Search

Your search keyword '"Woochan Lee"' showing total 62 results
Start Over Author "Woochan Lee" Database OpenAIRE
62 results on '"Woochan Lee"'

1. Triple-Negative Breast Cancer-Derived Extracellular Vesicles Promote a Hepatic Pre-metastatic Niche via a Cascade of Microenvironment Remodeling

Author

Woohang Heo, Woochan Lee, Jong Ho Cheun, Eun-Shin Lee, Songbin Li, Hoe suk Kim, Hye-Youn Son, Ju Hee Kim, Yeon Duk Woo, Doo Hyun Chung, Jihui Yun, Ji Gwang Jung, Han-Byoel Lee, Wonshik Han, Hong-Kyu Kim, Jong-Il Kim, and Hyeong-Gon Moon

Subjects
Cancer Research, Oncology, Molecular Biology
Abstract

Patients with triple-negative breast cancer (TNBC) often develop metastases in visceral organs including the liver, but the detailed molecular mechanisms of TNBC liver metastasis is not clearly understood. In this study, we tried to dissect the process of pre-metastatic niche formation in the liver by using patient-derived xenograft (PDX) models of TNBC with different metastatic propensity. RNA sequencing of TNBC PDX models that successfully metastasized to liver showed upregulation of the Cx3cr1 gene in the liver microenvironment. In syngeneic breast cancer models, the Cx3cr1 upregulation in liver preceded the development of cancer cell metastasis and was the result of recruitment of CX3CR1-expressing macrophages. The recruitment was induced by the CX3CL1 production from the liver endothelial cells and this CX3CL1–CX3CR1 signaling in the pre-metastatic niche resulted in upregulation of MMP9 that promoted macrophage migration and cancer cell invasion. In addition, our data suggest that the extracellular vesicles derived from the breast cancer cells induced the TNFα expression in liver, which leads to the CX3CL1 upregulation. Lastly, the plasma CX3CL1 levels in 155 patients with breast cancer were significantly associated with development of liver metastasis. Implications: Our data provides previously unknown cascades regarding the molecular education of pre-metastatic niche in liver for TNBC.

Published
2023

2. Abstract P2-21-06: The relationship between the gene expression difference of fibroblasts in the tumor microenvironment and metastasis of triple-negative breast cancer

Author

Woo Hang Heo, Woochan Lee, SONGBIN LI, Jong-Il Kim, and Hyeong-Gon Moon

Subjects
Cancer Research, Oncology
Abstract

Background Triple negative breast cancer (TNBC) is a breast cancer subtype with increased risk of distant metastasis, especially to lung and liver. In addition to the intrinsic characteristics of tumor cells, the molecular features of the tumor microenvironment cells can also regulate the metastasis process of TNBC. In this study, we tried to characterize the transcriptomic features of microenvironment fibroblasts associated with the distant metastasis of TNBC. Method We established PDX models by obtaining tumor tissues from 26 triple-negative breast cancer patients and transplanting them into the mammary fat pads of immunodeficient mice. When the PDX tumors grew sufficiently in the fat pads, we excised them and saved the mice to assess whether each PDX tumor was capable of developing spontaneous distant metastasis. We used bulk RNA sequencing and single cell RNA sequencing to determine the transcriptomic features associated with the distant metastasis. Results We classified the 26 TNBC PDX models based on their in vivo metastasis capacity and the clinical outcomes of the corresponding patients. Non-metastatic PDX models were defined as the lack of developing distant metastasis in either mouse experiment or clinical follow-up data (n=5). PDX models were defined as metastatic models when they developed distant metastasis in both mouse and human (n=4). We performed single cell RNA sequencing using the nine PDX tumors and observed a substantial gene expression differences of fibroblasts in the tumor microenvironment between the metastatic and non-metastatic PDX models. The fibroblasts of the metastatic PDX models showed up-regulation of genes involved in the response to hypoxia, inflammatory response, neutrophil chemotaxis, cellular response to IL-1, positive regulation of cell proliferation, and negative regulation of apoptotic process. Moreover, this difference of gene expression between metastatic and non-metastatic TNBC PDX models were not identified by the bulk RNA sequencing data. Conclusion By using the single cell RNA sequencing using the TNBC PDX models, we identified key features of fibroblasts in the tumor microenvironment that contributes to the metastasis capacity of TNBC. Further studies are on-going to elucidate the underlying mechanisms. Citation Format: Woo Hang Heo, Woochan Lee, SONGBIN LI, Jong-Il Kim, Hyeong-Gon Moon. The relationship between the gene expression difference of fibroblasts in the tumor microenvironment and metastasis of triple-negative breast cancer [abstract]. In: Proceedings of the 2022 San Antonio Breast Cancer Symposium; 2022 Dec 6-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2023;83(5 Suppl):Abstract nr P2-21-06.

Published
2023

6. An integrative approach for exploring the nature of fibroepithelial neoplasms

Author

Jihui Yun, Woohang Heo, Eun-Shin Lee, Deukchae Na, Wonyoung Kang, Jinjoo Kang, Jeesoo Chae, Dakyung Lee, Woochan Lee, Jinha Hwang, Tae-Kyung Yoo, Bok Sil Hong, Hye-Youn Son, Dong-Young Noh, Charles Lee, Hyeong-Gon Moon, and Jong-Il Kim

Subjects
Cancer Research, Oncology
Abstract

Background Malignant phyllodes tumour (MPT) is a rare breast malignancy with epithelial and mesenchymal features. Currently, there are no appropriate research models or effective targeted therapeutic approaches for MPT. Methods We collected fresh frozen tissues from nine patients with MPT and performed whole-exome and RNA sequencing. Additionally, we established patient-derived xenograft (PDX) models from patients with MPT and tested the efficacy of targeting dysregulated pathways in MPT using the PDX model from one MPT. Results MPT has unique molecular characteristics when compared to breast cancers of epithelial origin and can be classified into two groups. The PDX model derived from one patient with MPT showed that the mouse epithelial component increased during tumour growth. Moreover, targeted inhibition of platelet-derived growth factor receptor (PDGFR) and phosphoinositide 3-kinase (PI3K)/mammalian target of rapamycin (mTOR) by imatinib mesylate and PKI-587 showed in vivo tumour suppression effects. Conclusions This study revealed the molecular profiles of MPT that can lead to molecular classification and potential targeted therapy, and suggested that the MPT PDX model can be a useful tool for studying the pathogenesis of fibroepithelial neoplasms and for preclinical drug screening to find new therapeutic strategies for MPT.

