single-photon emission computed tomography methoxyisobutylisonitrile study

Wszystko co świeci w PET nie jest nowotworem złośliwym! Wychwyt 18F-deoksyglukozy a biologia nowotworu: incidentaloma przysadki mózgowej u chorego, który przebył dwie niezwiązane choroby nowotworowe

A new radionuclide approach for the quantification of left ventricular volumes: the ‘geometric count based’ method

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