Sergej Lebedev scite author profile

Sergej Lebedev

3Publications

29Citation Statements Received

54Citation Statements Given

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Affiliations

Siemens Healthcare (Germany), German Cancer Research Center, Heidelberg University

Publications

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Deep learning‐based coronary artery motion estimation and compensation for short‐scan cardiac CT

et al. 2021

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During a typical cardiac short scan, the heart can move several millimeters. As a result, the corresponding CT reconstructions may be corrupted by motion artifacts. Especially the assessment of small structures, such as the coronary arteries, is potentially impaired by the presence of these artifacts. In order to estimate and compensate for coronary artery motion, this manuscript proposes the deep partial angle-based motion compensation (Deep PAMoCo). Methods: The basic principle of the Deep PAMoCo relies on the concept of partial angle reconstructions (PARs), that is, it divides the short scan data into several consecutive angular segments and reconstructs them separately. Subsequently, the PARs are deformed according to a motion vector field (MVF) such that they represent the same motion state and summed up to obtain the final motioncompensated reconstruction. However, in contrast to prior work that is based on the same principle, the Deep PAMoCo estimates and applies the MVF via a deep neural network to increase the computational performance as well as the quality of the motion compensated reconstructions. Results: Using simulated data, it could be demonstrated that the Deep PAMoCo is able to remove almost all motion artifacts independent of the contrast, the radius and the motion amplitude of the coronary artery. In any case, the average error of the CT values along the coronary artery is about 25 HU while errors of up to 300 HU can be observed if no correction is applied. Similar results were obtained for clinical cardiac CT scans where the Deep PAMoCo clearly outperforms state-of-the-art coronary artery motion compensation approaches in terms of processing time as well as accuracy. Conclusions: The Deep PAMoCo provides an efficient approach to increase the diagnostic value of cardiac CT scans even if they are highly corrupted by motion.

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Multi-dimensional tensor-based adaptive filter (TBAF) for low dose x-ray CT

Knaup

Lebedev

Sawall

et al. 2015

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Optimization of the alpha image reconstruction – an iterative CT-image reconstruction with well-defined image quality metrics

Lebedev

Sawall

Knaup

et al. 2017

Zeitschrift für Medizinische Physik

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Sergej Lebedev

Deep learning‐based coronary artery motion estimation and compensation for short‐scan cardiac CT

Multi-dimensional tensor-based adaptive filter (TBAF) for low dose x-ray CT

Optimization of the alpha image reconstruction – an iterative CT-image reconstruction with well-defined image quality metrics

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