Published
2022

8. Supplementary Tables and Figures from Triple-Negative Breast Cancer-Derived Extracellular Vesicles Promote a Hepatic Pre-metastatic Niche via a Cascade of Microenvironment Remodeling

Author

Hyeong-Gon Moon, Jong-Il Kim, Hong-Kyu Kim, Wonshik Han, Han-Byoel Lee, Ji Gwang Jung, Jihui Yun, Doo Hyun Chung, Yeon Duk Woo, Ju Hee Kim, Hye-Youn Son, Hoe suk Kim, Songbin Li, Eun-Shin Lee, Jong Ho Cheun, Woochan Lee, and Woohang Heo

Abstract

Supplementary Table 1. Information about patients derived xenograft models and derived patient. Supplementary Table 2. Ontology of differentially expressed genes in metastasis-harboring liver of PDX models. Supplementary Table 3. Differentially expressed genes in liver and lung of metastasis-harboring PDX models. Supplementary Table 4. Human ratio in lung and liver of additional PDX models identified by RNA sequencing. Supplementary Table 5. Gene ontology of co-expressed genes with Cx3cr1 in liver of PDX models identified by RNA sequencing. Supplementary Table 6. Top ranked genes having significant correlation with Cx3cr1 in liver of PDX models identified by RNA sequencing. Supplementary Table 7. Demographic and clinical characteristics of all patients. Supplementary Table 8. Information about used primer sequences for quantitative real-time PCR Supplementary Figure 1. Liver and lung H&E staining pictures of eight nonmetastatic PDX models a. Microscopic images of non-metastasis harboring PDX mouse model's liver (left) and lung (right) taken at 400x magnification. Supplementary Figure 2. Immunohistochemistry about CX3CR1 in liver and lung of breast cancer metastasis patients. Supplementary Figure 3. Hepatic metastasis after four weeks after orthotopic injection of 4T1 breast cancer cells identified by H&E staining. Supplementary Figure 4. Identification of pre-metastatic niche in liver tissues of 4T1 bearing mice a. mRNA expression of inflammation associated genes identified by real-time PCR in liver tissues of 4T1 bearing mice. Supplementary Figure 5. Identification of CX3CR1 positive cell population. Supplementary Figure 6. FACS analysis with anti-CX3CR1 of Raw264.7 macrophage cell lines. Supplementary Figure 7. Trans-well migration assay of BMDM with or without CX3CL1. Supplementary Figure 8. Mmp9 mRNA expression having significant correlation with Cx3cr1 mRNA expression in liver of PDX models. Supplementary Figure 9. MMP9 expression of macrophages with CX3CL1 treatment. Supplementary Figure 10. Signaling pathway of CX3CL1 treated macrophages. Supplementary Figure 11. Splenic injection of 4T1 cells inducing hepatic metastasis within two weeks in most cases. Supplementary Figure 12. mRNA expression about Cx3cr1 and Mmp9 in liver of vehicle or AZD8797 treated BALB/C mice identified by real-time PCR. Supplementary Figure 13. Correlation plot of Tnfa and Cx3cr1 mRNA expression in liver and lung of PDX models. Supplementary Figure 14. EVs isolation of CD63-mRuby-4T1.

Published
2023

9. Toward highly efficient deep-blue OLEDs: tailoring the multiresonance-induced TADF molecules for suppressed excimer formation and near-unity horizontal dipole ratio

Author

Hyung Suk Kim, Hyung Jin Cheon, Donggyun Lee, Woochan Lee, Junho Kim, Yun-Hi Kim, and Seunghyup Yoo

Subjects
Multidisciplinary
Abstract

Boron-based compounds exhibiting a multiresonance thermally activated delayed fluorescence are regarded promising as a narrowband blue emitter desired for efficient displays with wide color gamut. However, their planar nature makes them prone to concentration-induced excimer formation that broadens the emission spectrum, making it hard to increase the emitter concentration without raising CIE y coordinate. To overcome this bottleneck, we here propose o -Tol-ν-DABNA-Me, wherein sterically hindered peripheral phenyl groups are introduced to reduce intermolecular interactions, leading to excimer formation and thus making the pure narrowband emission character far less sensitive to concentration. With this approach, we demonstrate deep-blue OLEDs with y of 0.12 and full width at half maximum of 18 nm, with maximum external quantum efficiency (EQE) of ca. 33%. Adopting a hyperfluorescent architecture, the OLED performance is further enhanced to EQE of 35.4%, with mitigated efficiency roll-off, illustrating the immense potential of the proposed method for energy-efficient deep-blue OLEDs.

Published
2023

11. A single cell atlas of in vitro multi-systems uncovers in vivo lineage trajectory and cell state in the human lung

Author

Jong-Il Kim, Woochan Lee, Seyoon Lee, Jung-Ki Yoon, Dakyung Lee, Yuri Kim, Yeon Bi Han, Rokhyun Kim, Sungji Moon, Young Jun Park, Kyunghyuk Park, Bukyoung Cha, Jaeyong Choi, Juhyun Kim, Na-young Ha, Kwhanmien Kim, Sukki Cho, Nam-Hyuk Cho, Tushar Desai, Jin-Haeng Chung, and Joo-Hyeon Lee

Abstract

We present an in-depth single cell atlas of in vitro multi-culture systems on human primary airway epithelium derived from normal and diseased lungs of 27 individual donors. Our large-scale single cell profiling identifies new cell states and differentiation trajectories of rare airway epithelial cell types in human distal lungs. By integrating single cell datasets of human lung tissues, we discover immune primed subsets enriched in lungs and organoids derived from patients with chronic respiratory disease. To demonstrate the full potential of our platform, we further illustrate transcriptomic responses to various respiratory virus infections in in vitro airway models. Our work constitutes a single-cell roadmap for the cellular and molecular characteristics of human primary lung cells in vitro and their relevance to human tissues in vivo.

Published
2023

12. Gene-level alignment of single cell trajectories informs the progression ofin vitroT cell differentiation

Author

Dinithi Sumanaweera, Chenqu Suo, Ana-Maria Cujba, Daniele Muraro, Emma Dann, Krzysztof Polanski, Alexander S. Steemers, Woochan Lee, Amanda J. Oliver, Jong-Eun Park, Kerstin B. Meyer, Bianca Dumitrascu, and Sarah A. Teichmann

Abstract

Single-cell data analysis can infer dynamic changes in cell populations, for example across time, space or in response to perturbation. To compare these dynamics between two conditions, trajectory alignment via dynamic programming (DP) optimization is frequently used, but is limited by assumptions such as a definite existence of a match. Here we describeGenes2Genes, a Bayesian information-theoretic DP framework for aligning single-cell trajectories.Genes2Genesovercomes current limitations and is able to capture sequential matches and mismatches between a reference and a query at single gene resolution, highlighting distinct clusters of genes with varying patterns of expression dynamics. Across both real world and simulated datasets,Genes2Genesaccurately captured different alignment patterns, demonstrated its utility in disease cell state trajectory analysis, and revealed that T cells differentiatedin vitromatched to an immaturein vivostate while lacking the final TNFa signaling. This use case demonstrates that precise trajectory alignment can pinpoint divergence from thein vivosystem, thus guiding the optimization ofin vitroculture conditions.

