Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework

X-rays angiograms of the left ventricle as the main cavity of the human heart are acquired at the catheterization rooms routinely in order to evaluate the cardiac dynamic function. The global measurement of volumes, ejection fraction and synergistic motion associated with the ventricular cavity are...

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Autores:: Chacón, Gerardo
Rodríguez, Johel E.
Bermúdez, Valmore
Flórez, Anderson
Del Mar, Atilio
Pardo, Aldo
Lameda, Carlos

Tipo de recurso:

Fecha de publicación:: 2019

Institución:: Universidad Simón Bolívar

Repositorio:: Repositorio Digital USB

Idioma:: eng

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dc.title.eng.fl_str_mv	Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework
dc.title.translated.spa.fl_str_mv	Evaluación simultánea de volúmenes y movimiento sinérgico del ventrículo izquierdo a partir de angiogramas de rayos X utilizando un marco computacional unificado
title	Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework
spellingShingle	Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework X-rays angiograms Human heart Left ventricle Ventricle volumes Synergistic motion Cardiac function Angiogramas de rayos X Corazón humano Volúmenes ventriculares Movimiento sinérgico Función cardíaca
title_short	Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework
title_full	Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework
title_fullStr	Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework
title_full_unstemmed	Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework
title_sort	Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework
dc.creator.fl_str_mv	Chacón, Gerardo Rodríguez, Johel E. Bermúdez, Valmore Flórez, Anderson Del Mar, Atilio Pardo, Aldo Lameda, Carlos
dc.contributor.author.none.fl_str_mv	Chacón, Gerardo Rodríguez, Johel E. Bermúdez, Valmore Flórez, Anderson Del Mar, Atilio Pardo, Aldo Lameda, Carlos
dc.subject.eng.fl_str_mv	X-rays angiograms Human heart Left ventricle Ventricle volumes Synergistic motion Cardiac function
topic	X-rays angiograms Human heart Left ventricle Ventricle volumes Synergistic motion Cardiac function Angiogramas de rayos X Corazón humano Volúmenes ventriculares Movimiento sinérgico Función cardíaca
dc.subject.spa.fl_str_mv	Angiogramas de rayos X Corazón humano Volúmenes ventriculares Movimiento sinérgico Función cardíaca
description	X-rays angiograms of the left ventricle as the main cavity of the human heart are acquired at the catheterization rooms routinely in order to evaluate the cardiac dynamic function. The global measurement of volumes, ejection fraction and synergistic motion associated with the ventricular cavity are considered in the assessment of such function. A precise left ventricle silhouette on the angiograms is necessary to calculate the function descriptors. A segmentation method is required to obtain the projected cavity shape
publishDate	2019
dc.date.issued.none.fl_str_mv	2019
dc.date.accessioned.none.fl_str_mv	2020-02-13T01:07:33Z
dc.date.available.none.fl_str_mv	2020-02-13T01:07:33Z
dc.type.eng.fl_str_mv	article
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dc.identifier.issn.none.fl_str_mv	18564550
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/20.500.12442/4730
identifier_str_mv	18564550
url	https://hdl.handle.net/20.500.12442/4730
dc.language.iso.eng.fl_str_mv	eng
language	eng
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dc.format.mimetype.spa.fl_str_mv	pdf
dc.publisher.spa.fl_str_mv	Cooperativa servicios y suministros 212518 RS
dc.source.spa.fl_str_mv	Revista Latinoamericana de Hipertensión Vol. 14 , Nº 5 (2019)
institution	Universidad Simón Bolívar
dc.source.uri.none.fl_str_mv	http://www.revhipertension.com/rlh_5_2019/12_simultaneous_evaluation.pdf
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spelling	Chacón, Gerardo09c43ece-2735-4074-9b8c-5852a95df0e4Rodríguez, Johel E.c676ecb4-6592-4c68-a85c-37fda5ef7e00Bermúdez, Valmore29f9aa18-16a4-4fd3-8ce5-ed94a0b8663aFlórez, Andersonc0450022-318b-4608-b9ee-8a25e55ed9b1Del Mar, Atilio82c097a4-4438-4c35-b8c2-f17c5324ac8bPardo, Aldo5d072c76-2eb5-4582-86ba-0510c45cb635Lameda, Carlosb1602821-ee77-4fdc-8edb-bc17489e41e12020-02-13T01:07:33Z2020-02-13T01:07:33Z201918564550https://hdl.handle.net/20.500.12442/4730X-rays angiograms of the left ventricle as the main cavity of the human heart are acquired at the catheterization rooms routinely in order to evaluate the cardiac dynamic function. The global measurement of volumes, ejection fraction and synergistic motion associated with the ventricular cavity are considered in the assessment of such function. A precise left ventricle silhouette on the angiograms is necessary to calculate the function descriptors. A segmentation method is required to obtain the projected cavity shapeLos angiogramas de rayos X del ventrículo izquierdo como la cavidad principal del corazón humano se adquieren en las salas de cateterismo de forma rutinaria para evaluar la función dinámica cardíaca. La medición global de los volúmenes, la fracción de eyección y el movimiento sinérgico asociados con la cavidad ventricular se consideran en la evaluación de dicha función. Es necesaria una silueta precisa del ventrículo izquierdo en los angiogramas para calcular los descriptores de funciones. Se requiere un método de segmentación para obtener la forma de la cavidad proyectada.pdfengCooperativa servicios y suministros 212518 RSAttribution-NonCommercial-NoDerivatives 4.0 Internacionalhttp://creativecommons.org/licenses/by-nc-nd/4.0/http://purl.org/coar/access_right/c_abf2Revista Latinoamericana de HipertensiónVol. 