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1. GLEAN: Generative Learning for Eliminating Adversarial Noise

Author

Kim, Justin Lyu and Woo, Kyoungwan

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

In the age of powerful diffusion models such as DALL-E and Stable Diffusion, many in the digital art community have suffered style mimicry attacks due to fine-tuning these models on their works. The ability to mimic an artist's style via text-to-image diffusion models raises serious ethical issues, especially without explicit consent. Glaze, a tool that applies various ranges of perturbations to digital art, has shown significant success in preventing style mimicry attacks, at the cost of artifacts ranging from imperceptible noise to severe quality degradation. The release of Glaze has sparked further discussions regarding the effectiveness of similar protection methods. In this paper, we propose GLEAN- applying I2I generative networks to strip perturbations from Glazed images, evaluating the performance of style mimicry attacks before and after GLEAN on the results of Glaze. GLEAN aims to support and enhance Glaze by highlighting its limitations and encouraging further development.

Published
2024

2. Coronary CTA and Quantitative Cardiac CT Perfusion (CCTP) in Coronary Artery Disease

Author

Wu, Hao, Song, Yingnan, Hoori, Ammar, Subramaniam, Ananya, Lee, Juhwan, Kim, Justin, Hu, Tao, Al-Kindi, Sadeer, Huang, Wei-Ming, Yun, Chun-Ho, Hung, Chung-Lieh, Rajagopalan, Sanjay, and Wilson, David L.

Subjects
Quantitative Biology - Tissues and Organs
Abstract

We assessed the benefit of combining stress cardiac CT perfusion (CCTP) myocardial blood flow (MBF) with coronary CT angiography (CCTA) using our innovative CCTP software. By combining CCTA and CCTP, one can uniquely identify a flow limiting stenosis (obstructive-lesion + low-MBF) versus MVD (no-obstructive-lesion + low-MBF. We retrospectively evaluated 104 patients with suspected CAD, including 18 with diabetes, who underwent CCTA+CCTP. Whole heart and territorial MBF was assessed using our automated pipeline for CCTP analysis that included beam hardening correction; temporal scan registration; automated segmentation; fast, accurate, robust MBF estimation; and visualization. Stenosis severity was scored using the CCTA coronary-artery-disease-reporting-and-data-system (CAD-RADS), with obstructive stenosis deemed as CAD-RADS>=3. We established a threshold MBF (MBF=199-mL/min-100g) for normal perfusion. In patients with CAD-RADS>=3, 28/37(76%) patients showed ischemia in the corresponding territory. Two patients with obstructive disease had normal perfusion, suggesting collaterals and/or a hemodynamically insignificant stenosis. Among diabetics, 10 of 18 (56%) demonstrated diffuse ischemia consistent with MVD. Among non-diabetics, only 6% had MVD. Sex-specific prevalence of MVD was 21%/24% (M/F). On a per-vessel basis (n=256), MBF showed a significant difference between territories with and without obstructive stenosis (165 +/- 61 mL/min-100g vs. 274 +/- 62 mL/min-100g, p <0.05). A significant and negative rank correlation (rho=-0.53, p<0.05) between territory MBF and CAD-RADS was seen. CCTA in conjunction with a new automated quantitative CCTP approach can augment the interpretation of CAD, enabling the distinction of ischemia due to obstructive lesions and MVD.

Published
2024

3. AI prediction of cardiovascular events using opportunistic epicardial adipose tissue assessments from CT calcium score

Author

Hu, Tao, Freeze, Joshua, Singh, Prerna, Kim, Justin, Song, Yingnan, Wu, Hao, Lee, Juhwan, Al-Kindi, Sadeer, Rajagopalan, Sanjay, Wilson, David L., and Hoori, Ammar

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Artificial Intelligence
Abstract

Background: Recent studies have used basic epicardial adipose tissue (EAT) assessments (e.g., volume and mean HU) to predict risk of atherosclerosis-related, major adverse cardiovascular events (MACE). Objectives: Create novel, hand-crafted EAT features, 'fat-omics', to capture the pathophysiology of EAT and improve MACE prediction. Methods: We segmented EAT using a previously-validated deep learning method with optional manual correction. We extracted 148 radiomic features (morphological, spatial, and intensity) and used Cox elastic-net for feature reduction and prediction of MACE. Results: Traditional fat features gave marginal prediction (EAT-volume/EAT-mean-HU/ BMI gave C-index 0.53/0.55/0.57, respectively). Significant improvement was obtained with 15 fat-omics features (C-index=0.69, test set). High-risk features included volume-of-voxels-having-elevated-HU-[-50, -30-HU] and HU-negative-skewness, both of which assess high HU, which as been implicated in fat inflammation. Other high-risk features include kurtosis-of-EAT-thickness, reflecting the heterogeneity of thicknesses, and EAT-volume-in-the-top-25%-of-the-heart, emphasizing adipose near the proximal coronary arteries. Kaplan-Meyer plots of Cox-identified, high- and low-risk patients were well separated with the median of the fat-omics risk, while high-risk group having HR 2.4 times that of the low-risk group (P<0.001). Conclusion: Preliminary findings indicate an opportunity to use more finely tuned, explainable assessments on EAT for improved cardiovascular risk prediction., Comment: 7 pages, 1 central illustration, 6 figures, 5 tables