Published
2023

14. Heteroleptic Ir(III)-based near-infrared organic light-emitting diodes with high radiance capacity

Author

Yongjin Park, Gyeong Seok Lee, Woochan Lee, Seunghyup Yoo, Yun-Hi Kim, and Kyung-Cheol Choi

Subjects
Multidisciplinary
Abstract

Near-infrared organic light-emitting diodes (NIR OLEDs) with heavy metals are regularly reported due to the advantages of their various applications in healthcare services, veil authentication, and night vision displays. For commercial applications, it is necessary to look at radiance capacity (RC) instead of radiance because of power consumption. However, recent papers still reported only simple high radiance performance and do not look at device from the point of view of RC. To overcome this hurdle, we designed Ir(III)-based heteroleptic NIR materials with two types of auxiliary ligand. The proposed emitters achieve a highly oriented horizontal dipole ratio (Ir(mCPDTiq)2tmd, complex 1: 80%, Ir(mCPDTiq)2acac, complex 2: 81%) with a short radiative lifetime (1: 386 ns, 2: 323 ns). The device also shows an extremely low turn-on voltage (Von) of 2.2 V and a high RC of 720 mW/sr/m2/V. The results on the Von and RC of the device is demonstrated an outstanding performance among the Ir(III)-based NIR OLEDs with a similar emission peak.

Published
2023

15. Organic–Inorganic Hybrid Approach to Pulse Oximetry Sensors with Reliability and Low Power Consumption

Author

Tae Hyun Kim, Woochan Lee, Hyeonwoo Lee, Hyun Woo Lee, Seunghyup Yoo, Sungyeon Kim, Seung-Hee Lee, Marco Vinicio Alban, and Jinouk Song

Subjects
Pulse oximetry, Materials science, medicine.diagnostic_test, Power consumption, Organic inorganic, medicine, Electrical and Electronic Engineering, Hybrid approach, Atomic and Molecular Physics, and Optics, Reliability (statistics), Biotechnology, Electronic, Optical and Magnetic Materials, Reliability engineering
Published
2021

16. Blue TADF Emitters Based on B-Heterotriangulene Acceptors for Highly Efficient OLEDs with Reduced Efficiency Roll-Off

Author

Young Hoon Lee, Donggyun Lee, Seunghyup Yoo, Min Hyung Lee, Taehwan Lee, Jaehoon Jung, and Woochan Lee

Subjects
chemistry.chemical_compound, Materials science, Photoluminescence, Intersystem crossing, chemistry, Excited state, Doping, OLED, General Materials Science, Quantum efficiency, Singlet state, Methylene, Photochemistry
Abstract

The design of robust boron acceptors plays a key role in the development of boron-based thermally activated delayed fluorescence (TADF) emitters for the realization of efficient and stable blue organic light-emitting diodes (OLEDs). Herein, we report a set of donor (D)-acceptor (A)-type blue TADF compounds (1-3) comprising triply bridged triarylboryl acceptors, the so-called B-heterotriangulenes, which differ depending on the identity of one of the bridging groups: methylene (1), dimethylmethylene (2), or oxo (3). The X-ray crystal structures of 2 and 3 reveal a highly twisted D-A connectivity and a completely planar geometry for the B-heterotriangulene rings. All compounds exhibit blue emissions with the unitary photoluminescence quantum yields and small singlet-triplet energy splitting (

Published
2021

17. Nanocrystalline Polymorphic Energy Funnels for Efficient and Stable Perovskite Light-Emitting Diodes

Author

Keon-Woo Park, Dongho Kim, Joo Hong Lee, Nam-Gyu Park, Do-Kyoung Lee, Yunseop Shin, Seunghyup Yoo, Ho Jin Jang, Woochan Lee, Jin-Wook Lee, and Jun Yeob Lee

Subjects
Materials science, Energy Engineering and Power Technology, Halide, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, law.invention, Metal, law, Materials Chemistry, Perovskite (structure), Renewable Energy, Sustainability and the Environment, business.industry, 021001 nanoscience & nanotechnology, Nanocrystalline material, 0104 chemical sciences, Fuel Technology, Nanocrystal, Chemistry (miscellaneous), visual_art, visual_art.visual_art_medium, Optoelectronics, Charge carrier, 0210 nano-technology, Luminescence, business, Light-emitting diode
Abstract

Charge carrier confinement in nanocrystals is an effective route to enhance luminescence efficiency of metal halide perovskites. However, difficulty in handling surface ligands of colloidal perovsk...

Published
2021

18. Vertical sleeve gastrectomy induces distinctive transcriptomic responses in liver, fat and muscle

Author

Jong Il Kim, Eun Hye Choi, Young Min Cho, Chang Ho Ahn, Woochan Lee, and Hyunjung Lee

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, Sleeve gastrectomy, medicine.medical_treatment, Science, Adipose tissue, 030209 endocrinology & metabolism, Inflammation, Biology, Article, Transcriptome, Mice, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Gastrectomy, Glucagon-Like Peptide 1, Diabetes mellitus, Internal medicine, Gene expression, parasitic diseases, medicine, Animals, Insulin, Obesity, Multidisciplinary, Sequence Analysis, RNA, Muscles, Body Weight, Diabetes, Fatty liver, Glucose Tolerance Test, medicine.disease, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, Liver, Medicine, medicine.symptom
Abstract

Vertical sleeve gastrectomy (VSG) is the most commonly performed bariatric/metabolic surgery, exhibiting a high rate of diabetes remission in humans. To elucidate the molecular mechanisms of VSG, we performed transcriptomic analysis of the liver, fat, and muscle in VSG mice. C57BL/6 mice fed a high-fat diet were randomly assigned to sham or VSG surgery. The sham-operated mice were fed ad libitum (sham group) or pair-fed (sham-PF group) matching their food intake to the VSG-operated mice. Comparative transcriptomic analysis of the liver, fat, and muscle using RNA sequencing was performed. VSG reduced body weight and improved glucose tolerance compared to the sham group, but not more than the sham-PF group. Improvement in fatty liver and adipose tissue inflammation was comparable between VSG and sham-PF. However, global gene expression profiles showed distinctive changes in the liver, fat, and muscle of the VSG group compared to both the sham or sham-PF groups. The liver showed the most prominent gene expression changes. Immune response-related pathways were commonly upregulated in the three organs of the VSG group compared to the sham or sham-PF. VSG induces organ-specific gene expression changes in the liver, fat, and muscle, which may play critical roles in metabolic improvements after VSG.

