Reproducible extraction of local and global parameters for functional analysis of the left ventricle in 4D MR image data.

Dennis Säring; J Relan; Jan Ehrhardt; Kai Müllerleile; A Bahrmeyer; M Groth; Heinz Handels

Reproducible extraction of local and global parameters for functional analysis of the left ventricle in 4D MR image data.

Standard

Reproducible extraction of local and global parameters for functional analysis of the left ventricle in 4D MR image data. / Säring, Dennis; Relan, J; Ehrhardt, Jan; Müllerleile, Kai; Bahrmeyer, A; Groth, M; Handels, Heinz.

In: METHOD INFORM MED, Vol. 48, No. 2, 2, 2009, p. 216-224.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Säring, D, Relan, J, Ehrhardt, J, Müllerleile, K, Bahrmeyer, A, Groth, M & Handels, H 2009, 'Reproducible extraction of local and global parameters for functional analysis of the left ventricle in 4D MR image data.', METHOD INFORM MED, vol. 48, no. 2, 2, pp. 216-224. <http://www.ncbi.nlm.nih.gov/pubmed/19283322?dopt=Citation>

APA

Säring, D., Relan, J., Ehrhardt, J., Müllerleile, K., Bahrmeyer, A., Groth, M., & Handels, H. (2009). Reproducible extraction of local and global parameters for functional analysis of the left ventricle in 4D MR image data. METHOD INFORM MED, 48(2), 216-224. [2]. http://www.ncbi.nlm.nih.gov/pubmed/19283322?dopt=Citation

Vancouver

Säring D, Relan J, Ehrhardt J, Müllerleile K, Bahrmeyer A, Groth M et al. Reproducible extraction of local and global parameters for functional analysis of the left ventricle in 4D MR image data. METHOD INFORM MED. 2009;48(2):216-224. 2.

Bibtex

@article{f53785b907e34e5b8e912149f6d0a9f1,

title = "Reproducible extraction of local and global parameters for functional analysis of the left ventricle in 4D MR image data.",

abstract = "OBJECTIVES: Left ventricle (LV) segmentation is required to quantify LV volume and mass parameters. Therefore, spatiotemporal Cine MR sequences in the short and long axis of the heart are acquired. Generally, LV segmentation methods consider short-axis sequences only. The reduced resolution in long-axis direction is one of the main reasons for inaccurate parameter extraction in the apical and basal area. The segmentation approach presented combines short- and long-axis information as well as motion tracking to enable the functional LV analysis in 4D MR Image Data. METHODS: First, anatomical landmarks like the mitral valve and the apex are defined in long-axis views in diastolic and systolic phase in order to specify the upper and lower boundary of the LV. Second, motion field approximation using non-linear registration enables the automatic contour propagation to all time points. Third, intersection planes are defined parallel to the mitral valve plane covering the whole ventricle. Finally, the 4D LV surface model is generated appending all in-plane contours. The segmentation results in short-axis images are checked and adjusted interactively and quantitative parameters are extracted. RESULTS: For evaluation the contours of 19 different datasets were traced by two medical experts using a contour drawing tool and the new segmentation tool. The results were compared to evaluate automatic contour propagation, robustness of the segmentation as well as interaction time. CONCLUSION: The automatic contour propagation enables the fast and reproducible generation of a 4D model for the functional analysis of the heart. The interaction time is decreased from approx. 60 minutes to 10 minutes per case. Inter- and intraobserver differences of the extracted parameters are decreased significantly.",

author = "Dennis S{\"a}ring and J Relan and Jan Ehrhardt and Kai M{\"u}llerleile and A Bahrmeyer and M Groth and Heinz Handels",

year = "2009",

language = "Deutsch",

volume = "48",

pages = "216--224",

journal = "METHOD INFORM MED",

issn = "0026-1270",

publisher = "Schattauer",

number = "2",

}

RIS

TY - JOUR

T1 - Reproducible extraction of local and global parameters for functional analysis of the left ventricle in 4D MR image data.

AU - Säring, Dennis

AU - Relan, J

AU - Ehrhardt, Jan

AU - Müllerleile, Kai

AU - Bahrmeyer, A

AU - Groth, M

AU - Handels, Heinz

PY - 2009

Y1 - 2009

N2 - OBJECTIVES: Left ventricle (LV) segmentation is required to quantify LV volume and mass parameters. Therefore, spatiotemporal Cine MR sequences in the short and long axis of the heart are acquired. Generally, LV segmentation methods consider short-axis sequences only. The reduced resolution in long-axis direction is one of the main reasons for inaccurate parameter extraction in the apical and basal area. The segmentation approach presented combines short- and long-axis information as well as motion tracking to enable the functional LV analysis in 4D MR Image Data. METHODS: First, anatomical landmarks like the mitral valve and the apex are defined in long-axis views in diastolic and systolic phase in order to specify the upper and lower boundary of the LV. Second, motion field approximation using non-linear registration enables the automatic contour propagation to all time points. Third, intersection planes are defined parallel to the mitral valve plane covering the whole ventricle. Finally, the 4D LV surface model is generated appending all in-plane contours. The segmentation results in short-axis images are checked and adjusted interactively and quantitative parameters are extracted. RESULTS: For evaluation the contours of 19 different datasets were traced by two medical experts using a contour drawing tool and the new segmentation tool. The results were compared to evaluate automatic contour propagation, robustness of the segmentation as well as interaction time. CONCLUSION: The automatic contour propagation enables the fast and reproducible generation of a 4D model for the functional analysis of the heart. The interaction time is decreased from approx. 60 minutes to 10 minutes per case. Inter- and intraobserver differences of the extracted parameters are decreased significantly.

AB - OBJECTIVES: Left ventricle (LV) segmentation is required to quantify LV volume and mass parameters. Therefore, spatiotemporal Cine MR sequences in the short and long axis of the heart are acquired. Generally, LV segmentation methods consider short-axis sequences only. The reduced resolution in long-axis direction is one of the main reasons for inaccurate parameter extraction in the apical and basal area. The segmentation approach presented combines short- and long-axis information as well as motion tracking to enable the functional LV analysis in 4D MR Image Data. METHODS: First, anatomical landmarks like the mitral valve and the apex are defined in long-axis views in diastolic and systolic phase in order to specify the upper and lower boundary of the LV. Second, motion field approximation using non-linear registration enables the automatic contour propagation to all time points. Third, intersection planes are defined parallel to the mitral valve plane covering the whole ventricle. Finally, the 4D LV surface model is generated appending all in-plane contours. The segmentation results in short-axis images are checked and adjusted interactively and quantitative parameters are extracted. RESULTS: For evaluation the contours of 19 different datasets were traced by two medical experts using a contour drawing tool and the new segmentation tool. The results were compared to evaluate automatic contour propagation, robustness of the segmentation as well as interaction time. CONCLUSION: The automatic contour propagation enables the fast and reproducible generation of a 4D model for the functional analysis of the heart. The interaction time is decreased from approx. 60 minutes to 10 minutes per case. Inter- and intraobserver differences of the extracted parameters are decreased significantly.

M3 - SCORING: Zeitschriftenaufsatz

VL - 48

SP - 216

EP - 224

JO - METHOD INFORM MED

JF - METHOD INFORM MED

SN - 0026-1270

IS - 2

M1 - 2

ER -