Published
2024

4. Pericoronary adipose tissue feature analysis in CT calcium score images with comparison to coronary CTA

Author

Song, Yingnan, Wu, Hao, Lee, Juhwan, Kim, Justin, Hoori, Ammar, Hu, Tao, Zimin, Vladislav, Makhlouf, Mohamed, Al-Kindi, Sadeer, Rajagopalan, Sanjay, Yun, Chun-Ho, Hung, Chung-Lieh, and Wilson, David L.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We investigated the feasibility and advantages of using non-contrast CT calcium score (CTCS) images to assess pericoronary adipose tissue (PCAT) and its association with major adverse cardiovascular events (MACE). PCAT features from coronary CTA (CCTA) have been shown to be associated with cardiovascular risk but are potentially confounded by iodine. If PCAT in CTCS images can be similarly analyzed, it would avoid this issue and enable its inclusion in formal risk assessment from readily available, low-cost CTCS images. To identify coronaries in CTCS images that have subtle visual evidence of vessels, we registered CTCS with paired CCTA images having coronary labels. We developed a novel axial-disk method giving regions for analyzing PCAT features in three main coronary arteries. We analyzed novel hand-crafted and radiomic features using univariate and multivariate logistic regression prediction of MACE and compared results against those from CCTA. Registration accuracy was sufficient to enable the identification of PCAT regions in CTCS images. Motion or beam hardening artifacts were often present in high-contrast CCTA but not CTCS. Mean HU and volume were increased in both CTCS and CCTA for MACE group. There were significant positive correlations between some CTCS and CCTA features, suggesting that similar characteristics were obtained. Using hand-crafted/radiomics from CTCS and CCTA, AUCs were 0.82/0.79 and 0.83/0.77 respectively, while Agatston gave AUC=0.73. Preliminarily, PCAT features can be assessed from three main coronary arteries in non-contrast CTCS images with performance characteristics that are at the very least comparable to CCTA., Comment: 24 pages,10 figures

Published
2024

5. Deep learning segmentation of fibrous cap in intravascular optical coherence tomography images

Author

Lee, Juhwan, Kim, Justin N., Dallan, Luis A. P., Zimin, Vladislav N., Hoori, Ammar, Hassani, Neda S., Makhlouf, Mohamed H. E., Guagliumi, Giulio, Bezerra, Hiram G., and Wilson, David L.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Thin-cap fibroatheroma (TCFA) is a prominent risk factor for plaque rupture. Intravascular optical coherence tomography (IVOCT) enables identification of fibrous cap (FC), measurement of FC thicknesses, and assessment of plaque vulnerability. We developed a fully-automated deep learning method for FC segmentation. This study included 32,531 images across 227 pullbacks from two registries. Images were semi-automatically labeled using our OCTOPUS with expert editing using established guidelines. We employed preprocessing including guidewire shadow detection, lumen segmentation, pixel-shifting, and Gaussian filtering on raw IVOCT (r,theta) images. Data were augmented in a natural way by changing theta in spiral acquisitions and by changing intensity and noise values. We used a modified SegResNet and comparison networks to segment FCs. We employed transfer learning from our existing much larger, fully-labeled calcification IVOCT dataset to reduce deep-learning training. Overall, our method consistently delivered better FC segmentation results (Dice: 0.837+/-0.012) than other deep-learning methods. Transfer learning reduced training time by 84% and reduced the need for more training samples. Our method showed a high level of generalizability, evidenced by highly-consistent segmentations across five-fold cross-validation (sensitivity: 85.0+/-0.3%, Dice: 0.846+/-0.011) and the held-out test (sensitivity: 84.9%, Dice: 0.816) sets. In addition, we found excellent agreement of FC thickness with ground truth (2.95+/-20.73 um), giving clinically insignificant bias. There was excellent reproducibility in pre- and post-stenting pullbacks (average FC angle: 200.9+/-128.0 deg / 202.0+/-121.1 deg). Our method will be useful for multiple research purposes and potentially for planning stent deployments that avoid placing a stent edge over an FC., Comment: 24 pages, 9 figures, 2 tables, 2 supplementary figures, 3 supplementary tables