Published
2021

19. Triarylboron-based TADF emitters with perfluoro substituents: high-efficiency OLEDs with a power efficiency over 100 lm W−1

Author

Ajay Kumar, Min Hyung Lee, Jaehoon Jung, Woochan Lee, Seunghyup Yoo, and Taehwan Lee

Subjects
Materials science, Photoluminescence, business.industry, chemistry.chemical_element, General Chemistry, Fluorescence, chemistry, Materials Chemistry, OLED, Optoelectronics, Quantum efficiency, business, Boron, Electrical efficiency, Common emitter, Diode
Abstract

We report boron-based thermally activated delayed fluorescence (TADF) emitters that can lead to high-efficiency organic light-emitting diodes (OLEDs) with high power efficiency and low driving voltage. ortho-Carbazole-appended triarylboron compounds (2–7), in which perfluoroalkyl (CF3 and C3F7) or perfluoroaryl (4-CF3C6F4) groups are attached as secondary acceptors, are prepared and characterized. The compounds exhibit a light greenish to yellow emission in toluene with high photoluminescence quantum yields up to 100%. The twisted donor (D)–acceptor (A) structure, as evidenced by both the X-ray crystal structures and theoretically optimized structures, leads to a small energy splitting (ΔEST < 0.1 eV) between the excited singlet and triplet states, giving rise to strong TADF. High-efficiency TADF-OLEDs are realized with the CF3- and 4-CF3C6F4-substituted compounds as emitters. The optimized OLEDs based on the CF3-substituted emitter (5) show a high external quantum efficiency of 29.9% with a low turn-on voltage of 2.35 V. In particular, the devices achieve an ultrahigh power efficiency (PE) of 123.9 lm W−1 without any light-outcoupling enhancement, which is among the best PE values for the reported TADF-OLEDs. The devices also maintain a high PE at the practical brightness, such as 100 cd m−2 (118.7 lm W−1) and 1000 cd m−2 (82.3 lm W−1).

Published
2020

20. A 2-DOF Impact Actuator for Haptic Application

Author

Jaeyoung Park, Sangyoon Kim, and Woochan Lee

Subjects
Computer Science::Robotics, Control and Optimization, Control and Systems Engineering, Hardware_GENERAL, haptics, impact actuator, magnetic field, 2-DOF, electromagnets
Abstract

The demand for realistic haptic feedback actuators has increased as mobile devices have increased in popularity. However, most current haptic actuators provide limited 1-DOF tactile sensations, such as vibrations. This paper presents a 2-DOF haptic impact actuator that can provide planar directional (e.g., x and y directional) and magnitude tactile cues to a user. We built an impact actuator that was designed to be of such a size that a user can grasp it with one hand. Multiple electromagnets of the actuator drive a permanent magnet to hit the actuator housing, creating an impact. For the control of the impact direction, we assumed the direction of a magnetic field vector at the centre of the actuator would follow that of a reference vector formed by voltage heading into the electromagnet array. The results of magnetic field measurements support our assumption by showing that the trend of the magnetic field vector coincided with that of the reference voltage vector. Furthermore, the measurement of the impact acceleration showed the trend that the impact direction follows the reference voltage vector.

Published
2022
Full Text
View/download PDF

21. Abstract B019: Identify features of fibroblast and macrophage which regulate metastasis of triple-negative breast cancer

Author

Woochan Lee, Hyewon Chung, Woohang Heo, Hyeong-Gon Moon, Seung Hyeok Seok, and Jong-Il Kim

Subjects
Cancer Research, Oncology
Abstract

The tumor microenvironment (TME), which the cancer is known to remodel, can interact with cancer in various ways, such as promoting or hindering metastasis. The challenge with comprehending TME is that each patient's individual variance makes it difficult to carry out a consistent analysis. We used the PDX model to analyze the alterations entirely brought about by cancer cells of each patient in the same environment exclusively. In 121 breast cancer patients, we created a PDX model and performed WES and RNA-seq. We repeatedly performed metastatic induction tests on the models of 26 TNBC patients among the PDX models we generated. The replicated experiments confirmed that cancer cells with frequent metastasis usually spread well, while cancer cells with seldom metastases rarely metastasize. For each of the five samples that had the greatest and worst rates of metastasis, the pre-metastatic xenograft tumor was analyzed using scRNA-seq. Metastasis could not be predicted by only cancer cells because there was no difference between the two groups. Still, fibroblasts and macrophages had distinct gene markers before metastasis which can predict metastasis. To explore TME that develops pre-metastatic niches (PMN) in organs that would be metastasis targets, we developed a metastatic model using 4T1 cell lines. Daily lung macrophage RNA-seq, lung WES, and lung scRNA-seq procedures were carried out for four weeks to examine the precise timing of metastasis and the daily changes in the transcriptome. Surprisingly, a few days before the presence of any cancer cells, the gene expression of lung macrophages had already undergone significant modification. Additionally, only injections of tumor-conditioned media that mimicked metastasis could activate PMN in lung macrophages. Citation Format: Woochan Lee, Hyewon Chung, Woohang Heo, Hyeong-Gon Moon, Seung Hyeok Seok, Jong-Il Kim. Identify features of fibroblast and macrophage which regulate metastasis of triple-negative breast cancer [abstract]. In: Proceedings of the AACR Special Conference: Cancer Metastasis; 2022 Nov 14-17; Portland, OR. Philadelphia (PA): AACR; Cancer Res 2022;83(2 Suppl_2):Abstract nr B019.

Published
2023

24. Blue TADF Emitters Based on

Author

Young Hoon, Lee, Woochan, Lee, Taehwan, Lee, Donggyun, Lee, Jaehoon, Jung, Seunghyup, Yoo, and Min Hyung, Lee

Abstract

The design of robust boron acceptors plays a key role in the development of boron-based thermally activated delayed fluorescence (TADF) emitters for the realization of efficient and stable blue organic light-emitting diodes (OLEDs). Herein, we report a set of donor (D)-acceptor (A)-type blue TADF compounds (

Published
2021

26. Predictive biomarkers for 5-fluorouracil and oxaliplatin-based chemotherapy in gastric cancers via profiling of patient-derived xenografts

Author

Seong Ho Kong, Jinjoo Kang, Jong Il Kim, Hansoo Park, Ahra Lee, Sung Yup Cho, Seock-Ah Im, Woochan Lee, Tae Yong Kim, Wonyoung Kang, Deukchae Na, Min Jung Kim, Jeesoo Chae, Seoyeon Min, Woo Ho Kim, Ahrum Min, Kyung Hun Lee, Dongjin Shin, Han-Kwang Yang, Charles Lee, Yu Jin Kim, Yun Suhk Suh, Hyuk Joon Lee, and Jaeyong Choi

