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The paper deals with processing of imaging data obtained in the course of different medical examination procedures, for use in applications focused on improving both the diagnostic process of a patient as well as extending the training possibilities for medical personnel. Computed tomography (CT) data serves as the main source of structural and volumetric information. Fusion with left ventricular systolic function map, provides a vital information on the state of heart muscle. In parallel, the same set of computed tomography data is reused for simulation of trans-esophageal echocardiography (TEE). The presented simulation setup is used in the course of medical personnel training.
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67--73
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Bibliogr. 16 poz., rys.
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- Technical University of Lodz, Department of Microelectronics and Computer Science, Łódź, Poland
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Bibliografia
- [1] WOJTYNIAK B., GORYŃSKI P., RABCZANKO D. i wsp., Umieralność przedwczesna i ogólna z powodu chorób układu krążenia w Polsce na tle sytuacji w Unii Europejskiej, Europie i USA. Państwowy Zakład Higieny, Warszawa, 2007.
- [2] ZDROJEWSKI T., BRODA G., GORYŃSKI P., Wybrane elementy epidemiologii chorób układu sercowonaczyniowego w Polsce, W: P. PODOLEC (red), Podręcznik Polskiego Forum Profilaktyki Tom I, Medycyna Praktyczna, Kraków, 2007, pp. 89-94.
- [3] ALLENDER S., SCARBOROUGH P., PETO V., RAYNER M., European cardiovascular disease statistics, British Heart Foundation, 2008.
- [4] GAEMPERLI O., SCHEPIS T., VALENTA I., Cardiac Image Fusion from Stand-Alone SPECT and CT: Clinical Experience, Journal of Nuclear Medicine, 2007, Vol. 48, No. 7, pp. 696-703.
- [5] GAEMPERLO O., GAEMPERLI F., BENGEL F.M., KAUFMANN P.A., Cardiac hybrid imaging, European Heart Journal, 2011, Vol. 32, No. 17, pp. 2100-2108.
- [6] SHAMS R., HARTLEY R., NAVAB N., Real-Time Simulation of Medical Ultrasound from CT Images, Proceedings of International Conference on Medical Image Computing and Computer Assisted Intervention, 2008, pp. 734-741.
- [7] SUN B., MC KENZIE F., Real-Time Sonography Simulation for Medical Training, International Journal of Education and Information Technologies, 2011, Vol. 5, No. 3, pp. 328-335.
- [8] KUTTNER O., SHAMS R., NAVAB N., Visualization and GPU-accelerated simulation of medical ultrasound from CT images, Computer Methods and Programs in Biomedicine, 2009, Vol. 94, pp. 250-266.
- [9] BELGHITIA H., BRETTE S., LAFITTE S., Automated Function imaging: A new operator independent strain method for assessment of left ventricular function, Archives of Cardiovascular Diseses, 2008, Vol. 101, No. 3, pp. 163-169.
- [10] MURTA L.O., PAZIN-FILHO A., SCHMIDT A., ALMEIDA-FILHO O.C., MARIN-NETO J.A, et al., Segmental Quantitative Analysis of Myocardial Contrast Echocardiography Images Using a Bullseye Representation, Computers in Cardiology, 2003.
- [11] PHAM D.L., XU C., PRINCE J.L., Current methods in medical image segmentation, Annual Review of Biomedical Engineering, 2000.
- [12] National Electrical Manufacturers Association, Digital Imaging and Communications in Medicine (DICOM), Standard specification, 2009.
- [13] SCHROEDER W., MARTIN K., LORENSEN B., The Visualization Toolkit An Object-Oriented Approach To 3D Graphics, 4th Edition, Kitware, Inc. Publishers, 2006.
- [14] KEMPNY A., PIÓRKOWSKI A., CT2TEE - a novel, internet-based simulator of transoesophageal echocardiography in congenital heart disease, Kardiologia Pol., 2010, Vol. 68, No. 3, pp. 374-379.
- [15] NARKBUAKAEW W., SOTTHIVIRAT S., GANSAWAT D., et al., 3D Surface Reconstruction of Large Medical Data Using Marching Cubes in VTK, The 3rd International Symposium on Biomedical Engineering, 2008, pp. 64-67.
- [16] JENSEN J.A., Simulation of advanced ultrasound systems using Field II, IEEE International Symposium on Biomedical Imaging, 2004, pp. 636-639.
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Bibliografia
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bwmeta1.element.baztech-article-PWA4-0026-0007