Published
2023

6. Cardiac CT perfusion imaging of pericoronary adipose tissue (PCAT) highlights potential confounds in coronary CTA

Author

Wu, Hao, Song, Yingnan, Hoori, Ammar, Subramaniam, Ananya, Lee, Juhwan, Kim, Justin, Hu, Tao, Al-Kindi, Sadeer, Huang, Wei-Ming, Yun, Chun-Ho, Hung, Chung-Lieh, Rajagopalan, Sanjay, and Wilson, David L.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Features of pericoronary adipose tissue (PCAT) assessed from coronary computed tomography angiography (CCTA) are associated with inflammation and cardiovascular risk. As PCAT is vascularly connected with coronary vasculature, the presence of iodine is a potential confounding factor on PCAT HU and textures that has not been adequately investigated. Use dynamic cardiac CT perfusion (CCTP) to inform contrast determinants of PCAT assessment. From CCTP, we analyzed HU dynamics of territory-specific PCAT, myocardium, and other adipose depots in patients with coronary artery disease. HU, blood flow, and radiomics were assessed over time. Changes from peak aorta time, Pa, chosen to model the time of CCTA, were obtained. HU in PCAT increased more than in other adipose depots. The estimated blood flow in PCAT was ~23% of that in the contiguous myocardium. Comparing PCAT distal and proximal to a significant stenosis, we found less enhancement and longer time-to-peak distally. Two-second offsets [before, after] Pa resulted in [ 4-HU, 3-HU] differences in PCAT. Due to changes in HU, the apparent PCAT volume reduced ~15% from the first scan (P1) to Pa using a conventional fat window. Comparing radiomic features over time, 78% of features changed >10% relative to P1. CCTP elucidates blood flow in PCAT and enables analysis of PCAT features over time. PCAT assessments (HU, apparent volume, and radiomics) are sensitive to acquisition timing and the presence of obstructive stenosis, which may confound the interpretation of PCAT in CCTA images. Data normalization may be in order., Comment: 13 pages, 8 figures

Published
2023

10. Exploring User Perspectives on ChatGPT: Applications, Perceptions, and Implications for AI-Integrated Education

Author

Mogavi, Reza Hadi, Deng, Chao, Kim, Justin Juho, Zhou, Pengyuan, Kwon, Young D., Metwally, Ahmed Hosny Saleh, Tlili, Ahmed, Bassanelli, Simone, Bucchiarone, Antonio, Gujar, Sujit, Nacke, Lennart E., and Hui, Pan

Subjects
Computer Science - Computers and Society, Computer Science - Human-Computer Interaction
Abstract

Understanding user perspectives on Artificial Intelligence (AI) in education is essential for creating pedagogically effective and ethically responsible AI-integrated learning environments. In this paper, we conduct an extensive qualitative content analysis of four major social media platforms (Twitter, Reddit, YouTube, and LinkedIn) to explore the user experience (UX) and perspectives of early adopters toward ChatGPT-an AI Chatbot technology-in various education sectors. We investigate the primary applications of ChatGPT in education (RQ1) and the various perceptions of the technology (RQ2). Our findings indicate that ChatGPT is most popularly used in the contexts of higher education (24.18%), K-12 education (22.09%), and practical-skills learning (15.28%). On social media platforms, the most frequently discussed topics about ChatGPT are productivity, efficiency, and ethics. While some early adopters lean toward seeing ChatGPT as a revolutionary technology with the potential to boost students' self-efficacy and motivation to learn, others express concern that overreliance on the AI system may promote superficial learning habits and erode students' social and critical thinking skills. Our study contributes to the broader discourse on Human-AI Interaction and offers recommendations based on crowd-sourced knowledge for educators and learners interested in incorporating ChatGPT into their educational settings. Furthermore, we propose a research agenda for future studies that sets the foundation for continued investigation into the application of ChatGPT in education., Comment: Preprint version

Published
2023

11. Allying nanophotonic structures with two-dimensional van der Waals materials

Author

Meng, Yuan, Zhong, Hongkun, Xu, Zhihao, He, Tiantian, Kim, Justin S., Han, Sangmoon, Shen, Yijie, Gong, Mali, Bae, Sang-Hoon, and Xiao, Qirong