Subjects
Oncology, medicine.medical_specialty, Science, medicine.medical_treatment, General Physics and Astronomy, Mice, SCID, Adenocarcinoma, Article, General Biochemistry, Genetics and Molecular Biology, Tumour biomarkers, Mice, Inbred NOD, Stomach Neoplasms, Internal medicine, Antineoplastic Combined Chemotherapy Protocols, Cancer genomics, Biomarkers, Tumor, medicine, Animals, Humans, Survival analysis, Mice, Knockout, Chemotherapy, Tumor microenvironment, Multidisciplinary, business.industry, Gene Expression Profiling, Cancer, General Chemistry, medicine.disease, Survival Analysis, Xenograft Model Antitumor Assays, digestive system diseases, Colon cancer, Tumor Burden, Oxaliplatin, Gene Expression Regulation, Neoplastic, Fluorouracil, Cancer cell, Female, business, medicine.drug
Abstract

Gastric cancer (GC) is commonly treated by chemotherapy using 5-fluorouracil (5-FU) derivatives and platinum combination, but predictive biomarker remains lacking. We develop patient-derived xenografts (PDXs) from 31 GC patients and treat with a combination of 5-FU and oxaliplatin, to determine biomarkers associated with responsiveness. When the PDXs are defined as either responders or non-responders according to tumor volume change after treatment, the responsiveness of PDXs is significantly consistent with the respective clinical outcomes of the patients. An integrative genomic and transcriptomic analysis of PDXs reveals that pathways associated with cell-to-cell and cell-to-extracellular matrix interactions enriched among the non-responders in both cancer cells and the tumor microenvironment (TME). We develop a 30-gene prediction model to determine the responsiveness to 5-FU and oxaliplatin-based chemotherapy and confirm the significant poor survival outcomes among cases classified as non-responder-like in three independent GC cohorts. Our study may inform clinical decision-making when designing treatment strategies., Gastric cancer is commonly treated by chemotherapy using 5-fluorouracil derivatives and platinum combination, but predictive biomarker remains lacking. Here, the authors develop a 30-gene prediction model to determine the responsiveness to 5-fluorouracil and oxaliplatin-based chemotherapy through the integrative profiling of patient-derived xenografts

Published
2021

27. Experimental Evaluation of Wellbore Flow Models Applied to Worst-Case-Discharge Calculations for Oil Wells

Author

Matheus S. Capovilla, Seung Kam, Richard G. Hughes, Jagdeep Singh, Craig Griffith, Alexander Archer, Mayank Tyagi, Hai Nguyen, John Duhon, Pedro Cavalcanti de Sousa, Paulo J. Waltrich, Wesley Williams, Muhammad Zulqarnain, and Woochan Lee

Subjects
0301 basic medicine, Wellbore, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Petroleum engineering, Mechanical Engineering, Flow (psychology), Energy Engineering and Power Technology, Large diameter, 030217 neurology & neurosurgery, Geology
Abstract

SummaryAn experimental and numerical investigation is presented in this study to verify the accuracy of wellbore flow models applied to worst–case–discharge (WCD) calculations. Wellbore flow models often used in WCD calculations show errors of more than 100% when compared to experimental data for large–diameter pipes. However, for low gas/liquid ratios, there is a reasonable agreement between experimental data and simulation results for all wellbore flow models tested, with errors lower than 10%. This study uses the comparison between experimental data and simulation results to provide guidance on how to improve these flow correlations and proposes how to use the flow models to obtain improved predictions on WCD calculations.

Published
2019

28. Effect of Haptic Feedback on the Perceived Size of a Virtual Object

Author

Jaeyoung Park, Ilhwan Han, and Woochan Lee

Subjects
Dorsum, Haptic interface, 0303 health sciences, General Computer Science, Computer science, pinch grip, General Engineering, 02 engineering and technology, Stimulus (physiology), 021001 nanoscience & nanotechnology, feedback control, body regions, 03 medical and health sciences, Virtual image, Human–computer interaction, virtual reality, General Materials Science, lcsh:Electrical engineering. Electronics. Nuclear engineering, size perception, 0210 nano-technology, lcsh:TK1-9971, 030304 developmental biology, Haptic technology
Abstract

We investigate how different types of haptic feedback to hand affect the perceived size of a virtual object. Multiple haptic interfaces are designed to deliver different types of haptic feedback to hand. In the preliminary experiment, we investigated the effect of cutaneous feedback on the perceived size of the virtual object. The experimental results indicate that the availability of cutaneous feedback resulted in an insignificant effect on the perceived size of the virtual object. On the other hand, the availability of cutaneous feedback led the participants to exert significantly smaller grip force than when there is only force feedback. In the main experiment, we provided haptic feedback to the dorsum of the hand to modulate the hand kinesthesia at the moment of contact with the virtual object. For the reference stimuli, skin-stretch or vibrotactile feedback was provided to a participant's hand along with cutaneous and force feedback to the fingertips. Reference stimuli were rendered only with cutaneous and force feedback to the fingers. The experimental results indicate a significant effect of the type of haptic feedback to the dorsum of a hand. The skin-stretch feedback led the participants to feel virtual objects with a size of 40 mm, larger than without the feedback. The vibrotactile feedback resulted in the perceived size of virtual objects with a size of 20 or 40 mm, smaller than without the vibrotactile feedback.

Published
2019

29. Expression-based species deconvolution and realignment removes misalignment error in multispecies single-cell data

Author

Jaeyong Choi, Woochan Lee, Jung-Ki Yoon, Sun Mi Choi, Chang-Hoon Lee, Hyeong-Gon Moon, Sukki Cho, Jin-Haeng Chung, Han-Kwang Yang, and Jong-Il Kim

Subjects
Genome, Computer science, Applied Mathematics, Pipeline (computing), Reference data (financial markets), Cell, Computational Biology, Genomics, Computational biology, Biochemistry, Expression (mathematics), Computer Science Applications, Mice, medicine.anatomical_structure, Structural Biology, Multi species, medicine, Animals, Humans, RNA, Deconvolution, Molecular Biology, Gene, Algorithms
Abstract

Background Although single-cell RNA sequencing of xenograft samples has been widely used, no comprehensive bioinformatics pipeline is available for human and mouse mixed single-cell analyses. Considering the numerous homologous genes across the human and mouse genomes, misalignment errors should be evaluated, and a new algorithm is required. We assessed the extents and effects of misalignment errors and exonic multi-mapping events when using human and mouse combined reference data and developed a new bioinformatics pipeline with expression-based species deconvolution to minimize errors. We also evaluated false-positive signals presumed to originate from ambient RNA of the other species and address the importance to computationally remove them. Result Error when using combined reference account for an average of 0.78% of total reads, but such reads were concentrated to few genes that were greatly affected. Human and mouse mixed single-cell data, analyzed using our pipeline, clustered well with unmixed data and showed higher k-nearest-neighbor batch effect test and Local Inverse Simpson’s Index scores than those derived from Cell Ranger (10 × Genomics). We also applied our pipeline to multispecies multisample single-cell library containing breast cancer xenograft tissue and successfully identified all samples using genomic array and expression. Moreover, diverse cell types in the tumor microenvironment were well captured. Conclusion We present our bioinformatics pipeline for mixed human and mouse single-cell data, which can also be applied to pooled libraries to obtain cost-effective single-cell data. We also address misalignment, multi-mapping error, and ambient RNA as a major consideration points when analyzing multispecies single-cell data.

