Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features

Ping Lu; Huaqi Qiu; Chen Qin; Wenjia Bai; Daniel Rueckert; J. Alison Noble

doi:10.1007/978-3-030-52791-4_23

Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features

Ping Lu, Huaqi Qiu, Chen Qin, Wenjia Bai, Daniel Rueckert, J. Alison Noble

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Scopus citations

Abstract

This paper shows that deep modelling of subtle changes of cardiac motion can help in automated diagnosis of early onset of cardiac disease. In this paper, we model left ventricular (LV) cardiac motion in MRI sequences, based on a hybrid spatio-temporal network. Temporal data over long time periods is used as inputs to the model and delivers a dense displacement field (DDF) for regional analysis of LV function. A segmentation mask of the end-diastole (ED) frame is deformed by the predicted DDF from which regional analysis of LV function endocardial radius, thickness, circumferential strain (Ecc) and radial strain (Err) are estimated. Cardiac motion is estimated over MR cine loops. We compare the proposed technique to two other deep learning-based approaches and show that the proposed approach achieves promising predicted DDFs. Predicted DDFs are estimated on imaging data from healthy volunteers and patients with primary pulmonary hypertension from the UK Biobank. Experiments demonstrate that the proposed methods perform well in obtaining estimates of endocardial radii as cardiac motion-characteristic features for regional LV analysis.

Original language	English
Title of host publication	Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings
Editors	Bartlomiej W. Papiez, Ana I.L. Namburete, Mohammad Yaqub, J. Alison Noble, Mohammad Yaqub
Publisher	Springer
Pages	294-306
Number of pages	13
ISBN (Print)	9783030527907
DOIs	https://doi.org/10.1007/978-3-030-52791-4_23
State	Published - 2020
Externally published	Yes
Event	24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020 - Oxford, United Kingdom Duration: 15 Jul 2020 → 17 Jul 2020

Publication series

Name	Communications in Computer and Information Science
Volume	1248 CCIS
ISSN (Print)	1865-0929
ISSN (Electronic)	1865-0937

Conference

Conference	24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020
Country/Territory	United Kingdom
City	Oxford
Period	15/07/20 → 17/07/20

Keywords

Cardiac MRI sequences
Cardiac motion
Convolutional LSTM
Dense displacement field
Left ventricular function
U-Net

Access to Document

10.1007/978-3-030-52791-4_23

Cite this

Lu, P., Qiu, H., Qin, C., Bai, W., Rueckert, D., & Noble, J. A. (2020). Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features. In B. W. Papiez, A. I. L. Namburete, M. Yaqub, J. A. Noble, & M. Yaqub (Eds.), Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings (pp. 294-306). (Communications in Computer and Information Science; Vol. 1248 CCIS). Springer. https://doi.org/10.1007/978-3-030-52791-4_23

Lu, Ping ; Qiu, Huaqi ; Qin, Chen et al. / Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features. Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings. editor / Bartlomiej W. Papiez ; Ana I.L. Namburete ; Mohammad Yaqub ; J. Alison Noble ; Mohammad Yaqub. Springer, 2020. pp. 294-306 (Communications in Computer and Information Science).

@inproceedings{48b9f5b0fcc64436b042d9c3de5ccf09,

title = "Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features",

abstract = "This paper shows that deep modelling of subtle changes of cardiac motion can help in automated diagnosis of early onset of cardiac disease. In this paper, we model left ventricular (LV) cardiac motion in MRI sequences, based on a hybrid spatio-temporal network. Temporal data over long time periods is used as inputs to the model and delivers a dense displacement field (DDF) for regional analysis of LV function. A segmentation mask of the end-diastole (ED) frame is deformed by the predicted DDF from which regional analysis of LV function endocardial radius, thickness, circumferential strain (Ecc) and radial strain (Err) are estimated. Cardiac motion is estimated over MR cine loops. We compare the proposed technique to two other deep learning-based approaches and show that the proposed approach achieves promising predicted DDFs. Predicted DDFs are estimated on imaging data from healthy volunteers and patients with primary pulmonary hypertension from the UK Biobank. Experiments demonstrate that the proposed methods perform well in obtaining estimates of endocardial radii as cardiac motion-characteristic features for regional LV analysis.",

keywords = "Cardiac MRI sequences, Cardiac motion, Convolutional LSTM, Dense displacement field, Left ventricular function, U-Net",

author = "Ping Lu and Huaqi Qiu and Chen Qin and Wenjia Bai and Daniel Rueckert and Noble, {J. Alison}",

note = "Publisher Copyright: {\textcopyright} 2020, Springer Nature Switzerland AG.; 24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020 ; Conference date: 15-07-2020 Through 17-07-2020",

year = "2020",

doi = "10.1007/978-3-030-52791-4_23",

language = "English",

isbn = "9783030527907",

series = "Communications in Computer and Information Science",

publisher = "Springer",

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editor = "Papiez, {Bartlomiej W.} and Namburete, {Ana I.L.} and Mohammad Yaqub and Noble, {J. Alison} and Mohammad Yaqub",