Subjects
Physics - Optics
Abstract

The integration of two-dimensional (2D) materials with photonic structures has catalyzed a wide spectrum of optical and optoelectronic applications. Conventional nanophotonic structures generally lack efficient reconfigurability and multifunctionality. The atomically thin 2D van der Waals materials can thus infuse new functionality and reconfigurability to the well-established library of photonic structures such as integrated waveguides, optical fibers, photonic crystals, micro-cavities, and metasurface, to name a few. Thanks to the handiness of van der Waals interfaces, the 2D materials can be easily transferred and mixed with other prefabricated photonic templates with high degrees of freedom, and can act as the optical gain, modulation, sensing, or plasmonic media for diverse applications. Here we review recent advents on combining 2D materials to nanophotonic structures for new functionality development or performance enhancements. Challenges and emerging opportunities in integrating van der Waals building blocks beyond 2D materials are also discussed., Comment: 23 pages

Published
2023

12. Temperature Profile Measurement From Radiofrequency Nasal Airway Reshaping Device

Author

Abello, Eric H, Nguyen, Theodore V, Dilley, Katelyn K, Hong, Donggyoon, Kim, Justin S, Nair, Pranav S, Bitner, Benjamin F, Jia, Wangcun, and Wong, Brian JF

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Bioengineering, Arrhenius integral, computational modeling, finite element model, nasal airway obstruction, nasal valve collapse, NOSE, RF treatment, Otorhinolaryngology, Clinical sciences
Abstract

ObjectiveNasal airway obstruction (NAO) is caused by various disorders including nasal valve collapse (NVC). A bipolar radiofrequency (RF) device (VivAer®, Aerin Medical, Sunnyvale, CA) has been used to treat NAO through RF heat generation to the upper lateral cartilage (ULC). The purpose of this study is to measure temperature elevations in nasal tissue, using infrared (IR) radiometry to map the spatial and temporal evolution of temperature.Study designExperimental and computational.MethodsComposite porcine nasal septum was harvested and sectioned (1 mm and 2 mm). The device was used to heat the cartilage in composite porcine septum. An IR camera (FLIR® ExaminIR, Teledyne, Wilsonville, OR) was used to image temperature on the back surface of the specimen. These data were incorporated into a heat transfer finite element model that also calculated tissue damage using Arrhenius rate process.ResultsIR temperature imaging showed peak back surface temperatures of 49.57°C and 42.21°C in 1 and 2 mm thick septums respectively. Temperature maps were generated demonstrating the temporal and spatial evolution of temperature. A finite element model generated temperature profiles with respect to time and depth. Rate process models using Arrhenius coefficients showed 30% chondrocyte death at 1 mm depth after 18 s of RF treatment.ConclusionThe use of this device creates a thermal profile that may result in thermal injury to cartilage. Computational modeling suggests chondrocyte death extending as deep as 1.4 mm below the treatment surface. Further studies should be performed to improve dosimetry and optimize the heating process to reduce potential injury. Laryngoscope, 2023.

Published
2023

13. Long-Term Gamification: A Survey

Author

Huang, Lei, Deng, Chao, Hoffman, Jennifer, Hadi Mogavi, Reza, Kim, Justin Juho, Hui, Pan, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, van Leeuwen, Jan, Series Editor, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Kobsa, Alfred, Series Editor, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Nierstrasz, Oscar, Series Editor, Pandu Rangan, C., Editorial Board Member, Sudan, Madhu, Series Editor, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Vardi, Moshe Y, Series Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, and Fang, Xiaowen, editor

Published
2024
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14. Automated segmentation of microvessels in intravascular OCT images using deep learning

Author

Lee, Juhwan, Kim, Justin N., Gomez-Perez, Lia, Gharaibeh, Yazan, Motairek, Issam, Pereira, Ga-briel T. R., Zimin, Vladislav N., Dallan, Luis A. P., Hoori, Ammar, Al-Kindi, Sadeer, Guagliumi, Giulio, Bezerra, Hiram G., and Wilson, David L.

