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575 results on '"Moon, Won-Jin"'

1. Unpaired Deep Learning for Pharmacokinetic Parameter Estimation from Dynamic Contrast-Enhanced MRI

Author

Oh, Gyutaek, Moon, Won-Jin, and Ye, Jong Chul

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Physics - Medical Physics
Abstract

DCE-MRI provides information about vascular permeability and tissue perfusion through the acquisition of pharmacokinetic parameters. However, traditional methods for estimating these pharmacokinetic parameters involve fitting tracer kinetic models, which often suffer from computational complexity and low accuracy due to noisy arterial input function (AIF) measurements. Although some deep learning approaches have been proposed to tackle these challenges, most existing methods rely on supervised learning that requires paired input DCE-MRI and labeled pharmacokinetic parameter maps. This dependency on labeled data introduces significant time and resource constraints, as well as potential noise in the labels, making supervised learning methods often impractical. To address these limitations, here we present a novel unpaired deep learning method for estimating both pharmacokinetic parameters and the AIF using a physics-driven CycleGAN approach. Our proposed CycleGAN framework is designed based on the underlying physics model, resulting in a simpler architecture with a single generator and discriminator pair. Crucially, our experimental results indicate that our method, which does not necessitate separate AIF measurements, produces more reliable pharmacokinetic parameters than other techniques.

Published
2023

7. Which Contrast Does Matter? Towards a Deep Understanding of MR Contrast using Collaborative GAN

Author

Lee, Dongwook, Moon, Won-Jin, and Ye, Jong Chul

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Thanks to the recent success of generative adversarial network (GAN) for image synthesis, there are many exciting GAN approaches that successfully synthesize MR image contrast from other images with different contrasts. These approaches are potentially important for image imputation problems, where complete set of data is often difficult to obtain and image synthesis is one of the key solutions for handling the missing data problem. Unfortunately, the lack of the scalability of the existing GAN-based image translation approaches poses a fundamental challenge to understand the nature of the MR contrast imputation problem: which contrast does matter? Here, we present a systematic approach using Collaborative Generative Adversarial Networks (CollaGAN), which enable the learning of the joint image manifold of multiple MR contrasts to investigate which contrasts are essential. Our experimental results showed that the exogenous contrast from contrast agents is not replaceable, but other endogenous contrast such as T1, T2, etc can be synthesized from other contrast. These findings may give important guidance to the acquisition protocol design for MR in real clinical environment., Comment: 32 pages, 6 figures

Published
2019

8. CollaGAN : Collaborative GAN for Missing Image Data Imputation

Author

Lee, Dongwook, Kim, Junyoung, Moon, Won-Jin, and Ye, Jong Chul

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

In many applications requiring multiple inputs to obtain a desired output, if any of the input data is missing, it often introduces large amounts of bias. Although many techniques have been developed for imputing missing data, the image imputation is still difficult due to complicated nature of natural images. To address this problem, here we proposed a novel framework for missing image data imputation, called Collaborative Generative Adversarial Network (CollaGAN). CollaGAN converts an image imputation problem to a multi-domain images-to-image translation task so that a single generator and discriminator network can successfully estimate the missing data using the remaining clean data set. We demonstrate that CollaGAN produces the images with a higher visual quality compared to the existing competing approaches in various image imputation tasks., Comment: CVPR 2019 Camera Ready Version (oral presentation)

Published
2019

10. Efficacy and safety of oxiracetam in patients with vascular cognitive impairment: A multicenter, randomized, double-blinded, placebo-controlled, phase IV clinical trial

Author

Lim, Jae-Sung, Lee, Juneyoung, Kang, Yeonwook, Park, Hyun-Tae, Kim, Dong-Eog, Cha, Jae-Kwan, Park, Tai Hwan, Heo, Jae-Hyuk, Lee, Kyung Bok, Park, Jong-Moo, Oh, Mi Sun, Kim, Eung-Gyu, Chang, Dae-Il, Heo, Sung Hyuk, Park, Man-Seok, Park, HyunYoung, Yi, SangHak, Lee, Yeong Bae, Park, Kwang-Yeol, Lee, Soo Joo, Kim, Jae Guk, Lee, Jun, Cho, Kyung-Hee, Rha, Joung-Ho, Kim, Yeong-In, Lee, Jun Hong, Choi, Jay Chol, Oh, Kyung-Mi, Kwon, Jee-Hyun, Kim, Chulho, Park, Jong-Ho, Jung, Keun-Hwa, Sung, Sang Min, Chung, Jong-Won, Lee, Yong-Seok, Kim, Hahn Young, Cho, Hyun-Ji, Park, Jeong Wook, Moon, Won-Jin, and Bae, Hee-Joon

Published
2023
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18. Deep Cascade of Convolutional Neural Networks for Quantification of Enlarged Perivascular Spaces in the Basal Ganglia in Magnetic Resonance Imaging.