14 , Nº 5 (2019)http://www.revhipertension.com/rlh_5_2019/12_simultaneous_evaluation.pdfX-rays angiogramsHuman heartLeft ventricleVentricle volumesSynergistic motionCardiac functionAngiogramas de rayos XCorazón humanoVolúmenes ventricularesMovimiento sinérgicoFunción cardíacaSimultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational frameworkEvaluación simultánea de volúmenes y movimiento sinérgico del ventrículo izquierdo a partir de angiogramas de rayos X utilizando un marco computacional unificadoarticlearticlehttp://purl.org/coar/version/c_970fb48d4fbd8a85http://purl.org/coar/resource_type/c_6501Marcus ML, Dellsperger KC: Determinants of systolic and diastolic ventricular function, in: Marcus M, Schelbert H, Skorton D, Wolf G (Eds.), Cardiac Imaging. A Companion to Braunwald’s Heart Disease, W.B. Saunders Company, Philadelphia, USA, 1991:24–38.Kennedy J, Baxley W, Figley M, Dodge H, Blackmon J. Quantitative angiocardiography. I. The normal left ventricle in man. Circulation. 1966;34(2):272–8Ratib O: Quantitative analysis of cardiac function, in: Bankman I (Ed.), Handbook of Medical Imaging: Processing and Analysis, Academic Press, San Diego, 2000:359–374Yang C, Wu W, Su Y, Zhang S: Left ventricle segmentation via twolayer level sets with circular shape constraint, Magnetic Resonance Imaging. 2017;38:202-213Olveres J, Nava R, Escalante-Ramírez B, Vallejo E, Kybic J: Left ventricle Hermite-based segmentation, Computers in Biology and Medicine. 2017. 87(1):236-249Yin L, Yang R, Gabbouj M, Neuvo Y:Weighted median filters: a tutorial, IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing. 1996; 43(3):157–192Gonzalez R, Woods R: Digital Image Processing. 2006, USA: Prentice–HallPerona P, Malik J: Scale-space and edge detection using anisotropic diffusion. IEEE Transactions on Pattern Analysis and Machine Intelligence. 1990; 12(7): 629–639Cañero C, Radeva P: Vesselness enhancement diffusion. Pattern Recognition Letters. 2003; 24(16):3141–3151Serra J: Image Analysis and Mathematical Morphology. 19863; USA: Academic PressHaralick R, Shapiro L: Computer and robot vision, vol. I. 1992; USA: Addison-Wesley Publishing CompanyLi C, Xu C, Gui C, Fox MD: Distance Regularized Level Set Evolution and Its Application to Image Segmentation. IEEE Transaction on Image Processing. 2010;19(12):3243-3254Daniel: Region Growing (2D/3D grayscale). MathWorks. 2011. https:// www.mathworks. com/matlabcentral/fileexchange/32532-regiongrowing- 2d-3d-grayscaleSethian J: Level Set Methods: Evolving Interfaces in Geometry, Fluid Mechanics, Computer Vision, and Material Sciences. 1996; Cambridge University PressLi C: Level set for image segmentation. MathWorks. 2013. https:// www.mathworks. com/matlabcentral/fileexchange/12711-level-setfor- image-segmentationKou W: Digital Image Compression: Algorithms and Standards. 2013;Springer Science & Business MediaYan S, Lamberto B, Vladir M, Harry G: From Cardiac Catheterization Data to hemodynamic Parameters. 1978; USA: F. A. Davis Company.Lopes D: Anisotropic Diffusion (Perona & Malik). MathWorks. 2007. https://www.mathworks. com/matlabcentral/fileexchange/14995- anisotropic-diffusion-perona-malikNielsen J, Molich R: Heuristic evaluation of user interfaces, In: Proceeding of the SIGCHI Conference on Human Factors in Computing Systems. 1990: 249-256Suzuki K, Horiba I, Sugie N, Nanki M: Extraction of left ventricular contours from left ventriculograms by means of a neural edge detector, EEE Transactions on Medical Imaging. 2004 23(3):330–339Chalana V, Kim Y: A methodology for evaluation of boundary detection algorithms on medical images. IEEE Transaction on Medical Imaging. 1997;16(5):642–52Dice L: Measures of the amount of ecologic association between species. Ecology. 1945;26(3):297–302. 10.2307/1932409Kennedy J, Trenholme S, Kaiser I, Wash S: Left ventricular volume and mass from single–plane cineangiocardiogram. A comparison of anteroposterior and right anterior oblique methods. American Heart Journal. 1970;80(3):343–52.Oost E, Koning G, Sonka M, Oemrawsingh PV, Reiber JHC, Lelieveldt BPF: Automated contour detection in X-ray left ventricular angiograms using multiview active appearance models and dynamic programming. IEEE Transaction on Medical Imaging. 2006;25(9):1158–71Vera M, Bravo A, Medina R: Myocardial border detection from ventriculograms using support vector machines and real-coded genetic algorithms, Computers in Biology and Medicine. 2010; 40(4):446-455Hammermeister K, Brooks R,Warbasse J. Rate of change of left ventricular volume in man. I. Validation of peak systolic ejection rate in health and disease. 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Simultaneous evaluation of volumes and synergistic motion of the left ventricle from X-ray angiograms using a unified computational framework

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