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

To analyze this characteristic of vulnerability, we developed an automated deep learning method for detecting microvessels in intravascular optical coherence tomography (IVOCT) images. A total of 8,403 IVOCT image frames from 85 lesions and 37 normal segments were analyzed. Manual annotation was done using a dedicated software (OCTOPUS) previously developed by our group. Data augmentation in the polar (r,{\theta}) domain was applied to raw IVOCT images to ensure that microvessels appear at all possible angles. Pre-processing methods included guidewire/shadow detection, lumen segmentation, pixel shifting, and noise reduction. DeepLab v3+ was used to segment microvessel candidates. A bounding box on each candidate was classified as either microvessel or non-microvessel using a shallow convolutional neural network. For better classification, we used data augmentation (i.e., angle rotation) on bounding boxes with a microvessel during network training. Data augmentation and pre-processing steps improved microvessel segmentation performance significantly, yielding a method with Dice of 0.71+/-0.10 and pixel-wise sensitivity/specificity of 87.7+/-6.6%/99.8+/-0.1%. The network for classifying microvessels from candidates performed exceptionally well, with sensitivity of 99.5+/-0.3%, specificity of 98.8+/-1.0%, and accuracy of 99.1+/-0.5%. The classification step eliminated the majority of residual false positives, and the Dice coefficient increased from 0.71 to 0.73. In addition, our method produced 698 image frames with microvessels present, compared to 730 from manual analysis, representing a 4.4% difference. When compared to the manual method, the automated method improved microvessel continuity, implying improved segmentation performance. The method will be useful for research purposes as well as potential future treatment planning., Comment: 21 pages, 9 figures, 3 tables

Published
2022

15. Monolithic 3D integration of 2D materials-based electronics towards ultimate edge computing solutions

Author

Kang, Ji-Hoon, Shin, Heechang, Kim, Ki Seok, Song, Min-Kyu, Lee, Doyoon, Meng, Yuan, Choi, Chanyeol, Suh, Jun Min, Kim, Beom Jin, Kim, Hyunseok, Hoang, Anh Tuan, Park, Bo-In, Zhou, Guanyu, Sundaram, Suresh, Vuong, Phuong, Shin, Jiho, Choe, Jinyeong, Xu, Zhihao, Younas, Rehan, Kim, Justin S., Han, Sangmoon, Lee, Sangho, Kim, Sun Ok, Kang, Beomseok, Seo, Seungju, Ahn, Hyojung, Seo, Seunghwan, Reidy, Kate, Park, Eugene, Mun, Sungchul, Park, Min-Chul, Lee, Suyoun, Kim, Hyung-Jun, Kum, Hyun S., Lin, Peng, Hinkle, Christopher, Ougazzaden, Abdallah, Ahn, Jong-Hyun, Kim, Jeehwan, and Bae, Sang-Hoon

Published
2023
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16. Using an on-site laboratory for fecal steroid analysis in wild white-faced capuchins

Author

Beehner, Jacinta C, Alfaro, José, Allen, Cloe, Benítez, Marcela E, Bergman, Thore J, Buehler, Margaret S, Carrera, Sofia C, Chester, Emily M, Deschner, Tobias, Fuentes, Alexander, Gault, Colleen M, Godoy, Irene, Jack, Katharine M, Kim, Justin D, Kolinski, Lev, Kulick, Nelle K, Losch, Teera, Ordoñez, Juan Carlos, Perry, Susan E, Pinto, Fernando, Reilly, Olivia T, Johnson, Elizabeth Tinsley, and Wasserman, Michael D

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Animals, Cebus capucinus, Laboratories, Cebus, Feces, Testosterone, Costa Rica, Androgens, Cortisol, Estradiol, Estrogens, Field laboratory, Glucocorticoids, Progesterone, Progestogens, Validation, Physiology, Zoology, Veterinary Sciences, Endocrinology & Metabolism, Clinical sciences
Abstract

Hormone laboratories located "on-site" where field studies are being conducted have a number of advantages. On-site laboratories allow hormone analyses to proceed in near-real-time, minimize logistics of sample permits/shipping, contribute to in-country capacity-building, and (our focus here) facilitate cross-site collaboration through shared methods and a shared laboratory. Here we provide proof-of-concept that an on-site hormone laboratory (the Taboga Field Laboratory, located in the Taboga Forest Reserve, Costa Rica) can successfully run endocrine analyses in a remote location. Using fecal samples from wild white-faced capuchins (Cebus imitator) from three Costa Rican forests, we validate the extraction and analysis of four steroid hormones (glucocorticoids, testosterone, estradiol, progesterone) across six assays (DetectX® and ISWE, all from Arbor Assays). Additionally, as the first collaboration across three long-term, wild capuchin field sites (Lomas Barbudal, Santa Rosa, Taboga) involving local Costa Rican collaborators, this laboratory can serve as a future hub for collaborative exchange.

Published
2022

17. Prediction of stent under-expansion in calcified coronary arteries using machine-learning on intravascular optical coherence tomography

Author

Gharaibeh, Yazan, Lee, Juhwan, Zimin, Vladislav N., Kolluru, Chaitanya, Dallan, Luis A. P., Pereira, Gabriel T. R., Vergara-Martel, Armando, Kim, Justin N., Hoori, Ammar, Dong, Pengfei, Gamage, Peshala T., Gu, Linxia, Bezerra, Hiram G., Al-Kindi, Sadeer, and Wilson, David L.