Published
2021

30. Efficient, Load Independent and Self-Regulated Wireless Power Transfer with Multiple Loads for Long Distance IoT Applications

Author

Byunghun Lee, Woochan Lee, and Najam ul Hassan

Subjects
Control and Optimization, Computer science, coupling coefficient, coil design, Energy Engineering and Power Technology, wireless power transfer, quality factor, 02 engineering and technology, lcsh:Technology, Resonator, 0202 electrical engineering, electronic engineering, information engineering, Maximum power transfer theorem, Wireless power transfer, Electrical and Electronic Engineering, Engineering (miscellaneous), Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, 020208 electrical & electronic engineering, Electrical engineering, 020206 networking & telecommunications, resonators, Power (physics), Smart grid, Electromagnetic coil, Skin effect, business, Coupling coefficient of resonators, Energy (miscellaneous), Voltage
Abstract

This paper proposes a wireless power transfer (WPT) system by placing repeater coils to transfer power to multiple loads for the internet of things (IoT) devices and sensors in smart grid applications. The proposed system intermediate resonators (repeaters) not only function as power relays to enhance the transfer distance but also supplies power to its load attached to them. Equal power distribution and load-independent characteristics were obtained without efficiency degradation when any one of the loads was changed during system operation. Identical high-quality factor coils were designed using Litz-wire to reduce the skin effect. The coil size was 15.5 cm × 15.5 cm and the four relays achieved total efficiency of 51.7%, delivering 2 W power and output voltage of 5 V to each load with a total power transfer distance of 62 cm.

Published
2021

31. Maximum Efficiency Conditions Satisfying Power Regulation Constraints in Multiple-Receivers Wireless Power Transfer

Author

Won Lee, Woochan Lee, and Dukju Ahn

Subjects
wireless power transfer, magnetic resonance, optimization, Control and Optimization, Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, Electrical and Electronic Engineering, Engineering (miscellaneous), Computer Science::Information Theory, Energy (miscellaneous)
Abstract

We propose the conditions for maximum overall efficiency at the constraint of satisfying asymmetric load power requirements for each receiver, for multiple-receivers wireless power transfer. Previously, the limitation of multiple-receiver analysis was that only the efficiency was maximized, whereas the requirements of load power were neglected. In many cases, conventional efficiency maximization assigns insufficient power to receivers far from the transmitter, while supplying excessive power to receivers near the transmitter. To resolve this limitation, we maximize the efficiency at the constraints of specified load power for each receiver. The proposed closed-form equation provides an optimum TX coil current amplitude, and the optimum load resistances of each receiver, to achieve the maximum efficiency at the load power regulation.

Published
2022

32. Wearable Robotic Glove Design Using Surface-Mounted Actuators

Author

Woochan Lee, Jaeyoung Park, and Inchan Hwang

Subjects
0301 basic medicine, soft robotics, Histology, Computer science, lcsh:Biotechnology, Soft robotics, Biomedical Engineering, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, surface-mounted actuator, Wearable computer, Bioengineering, 02 engineering and technology, Kinematics, Thumb, 03 medical and health sciences, lcsh:TP248.13-248.65, medicine, Computer vision, ComputingMethodologies_COMPUTERGRAPHICS, Original Research, business.industry, Bioengineering and Biotechnology, biomimetic, 021001 nanoscience & nanotechnology, Rigid body, robotic hand, 030104 developmental biology, medicine.anatomical_structure, Robot, Finger joint, Artificial intelligence, 0210 nano-technology, business, Actuator, anthropomorphic hand, Biotechnology
Abstract

We propose a novel wearable robotic glove or exo-glove design scalable to the variation of the hand kinematics. While most of the traditional robot hand is driven by rotating the joint directly with a rigid body, our exo-glove deforms a robotic finger's skin and, thus, the hand skeleton joints. Multiple tendons woven on the exo-glove's surface can make multi-DOF finger joint motions. We allocated tendons to mimic a hand's intrinsic and extrinsic muscles. Thus, a robotic hand actuated with the exo-glove can perform natural finger motions, including abduction/adduction and flexion/extension of finger joints. Moreover, additional tendons for the thumb enable power grips and the robotic hand's human-like motion. The proposed design approach places all the actuators on the surface without directly actuating any of the hand skeleton's joint. Therefore, a random hand skeleton can work as a robotic hand by putting the wearable robotic glove on it. Thus, the proposed model provides a high degree of freedom on choosing hand skeletons. We expect the aforementioned biomimetic features of our proposed method will benefit not only traditional robotic hands design but also the design of prosthetic hands and robot power-assisted hand glove.

Published
2020

33. Naphthalene Benzimidazole Based Neutral Ir(III) Emitters for Deep Red Organic Light-Emitting Diodes

Author

Min Hyung Lee, Woochan Lee, Palanisamy Rajakannu, Ajay Kumar, Seunghyup Yoo, and Hyung Suk Kim

Subjects
Dopant, 010405 organic chemistry, chemistry.chemical_element, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Excited state, Pyridine, OLED, Physical chemistry, Quantum efficiency, Density functional theory, Iridium, Physical and Theoretical Chemistry, Phosphorescence
Abstract

Rigid naphthalene benzimidazole (NBI) based ligands (L1 and L2) are synthesized and utilized to make deep red phosphorescent cyclometalated iridium(III) complexes ([Ir(NBI)2(PyPzCF3)] (1) and [Ir(DPANBI)2(PyPzCF3)] (2)). Complexes 1 and 2 are prepared from the reaction of L1/L2 with the aid of ancillary ligands (PyPzCF3, 2-(3-(trifluoromethyl)-1H-pyrazol-5-yl)pyridine) in a two step method. The complexes are characterized by analytical and spectroscopic methods, as well as X-ray diffraction for 1. These complexes show a strong emission in the range of 635-700 nm that extends up to the near-infrared region (800 nm). The introduction of the diphenylamino (DPA) donor group on the naphthalene unit leads to a further red-shift in the emission. The complexes exhibit radiative quantum efficiency (ΦPL) of 0.27-0.29 in poly(methylmethacrylate) film and relatively short phosphorescence decay lifetimes (τ = 1.1-3.5 μs). The structural, electronic, and optical properties are investigated with the support of density functional theory (DFT) and time-dependent-DFT calculations. The calculation results indicate that the lowest-lying triplet (T1) excited state of 1 has a mixed metal-to-ligand charge transfer (3MLCT) and ligand-centered (3LC) character, while 2 shows a dominant 3LC character. Deep red-emitting organic light-emitting diodes fabricated using 1 as a dopant display a maximum external quantum efficiency of 10.9% with the CIE color coordinates of (0.690, 0.294), with an emission centered at 644 and 700 nm. Similarly, the emitter 2 also shows a maximum external quantum efficiency of 6.9% with emissions at 657 and 722 nm.

