Democratizing Artificial Intelligence in Healthcare: A Study of Model Development Across Two Institutions Incorporating Transfer Learning
The training of deep learning models typically requires extensive data, which are not readily available as large well-curated medical-image datasets for development of artificial intelligence (AI) models applied in Radiology. Recognizing the potential for transfer learning (TL) to allow a fully trai...
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| Language: | English |
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25-09-2020
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| Abstract | The training of deep learning models typically requires extensive data, which
are not readily available as large well-curated medical-image datasets for
development of artificial intelligence (AI) models applied in Radiology.
Recognizing the potential for transfer learning (TL) to allow a fully trained
model from one institution to be fine-tuned by another institution using a much
small local dataset, this report describes the challenges, methodology, and
benefits of TL within the context of developing an AI model for a basic
use-case, segmentation of Left Ventricular Myocardium (LVM) on images from
4-dimensional coronary computed tomography angiography. Ultimately, our results
from comparisons of LVM segmentation predicted by a model locally trained using
random initialization, versus one training-enhanced by TL, showed that a
use-case model initiated by TL can be developed with sparse labels with
acceptable performance. This process reduces the time required to build a new
model in the clinical environment at a different institution. |
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| AbstractList | The training of deep learning models typically requires extensive data, which
are not readily available as large well-curated medical-image datasets for
development of artificial intelligence (AI) models applied in Radiology.
Recognizing the potential for transfer learning (TL) to allow a fully trained
model from one institution to be fine-tuned by another institution using a much
small local dataset, this report describes the challenges, methodology, and
benefits of TL within the context of developing an AI model for a basic
use-case, segmentation of Left Ventricular Myocardium (LVM) on images from
4-dimensional coronary computed tomography angiography. Ultimately, our results
from comparisons of LVM segmentation predicted by a model locally trained using
random initialization, versus one training-enhanced by TL, showed that a
use-case model initiated by TL can be developed with sparse labels with
acceptable performance. This process reduces the time required to build a new
model in the clinical environment at a different institution. |
| Author | Dayan, Ittai Gupta1, Vikash Laur, Olga Flores, Mona G Buch3, Varun Xu, Daguang Yang, Dong Ghoshhajra, Brian White, Richard D Rockenbach, Marcio A. B. C Roth, Holger Erdal, Barbaros Selnur |
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| BackLink | https://doi.org/10.48550/arXiv.2009.12437$$DView paper in arXiv |
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| Snippet | The training of deep learning models typically requires extensive data, which
are not readily available as large well-curated medical-image datasets for... |
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| Title | Democratizing Artificial Intelligence in Healthcare: A Study of Model Development Across Two Institutions Incorporating Transfer Learning |
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