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

BACKGROUND Careful evaluation of the risk of stent under-expansions before the intervention will aid treatment planning, including the application of a pre-stent plaque modification strategy. OBJECTIVES It remains challenging to achieve a proper stent expansion in the presence of severely calcified coronary lesions. Building on our work in deep learning segmentation, we created an automated machine learning approach that uses lesion attributes to predict stent under-expansion from pre-stent images, suggesting the need for plaque modification. METHODS Pre- and post-stent intravascular optical coherence tomography image data were obtained from 110 coronary lesions. Lumen and calcifications in pre-stent images were segmented using deep learning, and numerous features per lesion were extracted. We analyzed stent expansion along the lesion, enabling frame, segmental, and whole-lesion analyses. We trained regression models to predict the poststent lumen area and then to compute the stent expansion index (SEI). Stents with an SEI < or >/= 80% were classified as "under-expanded" and "well-expanded," respectively. RESULTS Best performance (root-mean-square-error = 0.04+/-0.02 mm2, r = 0.94+/-0.04, p < 0.0001) was achieved when we used features from both the lumen and calcification to train a Gaussian regression model for a segmental analysis over a segment length of 31 frames. Under-expansion classification results (AUC=0.85+/-0.02) were significantly improved over other approaches. CONCLUSIONS We used calcifications and lumen features to identify lesions at risk of stent under-expansion. Results suggest that the use of pre-stent images can inform physicians of the need to apply plaque modification approaches., Comment: 25 pages, 7 figures, 1 table, 6 supplemental figures, 3 supplemental tables

Published
2022

18. OCTOPUS -- optical coherence tomography plaque and stent analysis software

Author

Lee, Juhwan, Kim, Justin N., Gharaibeh, Yazan, Zimin, Vladislav N., Dallan, Luis A. P., Pereira, Gabriel T. R., Vergara-Martel, Armando, Kolluru, Chaitanya, Hoori, Ammar, Bezerra, Hiram G., and Wilson, David L.

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

Compared with other imaging modalities, intravascular optical coherence tomography (IVOCT) has significant advantages for guiding percutaneous coronary interventions. To aid IVOCT research studies, we developed the Optical Coherence TOmography PlaqUe and Stent (OCTOPUS) analysis software. To automate image analysis results, the software includes several important algorithmic steps: pre-processing, deep learning plaque segmentation, machine learning identification of stent struts, and registration of pullbacks. Interactive visualization and manual editing of segmentations were included in the software. Quantifications include stent deployment characteristics (e.g., stent strut malapposition), strut level analysis, calcium angle, and calcium thickness measurements. Interactive visualizations include (x,y) anatomical, en face, and longitudinal views with optional overlays. Underlying plaque segmentation algorithm yielded excellent pixel-wise results (86.2% sensitivity and 0.781 F1 score). Using OCTOPUS on 34 new pullbacks, we determined that following automated segmentation, only 13% and 23% of frames needed any manual touch up for detailed lumen and calcification labeling, respectively. Only up to 3.8% of plaque pixels were modified, leading to an average editing time of only 7.5 seconds/frame, an approximately 80% reduction compared to manual analysis. Regarding stent analysis, sensitivity and precision were both greater than 90%, and each strut was successfully classified as either covered or uncovered with high sensitivity (94%) and specificity (90%). We introduced and evaluated the clinical application of a highly automated software package, OCTOPUS, for quantitative plaque and stent analysis in IVOCT images. The software is currently used as an offline tool for research purposes; however, the software's embedded algorithms may also be useful for real-time treatment planning., Comment: 16 pages, 8 figures

Published
2022

19. Automated analysis of fibrous cap in intravascular optical coherence tomography images of coronary arteries

Author

Lee, Juhwan, Pereira, Gabriel T. R., Gharaibeh, Yazan, Kolluru, Chaitanya, Zimin, Vladislav N., Dallan, Luis A. P., Kim, Justin N., Hoori, Ammar, Al-Kindi, Sadeer G., Guagliumi, Giulio, Bezerra, Hiram G., and Wilson, David L.

