High throughput computation of reference ranges of Biventricular Cardiac Function on the UK biobank population cohort
High throughput computation of reference ranges of Biventricular Cardiac Function on the UK biobank population cohort
The exploitation of large-scale population data has the potential to improve healthcare by discovering and understanding patterns and trends within this data. To enable high throughput analysis of cardiac imaging data automatically, a pipeline should comprise quality monitoring of the input images, segmentation of the cardiac structures, assessment of the segmentation quality, and parsing of cardiac functional indexes. We present a fully automatic, high throughput image parsing workflow for the analysis of cardiac MR images, and test its performance on the UK Biobank (UKB) cardiac dataset. The proposed pipeline is capable of performing end-to-end image processing including: data organisation, image quality assessment, shape model initialisation, segmentation, segmentation quality assessment, and functional parameter computation; all without any user interaction. To the best of our knowledge, this is the first paper tackling the fully automatic 3D analysis of the UKB population study, providing reference ranges for all key cardiovascular functional indexes, from both left and right ventricles of the heart. We tested our workflow on a reference cohort of 800 healthy subjects for which manual delineations, and reference functional indexes exist. Our results show statistically significant agreement between the manually obtained reference indexes, and those automatically computed using our framework.
114-121
Attar, Rahman
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Pereañez, Marco
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Gooya, Ali
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Albà, Xènia
1b709de1-7f57-4ac1-a67a-968155274121
Zhang, Le
1dc1ba6f-92bc-46cc-a73f-a16f21fb8e54
Piechnik, Stefan K.
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Neubauer, Stefan
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Petersen, Steffen E.
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Frangi, Alejandro F.
35127be7-3586-4fff-a4a2-bb79cc228141
14 February 2019
Attar, Rahman
f5efd538-042a-4647-9d46-1370d3049b72
Pereañez, Marco
c050686a-fe7d-4eb7-8ee7-54b2e993d590
Gooya, Ali
95a421d4-1d5c-49f7-bbf7-0e07c379b8d9
Albà, Xènia
1b709de1-7f57-4ac1-a67a-968155274121
Zhang, Le
1dc1ba6f-92bc-46cc-a73f-a16f21fb8e54
Piechnik, Stefan K.
7de3d548-ca5a-40cb-a52b-c53d2dd2278a
Neubauer, Stefan
c8a34156-a4ed-4dfe-97cb-4f47627d927d
Petersen, Steffen E.
04f2ce88-790d-48dc-baac-cbe0946dd928
Frangi, Alejandro F.
35127be7-3586-4fff-a4a2-bb79cc228141
Attar, Rahman, Pereañez, Marco, Gooya, Ali, Albà, Xènia, Zhang, Le, Piechnik, Stefan K., Neubauer, Stefan, Petersen, Steffen E. and Frangi, Alejandro F.
(2019)
High throughput computation of reference ranges of Biventricular Cardiac Function on the UK biobank population cohort.
Pop, Mihaela, Mansi, Tommaso, Li, Shuo, Sermesant, Maxime, Young, Alistair, Rhode, Kawal, Zhao, Jichao and McLeod, Kristin
(eds.)
In Statistical Atlases and Computational Models of the Heart. Atrial Segmentation and LV Quantification Challenges - 9th International Workshop, STACOM 2018, Held in Conjunction with MICCAI 2018, Revised Selected Papers.
vol. 11395 LNCS,
Springer.
.
(doi:10.1007/978-3-030-12029-0_13).
Record type:
Conference or Workshop Item
(Paper)
Abstract
The exploitation of large-scale population data has the potential to improve healthcare by discovering and understanding patterns and trends within this data. To enable high throughput analysis of cardiac imaging data automatically, a pipeline should comprise quality monitoring of the input images, segmentation of the cardiac structures, assessment of the segmentation quality, and parsing of cardiac functional indexes. We present a fully automatic, high throughput image parsing workflow for the analysis of cardiac MR images, and test its performance on the UK Biobank (UKB) cardiac dataset. The proposed pipeline is capable of performing end-to-end image processing including: data organisation, image quality assessment, shape model initialisation, segmentation, segmentation quality assessment, and functional parameter computation; all without any user interaction. To the best of our knowledge, this is the first paper tackling the fully automatic 3D analysis of the UKB population study, providing reference ranges for all key cardiovascular functional indexes, from both left and right ventricles of the heart. We tested our workflow on a reference cohort of 800 healthy subjects for which manual delineations, and reference functional indexes exist. Our results show statistically significant agreement between the manually obtained reference indexes, and those automatically computed using our framework.
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More information
Published date: 14 February 2019
Additional Information:
Funding Information:
Acknowledgements. R. Attar was funded by the Faculty of Engineering Doctoral Academy Scholarship, University of Sheffield. This work has been partially supported by the MedIAN Network (EP/N026993/1) funded by the Engineering and Physical Sciences Research Council (EPSRC), and the European Commission through FP7 contract VPH-DARE@IT (FP7-ICT-2011-9-601055) and H2020 Program contract InSilc (H2020-SC1-2017-CNECT-2-777119). The UKB CMR dataset has been provided under UK Biobank Application 2964.
Funding Information:
R. Attar was funded by the Faculty of Engineering Doctoral Academy Scholarship, University of Sheffield. This work has been partially supported by the MedIAN Network (EP/N026993/1) funded by the Engineering and Physical Sciences Research Council (EPSRC), and the European Commission through FP7 contract VPH-DARE@IT (FP7-ICT-2011-9-601055) and H2020 Program contract InSilc (H2020-SC1-2017-CNECT-2-777119). The UKB CMR dataset has been provided under UK Biobank Application 2964.
Publisher Copyright:
© 2019, Springer Nature Switzerland AG.
Venue - Dates:
9th International Workshop on Statistical Atlases and Computational Models of the Heart: Atrial Segmentation and LV Quantification Challenges, STACOM 2018, held in conjunction with Medical Image Computing and Computer-Assisted Intervention, MICCAI 2018, , Granada, Spain, 2018-09-16 - 2018-09-16
Identifiers
Local EPrints ID: 480777
URI: http://eprints.soton.ac.uk/id/eprint/480777
ISSN: 0302-9743
PURE UUID: ae331805-fceb-4348-a157-a9669c205421
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Date deposited: 09 Aug 2023 17:12
Last modified: 17 Mar 2024 13:18
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Contributors
Author:
Rahman Attar
Author:
Marco Pereañez
Author:
Ali Gooya
Author:
Xènia Albà
Author:
Le Zhang
Author:
Stefan K. Piechnik
Author:
Stefan Neubauer
Author:
Steffen E. Petersen
Author:
Alejandro F. Frangi
Editor:
Mihaela Pop
Editor:
Tommaso Mansi
Editor:
Shuo Li
Editor:
Maxime Sermesant
Editor:
Alistair Young
Editor:
Kawal Rhode
Editor:
Jichao Zhao
Editor:
Kristin McLeod
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