Published
2020

34. Impact of Boron Acceptors on the TADF Properties of Ortho-Donor-Appended Triarylboron Emitters

Author

Hanif Mubarok, Seunghyup Yoo, Min Hyung Lee, Taehwan Lee, Jaehoon Jung, and Woochan Lee

Subjects
Steric effects, TADF, Materials science, chemistry.chemical_element, 02 engineering and technology, Crystal structure, Electroluminescence, 010402 general chemistry, Photochemistry, 01 natural sciences, Crystal, lcsh:Chemistry, OLED, Boron, ortho-donor-acceptor, OLEDs, General Chemistry, Nuclear magnetic resonance spectroscopy, 021001 nanoscience & nanotechnology, Acceptor, triarylboron, cyclic boryl acceptor, 0104 chemical sciences, chemistry, lcsh:QD1-999, 0210 nano-technology
Abstract

We report the impact of boron acceptors on the thermally activated delayed fluorescence (TADF) properties of ortho-donor-appended triarylboron compounds. Different boryl acceptor moieties, such as 9-boraanthryl (1), 10H-phenoxaboryl (2), and dimesitylboryl (BMes2, 3) groups have been introduced into an ortho donor (D)-acceptor (A) backbone structure containing a 9,9-diphenylacridine (DPAC) donor. X-ray crystal diffraction and NMR spectroscopy evidence the presence of steric congestion around the boron atom along with a highly twisted D-A structure. A short contact of 2.906 A between the N and B atoms, which is indicative of an N → B nonbonding electronic interaction, is observed in the crystal structure of 2. All compounds are highly emissive (PLQYs = 90-99%) and display strong TADF properties in both solution and solid state. The fluorescence bands of cyclic boryl-containing 1 and 2 are substantially blue-shifted compared to that of BMes2-containing 3. In particular, the PL emission bandwidths of 1 and 2 are narrower than that of 3. High-efficiency TADF-OLEDs are realized using 1-3 as emitters. Among them, the devices based on the cyclic boryl emitters exhibit pure blue electroluminescence (EL) and narrower EL bands than the device with 3. Furthermore, the device fabricated with emitter 1 achieves a high external quantum efficiency of 25.8%.

Published
2020

35. Publisher Correction: Effect of Cutaneous Feedback on the Perception of Virtual Object Weight during Manipulation

Author

Jaeyoung Park, Bukun Son, Woochan Lee, and Ilhwan Han

Subjects
Adult, Male, Multidisciplinary, Information retrieval, Computer science, Published Erratum, media_common.quotation_subject, lcsh:R, MEDLINE, Virtual Reality, lcsh:Medicine, Publisher Correction, Feedback, Fingers, Touch Perception, Virtual image, Perception, Visual Perception, Humans, lcsh:Q, Female, Weight Perception, lcsh:Science, media_common, Skin
Abstract

Haptic interface technologies for virtual reality applica have been developed to increase the reality and manipulability of a virtual object by creating a diverse tactile sensation. Most evaluation of the haptic technologies, however, have been limited to the haptic perception of the tactile stimuli via static virtual objects. Noting this, we investigated the effect of lateral cutaneous feedback, along with kinesthetic feedback on the perception of virtual object weight during manipulation. We modeled the physical interaction between a participant's finger avatars and virtual objects. The haptic stimuli were rendered with custom-built haptic feedback systems that can provide kinesthetic and lateral cutaneous feedback to the participant. We conducted two virtual object manipulation experiments, 1. a virtual object manipulation with one finger, and 2. the pull-out and lift-up of a virtual object grasped with a precision grip. The results of Experiment 1 indicate that the participants felt the virtual object rendered with lateral cutaneous feedback significantly heavier than with only kinesthetic feedback (p 0.05 for m

Published
2020

36. Impact of Boron Acceptors on the TADF Properties of

Author

Hanif, Mubarok, Woochan, Lee, Taehwan, Lee, Jaehoon, Jung, Seunghyup, Yoo, and Min Hyung, Lee

Subjects
ortho-donor-acceptor, Chemistry, TADF, OLEDs, triarylboron, cyclic boryl acceptor, Original Research
Abstract

We report the impact of boron acceptors on the thermally activated delayed fluorescence (TADF) properties of ortho-donor-appended triarylboron compounds. Different boryl acceptor moieties, such as 9-boraanthryl (1), 10H-phenoxaboryl (2), and dimesitylboryl (BMes2, 3) groups have been introduced into an ortho donor (D)–acceptor (A) backbone structure containing a 9,9-diphenylacridine (DPAC) donor. X-ray crystal diffraction and NMR spectroscopy evidence the presence of steric congestion around the boron atom along with a highly twisted D–A structure. A short contact of 2.906 Å between the N and B atoms, which is indicative of an N → B nonbonding electronic interaction, is observed in the crystal structure of 2. All compounds are highly emissive (PLQYs = 90–99%) and display strong TADF properties in both solution and solid state. The fluorescence bands of cyclic boryl-containing 1 and 2 are substantially blue-shifted compared to that of BMes2-containing 3. In particular, the PL emission bandwidths of 1 and 2 are narrower than that of 3. High-efficiency TADF-OLEDs are realized using 1–3 as emitters. Among them, the devices based on the cyclic boryl emitters exhibit pure blue electroluminescence (EL) and narrower EL bands than the device with 3. Furthermore, the device fabricated with emitter 1 achieves a high external quantum efficiency of 25.8%.

