Eduard Kralj scite author profile

It is generally considered that at least 1/3 of resuscitated patients sustain rib fractures and at least 1/5 sustains sternum fractures. However, our study showed that these injuries are much more frequent and that increased compression rate and depth cause more SCI. Since in the period 2011-2013 accompanying severe injuries occurred in only 1.85% of cases, the resuscitation technique has not yet jeopardised patient's safety, but further close monitoring is needed.

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Impact of altered venous hemodynamic conditions on the formation of platelet layers in thromboemboli

Bajd

Vidmar²,

Fabjan³

et al. 2012

Thrombosis Research

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Characterization of pulmonary emboli ex vivo by magnetic resonance imaging and ultrasound

Tratar

Blinc

Podbregar

et al. 2007

Thrombosis Research

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Multiparametric MRI in characterizing venous thrombi and pulmonary thromboemboli acquired from patients with pulmonary embolism

Vidmar

Kralj

Bajd

et al. 2014

J. Magn. Reson. Imaging

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Discrimination between red blood cell and platelet components of blood clots by MR microscopy

et al. 2008

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Magnetic resonance imaging (MRI) of pulmonary emboli obtained ex vivo, verified by immunohistochemistry, showed that platelet layers display brighter signal intensity than areas containing predominantly red blood cells (RBC) in T1-weighted MRI. These results were surprising since platelets do not contain paramagnetic haemoglobin that would enhance magnetic relaxation. Our assumption was that the fibrin meshwork areas with entrapped RBC retain abundant extracellular space filled with serum, whereas platelets regroup into tight aggregates lacking serum, essentially mimicking solid tissue structure, rich with cellular proteins that enhance T1-relaxation. Our hypothesis was examined by MRI and NMR relaxometry of in vitro RBC suspensions and sedimented platelets, as well as by MRI of model clots and pulmonary emboli obtained ex vivo. Pure sedimented platelets exhibited shorter proton spin lattice relaxation times (T1 = 874 +/- 310 ms) than those of venous blood of a healthy male with 40% haematocrit (T1 = 1277 +/- 66 ms). T1-values of RBC samples containing high haematocrit (> or = 80%) resembled T1 of platelet samples. In T1-weighted spin-echo MRI echo time and repetition time (TE/TR = 10/120 ms) the ratio of signal intensities between a non-retracted whole blood clot (with a haematocrit of 35%) and a pure platelet clot was 3.0, and the ratio between a retracted whole blood clot with an estimated haematocrit of about 58% and a pure platelet clot was 2.6. We conclude that T1-weighted MRI can discriminate between platelet layers of thrombi and RBC-rich areas of thrombi that are not compacted to a haematocrit level of > or = 80%.

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Eduard Kralj

Frequency and number of resuscitation related rib and sternum fractures are higher than generally considered

Impact of altered venous hemodynamic conditions on the formation of platelet layers in thromboemboli

Characterization of pulmonary emboli ex vivo by magnetic resonance imaging and ultrasound

Multiparametric MRI in characterizing venous thrombi and pulmonary thromboemboli acquired from patients with pulmonary embolism

Discrimination between red blood cell and platelet components of blood clots by MR microscopy

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