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

Thin-cap fibroatheroma (TCFA) and plaque rupture have been recognized as the most frequent risk factor for thrombosis and acute coronary syndrome. Intravascular optical coherence tomography (IVOCT) can identify TCFA and assess cap thickness, which provides an opportunity to assess plaque vulnerability. We developed an automated method that can detect lipidous plaque and assess fibrous cap thickness in IVOCT images. This study analyzed a total of 4,360 IVOCT image frames of 77 lesions among 41 patients. To improve segmentation performance, preprocessing included lumen segmentation, pixel-shifting, and noise filtering on the raw polar (r, theta) IVOCT images. We used the DeepLab-v3 plus deep learning model to classify lipidous plaque pixels. After lipid detection, we automatically detected the outer border of the fibrous cap using a special dynamic programming algorithm and assessed the cap thickness. Our method provided excellent discriminability of lipid plaque with a sensitivity of 85.8% and A-line Dice coefficient of 0.837. By comparing lipid angle measurements between two analysts following editing of our automated software, we found good agreement by Bland-Altman analysis (difference 6.7+/-17 degree; mean 196 degree). Our method accurately detected the fibrous cap from the detected lipid plaque. Automated analysis required a significant modification for only 5.5% frames. Furthermore, our method showed a good agreement of fibrous cap thickness between two analysts with Bland-Altman analysis (4.2+/-14.6 micron; mean 175 micron), indicating little bias between users and good reproducibility of the measurement. We developed a fully automated method for fibrous cap quantification in IVOCT images, resulting in good agreement with determinations by analysts. The method has great potential to enable highly automated, repeatable, and comprehensive evaluations of TCFAs., Comment: 18 pages, 9 figures

Published
2022

29. Consequences of the packing problem

Author

Bodas, Hrishikesh, Drabkin, Benjamin, Fong, Caleb, Jin, Su, Kim, Justin, Li, Wenxuan, Seceleanu, Alexandra, Tang, Tingting, and Williams, Brendan

Subjects
Mathematics - Commutative Algebra, Mathematics - Combinatorics, 13C70, 13F55, 05E40, 05C65, 05C15
Abstract

We study several consequences of the packing problem, a conjecture from combinatorial optimization, using algebraic invariants of square-free monomial ideals. While the packing problem is currently unresolved, we successfully settle the validity of its consequences. Our work prompts additional questions and conjectures, which are presented together with their motivation., Comment: Final version - Journal of Algebraic Combinatorics

Published
2021
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34. Non-epitaxial single-crystal 2D material growth by geometric confinement

Author

Kim, Ki Seok, Lee, Doyoon, Chang, Celesta S., Seo, Seunghwan, Hu, Yaoqiao, Cha, Soonyoung, Kim, Hyunseok, Shin, Jiho, Lee, Ju-Hee, Lee, Sangho, Kim, Justin S., Kim, Ki Hyun, Suh, Jun Min, Meng, Yuan, Park, Bo-In, Lee, Jung-Hoon, Park, Hyung-Sang, Kum, Hyun S., Jo, Moon-Ho, Yeom, Geun Young, Cho, Kyeongjae, Park, Jin-Hong, Bae, Sang-Hoon, and Kim, Jeehwan

Published
2023
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35. Vertical full-colour micro-LEDs via 2D materials-based layer transfer

Author

Shin, Jiho, Kim, Hyunseok, Sundaram, Suresh, Jeong, Junseok, Park, Bo-In, Chang, Celesta S., Choi, Joonghoon, Kim, Taemin, Saravanapavanantham, Mayuran, Lu, Kuangye, Kim, Sungkyu, Suh, Jun Min, Kim, Ki Seok, Song, Min-Kyu, Liu, Yunpeng, Qiao, Kuan, Kim, Jae Hwan, Kim, Yeongin, Kang, Ji-Hoon, Kim, Jekyung, Lee, Doeon, Lee, Jaeyong, Kim, Justin S., Lee, Han Eol, Yeon, Hanwool, Kum, Hyun S., Bae, Sang-Hoon, Bulovic, Vladimir, Yu, Ki Jun, Lee, Kyusang, Chung, Kwanghun, Hong, Young Joon, Ougazzaden, Abdallah, and Kim, Jeehwan

Published
2023
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37. Explicit Krein Resolvent Identities for Singular Sturm-Liouville Operators with Applications to Bessel Operators

Author

Allan, S. Blake, Kim, Justin Hanbin, Michajlyszyn, Gregory, Nichols, Roger, and Rung, Don

Subjects
Mathematics - Spectral Theory, Primary 47A10, 47A55, Secondary 47A56, 47B10
Abstract

We derive explicit Krein resolvent identities for generally singular Sturm-Liouville operators in terms of boundary condition bases and the Lagrange bracket. As an application of the resolvent identities obtained, we compute the trace of the resolvent difference of a pair of self-adjoint realizations of the Bessel expression $-d^2/dx^2+(\nu^2-(1/4))x^{-2}$ on $(0,\infty)$ for values of the parameter $\nu\in[0,1)$ and use the resulting trace formula to explicitly determine the spectral shift function for the pair., Comment: 50 pages