Author

Chae, Seunghye, Yang, Ehwa, Moon, Won-Jin, and Kim, Jae-Hun

Subjects
CONVOLUTIONAL neural networks, DEEP learning, MAGNETIC resonance imaging, BASAL ganglia, PARKINSON'S disease
Abstract

In this paper, we present a cascaded deep convolution neural network (CNN) for assessing enlarged perivascular space (ePVS) within the basal ganglia region using T2-weighted MRI. Enlarged perivascular spaces (ePVSs) are potential biomarkers for various neurodegenerative disorders, including dementia and Parkinson's disease. Accurate assessment of ePVS is crucial for early diagnosis and monitoring disease progression. Our approach first utilizes an ePVS enhancement CNN to improve ePVS visibility and then employs a quantification CNN to predict the number of ePVSs. The ePVS enhancement CNN selectively enhances the ePVS areas without the need for additional heuristic parameters, achieving a higher contrast-to-noise ratio (CNR) of 113.77 compared to Tophat, Clahe, and Laplacian-based enhancement algorithms. The subsequent ePVS quantification CNN was trained and validated using fourfold cross-validation on a dataset of 76 participants. The quantification CNN attained 88% accuracy at the image level and 94% accuracy at the subject level. These results demonstrate significant improvements over traditional algorithm-based methods, highlighting the robustness and reliability of our deep learning approach. The proposed cascaded deep CNN model not only enhances the visibility of ePVS but also provides accurate quantification, making it a promising tool for evaluating neurodegenerative disorders. This method offers a novel and significant advancement in the non-invasive assessment of ePVS, potentially aiding in early diagnosis and targeted treatment strategies. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Growth of (1 − x)(Na1/2Bi1/2)TiO3–xKNbO3single crystals by the self-flux method and their characterisation

Author

Abbas, Ali, Jung, Wan-Gil, Moon, Won-Jin, Uwiragiye, Eugenie, Pham, Thuy Linh, Lee, Jong-Sook, Fisher, John G., Ge, Wenwei, Naqvi, Furqan Ul Hassan, and Ko, Jae-Hyon

Abstract

Single crystals of (Na1/2Bi1/2)TiO3-based compositions are of interest for actuator applications. In this work, single crystals of nominal composition (Na1/2Bi1/2)TiO3(NBT) and 0.92(Na1/2Bi1/2)TiO3–0.08KNbO3(NBT-KN) are grown by the self-flux method and their structure and electrical properties characterized. X-ray diffraction and transmission electron microscopy show that both the NBT and NBT-KN single crystals have a tetragonal structure, whereas polarized light microscopy and Raman scattering indicate a rhombohedral structure. Electron probe microanalysis shows the NBT single crystal is Na-deficient and slightly Bi-excess, while the NBT-KN single crystal is Na-deficient and slightly Bi-excess, slightly Nb-deficient and noticeably K-deficient. Temperature-controlled Raman scattering and measurement of the dielectric properties reveal that the characteristic phase transitions in NBT shift to lower temperatures on formation of a solid solution with KNbO3. The transitions indicated in the Raman scattering analysis can also be revealed by the impedance modeling parameters in terms of capacitance relaxations by diffusion mechanisms.

Published
2024
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37. sj-pdf-1-jcb-10.1177_0271678X231180035 - Supplemental material for Blood-brain barrier breakdown is linked to tau pathology and neuronal injury in a differential manner according to amyloid deposition

Author

Moon, Yeonsil, Jeon, Hong Jun, Han, Seol-Heui, Min-Young, Noh, Kim, Hee-Jin, Kwon, Kyoung Ja, Moon, Won-Jin, and Kim, Seung Hyun

Subjects
110320 Radiology and Organ Imaging, FOS: Clinical medicine, FOS: Biological sciences, Medicine, Cell Biology, 110305 Emergency Medicine, 110306 Endocrinology, Biochemistry, 69999 Biological Sciences not elsewhere classified, 110904 Neurology and Neuromuscular Diseases, Neuroscience
Abstract

Supplemental material, sj-pdf-1-jcb-10.1177_0271678X231180035 for Blood-brain barrier breakdown is linked to tau pathology and neuronal injury in a differential manner according to amyloid deposition by Yeonsil Moon, Hong Jun Jeon, Seol-Heui Han, Noh Min-Young, Hee-Jin Kim, Kyoung Ja Kwon, Won-Jin Moon and Seung Hyun Kim in Journal of Cerebral Blood Flow & Metabolism

Published
2023
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