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Lu, P, Qiu, H, Qin, C, Bai, W, Rueckert, D & Noble, JA 2020, Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features. in BW Papiez, AIL Namburete, M Yaqub, JA Noble & M Yaqub (eds), Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings. Communications in Computer and Information Science, vol. 1248 CCIS, Springer, pp. 294-306, 24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020, Oxford, United Kingdom, 15/07/20. https://doi.org/10.1007/978-3-030-52791-4_23

Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features. / Lu, Ping; Qiu, Huaqi; Qin, Chen et al.
Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings. ed. / Bartlomiej W. Papiez; Ana I.L. Namburete; Mohammad Yaqub; J. Alison Noble; Mohammad Yaqub. Springer, 2020. p. 294-306 (Communications in Computer and Information Science; Vol. 1248 CCIS).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Lu, Ping

AU - Qiu, Huaqi

AU - Qin, Chen

AU - Bai, Wenjia

AU - Rueckert, Daniel

AU - Noble, J. Alison

PY - 2020

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N2 - This paper shows that deep modelling of subtle changes of cardiac motion can help in automated diagnosis of early onset of cardiac disease. In this paper, we model left ventricular (LV) cardiac motion in MRI sequences, based on a hybrid spatio-temporal network. Temporal data over long time periods is used as inputs to the model and delivers a dense displacement field (DDF) for regional analysis of LV function. A segmentation mask of the end-diastole (ED) frame is deformed by the predicted DDF from which regional analysis of LV function endocardial radius, thickness, circumferential strain (Ecc) and radial strain (Err) are estimated. Cardiac motion is estimated over MR cine loops. We compare the proposed technique to two other deep learning-based approaches and show that the proposed approach achieves promising predicted DDFs. Predicted DDFs are estimated on imaging data from healthy volunteers and patients with primary pulmonary hypertension from the UK Biobank. Experiments demonstrate that the proposed methods perform well in obtaining estimates of endocardial radii as cardiac motion-characteristic features for regional LV analysis.

AB - This paper shows that deep modelling of subtle changes of cardiac motion can help in automated diagnosis of early onset of cardiac disease. In this paper, we model left ventricular (LV) cardiac motion in MRI sequences, based on a hybrid spatio-temporal network. Temporal data over long time periods is used as inputs to the model and delivers a dense displacement field (DDF) for regional analysis of LV function. A segmentation mask of the end-diastole (ED) frame is deformed by the predicted DDF from which regional analysis of LV function endocardial radius, thickness, circumferential strain (Ecc) and radial strain (Err) are estimated. Cardiac motion is estimated over MR cine loops. We compare the proposed technique to two other deep learning-based approaches and show that the proposed approach achieves promising predicted DDFs. Predicted DDFs are estimated on imaging data from healthy volunteers and patients with primary pulmonary hypertension from the UK Biobank. Experiments demonstrate that the proposed methods perform well in obtaining estimates of endocardial radii as cardiac motion-characteristic features for regional LV analysis.

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KW - Cardiac motion

KW - Convolutional LSTM

KW - Dense displacement field

KW - Left ventricular function

KW - U-Net

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SN - 9783030527907

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EP - 306

BT - Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings

A2 - Papiez, Bartlomiej W.

A2 - Namburete, Ana I.L.

A2 - Yaqub, Mohammad

A2 - Noble, J. Alison

A2 - Yaqub, Mohammad

PB - Springer

T2 - 24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020

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ER -

Lu P, Qiu H, Qin C, Bai W, Rueckert D, Noble JA. Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features. In Papiez BW, Namburete AIL, Yaqub M, Noble JA, Yaqub M, editors, Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings. Springer. 2020. p. 294-306. (Communications in Computer and Information Science). doi: 10.1007/978-3-030-52791-4_23

Going Deeper into Cardiac Motion Analysis to Model Fine Spatio-Temporal Features

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Keywords

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