Autonomous epicardial and endocardial boundary detection in echocardiographic short-axis images

E. A. Geiser; D. C. Wilson; Xing Wang Dong Xing Wang; D. A. Conetta; J. D. Murphy; A. D. Hutson

doi:10.1016/S0894-7317(98)70101-4

Autonomous epicardial and endocardial boundary detection in echocardiographic short-axis images

E. A. Geiser
, D. C. Wilson
, Xing Wang Dong Xing Wang
, D. A. Conetta
, J. D. Murphy
, A. D. Hutson

Department of Biostatistics

University of Florida

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

An autonomous endocardial and epicardial boundary detection (ABD) method is reported. One hundred ten cycles from 55 clinical studies were selected retrospectively. Image sequences were digitized at 512 x 480 pixel resolution. The point-by-point boundary positions of the ABD and the areas enclosed were compared with positions and enclosed areas drawn by three independent observers. Correlation coefficients for epicardial end-diastolic (ED) and end-systolic (ES) areas, endocardial ED and ES areas, muscle area, and fractional area change were 0.970, 0.976, 0.951, 0.985, 0.887, and 0.878, respectively. Bland-Altman analysis showed negligible biases with standard deviations comparable to those of the observers. The mean difference between the ABD border and the consensus observer border positions in 64 directions falls within the mean range of interobserver border positions, suggesting that shape is also well defined by the ABD.

Original language	English
Pages (from-to)	338-348
Number of pages	11
Journal	Journal of the American Society of Echocardiography
Volume	11
Issue number	4
DOIs	https://doi.org/10.1016/S0894-7317(98)70101-4
State	Published - 1998

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title = "Autonomous epicardial and endocardial boundary detection in echocardiographic short-axis images",

abstract = "An autonomous endocardial and epicardial boundary detection (ABD) method is reported. One hundred ten cycles from 55 clinical studies were selected retrospectively. Image sequences were digitized at 512 x 480 pixel resolution. The point-by-point boundary positions of the ABD and the areas enclosed were compared with positions and enclosed areas drawn by three independent observers. Correlation coefficients for epicardial end-diastolic (ED) and end-systolic (ES) areas, endocardial ED and ES areas, muscle area, and fractional area change were 0.970, 0.976, 0.951, 0.985, 0.887, and 0.878, respectively. Bland-Altman analysis showed negligible biases with standard deviations comparable to those of the observers. The mean difference between the ABD border and the consensus observer border positions in 64 directions falls within the mean range of interobserver border positions, suggesting that shape is also well defined by the ABD.",

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AU - Geiser, E. A.

AU - Wilson, D. C.

AU - Dong Xing Wang, Xing Wang

AU - Conetta, D. A.

AU - Murphy, J. D.

AU - Hutson, A. D.

PY - 1998

Y1 - 1998

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AB - An autonomous endocardial and epicardial boundary detection (ABD) method is reported. One hundred ten cycles from 55 clinical studies were selected retrospectively. Image sequences were digitized at 512 x 480 pixel resolution. The point-by-point boundary positions of the ABD and the areas enclosed were compared with positions and enclosed areas drawn by three independent observers. Correlation coefficients for epicardial end-diastolic (ED) and end-systolic (ES) areas, endocardial ED and ES areas, muscle area, and fractional area change were 0.970, 0.976, 0.951, 0.985, 0.887, and 0.878, respectively. Bland-Altman analysis showed negligible biases with standard deviations comparable to those of the observers. The mean difference between the ABD border and the consensus observer border positions in 64 directions falls within the mean range of interobserver border positions, suggesting that shape is also well defined by the ABD.

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Autonomous epicardial and endocardial boundary detection in echocardiographic short-axis images

Abstract

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