Published
2019

40. Structure and Function of NzeB, a Versatile C–C and C–N Bond-Forming Diketopiperazine Dimerase

Author

Shende, Vikram V, Khatri, Yogan, Newmister, Sean A, Sanders, Jacob N, Lindovska, Petra, Yu, Fengan, Doyon, Tyler J, Kim, Justin, Houk, KN, Movassaghi, Mohammad, and Sherman, David H

Subjects
Organic Chemistry, Chemical Sciences, Bioengineering, Generic health relevance, Alkaloids, Amination, Biocatalysis, Biological Products, Carbon, Cytochrome P-450 Enzyme System, Diketopiperazines, Dimerization, Models, Molecular, Molecular Conformation, Mutagenesis, Site-Directed, Nitrogen, Streptomyces, Substrate Specificity, General Chemistry, Chemical sciences, Engineering
Abstract

The dimeric diketopiperazine (DKPs) alkaloids are a diverse family of natural products (NPs) whose unique structural architectures and biological activities have inspired the development of new synthetic methodologies to access these molecules. However, catalyst-controlled methods that enable the selective formation of constitutional and stereoisomeric dimers from a single monomer are lacking. To resolve this long-standing synthetic challenge, we sought to characterize the biosynthetic enzymes that assemble these NPs for application in biocatalytic syntheses. Genome mining enabled identification of the cytochrome P450, NzeB (Streptomyces sp. NRRL F-5053), which catalyzes both intermolecular carbon-carbon (C-C) and carbon-nitrogen (C-N) bond formation. To identify the molecular basis for the flexible site-selectivity, stereoselectivity, and chemoselectivity of NzeB, we obtained high-resolution crystal structures (1.5 Å) of the protein in complex with native and non-native substrates. This, to our knowledge, represents the first crystal structure of an oxidase catalyzing direct, intermolecular C-H amination. Site-directed mutagenesis was utilized to assess the role individual active-site residues play in guiding selective DKP dimerization. Finally, computational approaches were employed to evaluate plausible mechanisms regarding NzeB function and its ability to catalyze both C-C and C-N bond formation. These results provide a structural and computational rationale for the catalytic versatility of NzeB, as well as new insights into variables that control selectivity of CYP450 diketopiperazine dimerases.

Published
2020

41. Augmented Intelligence: Enhancing Human Decision Making

Author

Kim, Justin, Davis, Taylor, Hong, Lingzi, Spector, J. Michael, Series Editor, Bishop, M.J., Series Editor, Ifenthaler, Dirk, Series Editor, Yuen, Allan, Series Editor, Albert, Mark V., editor, Lin, Lin, editor, Spector, Michael J., editor, and Dunn, Lemoyne S., editor

Published
2022
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43. Unfermented β-fructan Fibers Fuel Inflammation in Select Inflammatory Bowel Disease Patients

Author

Armstrong, Heather K., Bording-Jorgensen, Michael, Santer, Deanna M., Zhang, Zhengxiao, Valcheva, Rosica, Rieger, Aja M., Sung-Ho Kim, Justin, Dijk, Stephanie I., Mahmood, Ramsha, Ogungbola, Olamide, Jovel, Juan, Moreau, France, Gorman, Hayley, Dickner, Robyn, Jerasi, Jeremy, Mander, Inderdeep K., Lafleur, Dawson, Cheng, Christopher, Petrova, Alexandra, Jeanson, Terri-Lyn, Mason, Andrew, Sergi, Consolato M., Levine, Arie, Chadee, Kris, Armstrong, David, Rauscher, Sarah, Bernstein, Charles N., Carroll, Matthew W., Huynh, Hien Q., Walter, Jens, Madsen, Karen L., Dieleman, Levinus A., and Wine, Eytan

Published
2023
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45. Impaired humoral immunity is associated with prolonged COVID-19 despite robust CD8 T cell responses

Author

Lyudovyk, Olga, Kim, Justin Y., Qualls, David, Hwee, Madeline A., Lin, Ya-Hui, Boutemine, Sawsan R., Elhanati, Yuval, Solovyov, Alexander, Douglas, Melanie, Chen, Eunise, Babady, N. Esther, Ramanathan, Lakshmi, Vedantam, Pallavi, Bandlamudi, Chaitanya, Gouma, Sigrid, Wong, Philip, Hensley, Scott E., Greenbaum, Benjamin, Huang, Alexander C., and Vardhana, Santosha A.

Published
2022
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