Engineering AI Tools for Systematic and Scalable Quality Assessment in Magnetic Resonance Imaging
Engineering AI Tools for Systematic and Scalable Quality Assessment in Magnetic Resonance Imaging
A desire to achieve large medical imaging datasets keeps increasing as
machine learning algorithms, parallel computing, and hardware technology
evolve. Accordingly, there is a growing demand in pooling data from
multiple clinical and academic institutes to enable large-scale clinical
or translational research studies. Magnetic resonance imaging (MRI) is a
frequently used, non-invasive imaging modality. However, constructing a
big MRI data repository has multiple challenges related to privacy, data
size, DICOM format, logistics, and non-standardized images. Not only
building the data repository is difficult, but using data pooled from
the repository is also challenging, due to heterogeneity in image
acquisition, reconstruction, and processing pipelines across MRI vendors
and imaging sites. This position paper describes challenges in
constructing a large MRI data repository and using data downloaded from
such data repositories in various aspects. To help address the
challenges, the paper proposes introducing a quality assessment
pipeline, with considerations and general design principles.
Artificial Intelligence, Data-centric AI, Magnetic Resonance Imaging
Zou, Yukai
328b4fd9-da35-42bb-a032-b0a98ed33a2d
Jang, Ikbeom
5ff29072-6279-4d46-b11e-f1dc14f3eb6b
2 December 2021
Zou, Yukai
328b4fd9-da35-42bb-a032-b0a98ed33a2d
Jang, Ikbeom
5ff29072-6279-4d46-b11e-f1dc14f3eb6b
Zou, Yukai and Jang, Ikbeom
(2021)
Engineering AI Tools for Systematic and Scalable Quality Assessment in Magnetic Resonance Imaging.
35th Conference on Neural Information Processing Systems, virtual.
06 - 14 Dec 2021.
6 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
A desire to achieve large medical imaging datasets keeps increasing as
machine learning algorithms, parallel computing, and hardware technology
evolve. Accordingly, there is a growing demand in pooling data from
multiple clinical and academic institutes to enable large-scale clinical
or translational research studies. Magnetic resonance imaging (MRI) is a
frequently used, non-invasive imaging modality. However, constructing a
big MRI data repository has multiple challenges related to privacy, data
size, DICOM format, logistics, and non-standardized images. Not only
building the data repository is difficult, but using data pooled from
the repository is also challenging, due to heterogeneity in image
acquisition, reconstruction, and processing pipelines across MRI vendors
and imaging sites. This position paper describes challenges in
constructing a large MRI data repository and using data downloaded from
such data repositories in various aspects. To help address the
challenges, the paper proposes introducing a quality assessment
pipeline, with considerations and general design principles.
Text
2112.01629
- Author's Original
More information
Published date: 2 December 2021
Additional Information:
6 pages, 2 figures, NeurIPS Data-Centric AI Workshop 2021 (Virtual)
Venue - Dates:
35th Conference on Neural Information Processing Systems, virtual, 2021-12-06 - 2021-12-14
Keywords:
Artificial Intelligence, Data-centric AI, Magnetic Resonance Imaging
Identifiers
Local EPrints ID: 453912
URI: http://eprints.soton.ac.uk/id/eprint/453912
PURE UUID: 93f7782a-bf48-4b87-8698-0ed34a6a8e3c
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Date deposited: 25 Jan 2022 17:58
Last modified: 17 Mar 2024 04:05
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Contributors
Author:
Ikbeom Jang
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