Published
2020

37. Wireless Power Transfer under Wide Distance Variation Using Dual Impedance Frequency

Author

Woochan Lee and Dukju Ahn

Subjects
Materials science, Computer Networks and Communications, Acoustics, lcsh:TK7800-8360, 02 engineering and technology, frequency splitting, 0202 electrical engineering, electronic engineering, information engineering, Wireless power transfer, Electrical and Electronic Engineering, dual impedance, Dual impedance, Electrical impedance, reflected resistance, dual band, 020208 electrical & electronic engineering, lcsh:Electronics, 020206 networking & telecommunications, Power (physics), Coupling (computer programming), inductive power, Hardware and Architecture, Control and Systems Engineering, Electromagnetic coil, Signal Processing, Multi-band device, Coupling coefficient of resonators
Abstract

A dual-impedance operation, where coil impedance is controlled by operating frequency selection, is proposed to maintain optimum reflected impedance across coupling variation. More specifically, this work focuses on how high coupling between coils presents excessively high reflected resistance to transmitter (Tx) inverters, degrading the efficiency and output power of the inverter. To overcome this problem, the proposed system is equipped with dual-impedance coil and selects high- or low-impedance coil based on the ability to operate both at 200 kHz and 6.78 MHz frequencies. The reactive impedances of 6.78 MHz coils are designed to be higher than that of 200 kHz coils. Since the reflected resistance is proportional to the coil impedances and coupling squared, at close distance with high coupling coefficient, 200 kHz coils with low coil impedances are activated to prevent an excessive rise in reflected resistance. On the other hand, at large distance spacing with low coupling coefficient, 6.78 MHz coils with high coil impedances are activated so that sufficient reflected resistance is obtained even under the small coupling. The proposed system’s advantages are the high efficiency and the elimination of bulky mechanical relay switches. Measured efficiencies are 88.6–50% across 10 coupling variations.

Published
2020

38. Effect of Cutaneous Feedback on the Perception of Virtual Object Weight during Manipulation

Author

Bukun Son, Woochan Lee, Ilhwan Han, and Jaeyoung Park

Subjects
0209 industrial biotechnology, genetic structures, Computer science, media_common.quotation_subject, lcsh:Medicine, Tactile sensation, Weight Perception, 02 engineering and technology, Stimulus (physiology), Virtual reality, Article, Tactile stimuli, 03 medical and health sciences, 020901 industrial engineering & automation, 0302 clinical medicine, Human–computer interaction, Perception, lcsh:Science, media_common, Haptic technology, Multidisciplinary, lcsh:R, Kinesthetic learning, Object (computer science), Electrical and electronic engineering, Mechanical engineering, body regions, Virtual image, Touch Perception, lcsh:Q, Haptic perception, 030217 neurology & neurosurgery
Abstract

Haptic interface technologies for virtual reality applications have been developed to increase the reality and manipulability of a virtual object by creating a diverse tactile sensation. Most evaluation of the haptic technologies, however, have been limited to the haptic perception of the tactile stimuli via static virtual objects. Noting this, we investigated the effect of lateral cutaneous feedback, along with kinesthetic feedback on the perception of virtual object weight during manipulation. We modeled the physical interaction between a participant’s finger avatars and virtual objects. The haptic stimuli were rendered with custom-built haptic feedback systems that can provide kinesthetic and lateral cutaneous feedback to the participant. We conducted two virtual object manipulation experiments, 1. a virtual object manipulation with one finger, and 2. the pull-out and lift-up of a virtual object grasped with a precision grip. The results of Experiment 1 indicate that the participants felt the virtual object rendered with lateral cutaneous feedback significantly heavier than with only kinesthetic feedback (p mref = 100 and 200 g). Similarly, the participants of Experiment 2 felt the virtual objects significantly heavier when lateral cutaneous feedback was available (p mref = 100, 200, and 300 g). Therefore, the additional lateral cutaneous feedback to the force feedback led the participants to feel the virtual object heavier than without the cutaneous feedback. The results also indicate that the contact force applied to a virtual object during manipulation can be a function of the perceived object weight (p = 0.005 for Experiment 1 and p = 0.02 for Experiment 2).

Published
2020

39. Realization of Flexible Ultraviolet Organic Light-Emitting Diodes: Design Considerations

Author

Donggyun Lee, Seunghyup Yoo, Jaehyeok Park, and Woochan Lee

Subjects
Materials science, business.industry, Ultraviolet light emitting diodes, medicine.disease_cause, Wavelength, Electrode, OLED, medicine, Optoelectronics, business, Ultraviolet radiation, Realization (systems), Ultraviolet, Diode
Abstract

Flexible ultraviolet organic light-emitting diodes are realized by applying top emission structure and thin silver top electrode. Flexible devices exhibit a peak wavelength at ca. 377nm and radiant current efficiency over 20mW/sr/A.

Published
2020

40. Energy-Efficient Wireless Hopping Sensor Relocation Based on Prediction of Terrain Conditions

Author

Woochan Lee, Moonseong Kim, and Sooyeon Park

Subjects
relocation protocol, Computer Networks and Communications, Computer science, Real-time computing, lcsh:TK7800-8360, Terrain, 02 engineering and technology, wireless sensor networks (WSNs), 0202 electrical engineering, electronic engineering, information engineering, Wireless, Electrical and Electronic Engineering, Protocol (object-oriented programming), energy efficient protocol, 020203 distributed computing, hopping sensor, business.industry, lcsh:Electronics, 020206 networking & telecommunications, simulation, internet of things (IoTs), Hardware and Architecture, Control and Systems Engineering, Signal Processing, mobile sensor, business, Energy (signal processing), Efficient energy use
Abstract

It is inevitable for data collection that IoT sensors are distributed to interested areas. However, not only the proper placement of sensors, but also the replacement of sensors that have run out of energy is very difficult. As a remedy, wireless charging systems for IoT sensors have been researched recently, but it is apparent that the availability of charging system is limited especially for IoT sensors scattered in rugged terrain. Thus, it is important that the sensor relocation models to recover sensing holes employ energy-efficient scheme. While there are various methods in the mobile model of wireless sensors, well-known wheel-based movements in rough areas are hard to achieve. Thus, research is ongoing in various areas of the hopping mobile model in which wireless sensors jump. Many past studies about hopping sensor relocation assume that all sensor nodes are aware of entire network information throughout the network. These assumptions do not fit well to the actual environment, and they are nothing but classical theoretical research. In addition, the physical environment (sand, mud, etc.) of the area in which the sensor is deployed can change from time to time. In this paper, we overcome the theoretical-based problems of the past researches and propose a new realistic hopping sensor relocation protocol considering terrain conditions. Since the status of obstacles around the sensing hole is unknown, the success rate of the hopping sensor relocation is used to predict the condition of the surrounding environment. Also, we are confident that our team is uniquely implementing OMNeT++ (Objective Modular Network Testbed in C++) simulation in the hopping sensor relocation protocol to reflect the actual communication environment. Simulations have been performed on various obstacles for performance evaluation and analysis, and we are confident that better energy efficiency with later appearance of sensing holes can be achieved compared to well-known relocation protocols.

Published
2019
Full Text
View/download PDF

41. An Alternative Explicit and Unconditionally Stable Time-Domain Finite-Element Method for Electromagnetic Analysis

Author

Dan Jiao and Woochan Lee

Subjects
Lossless compression, Computer science, Applied mathematics, Time domain, Lossy compression, Space (mathematics), Stability (probability), Instability, Finite element method, Numerical stability
Abstract

A new method for making an explicit time-domain finite-element method unconditionally stable is developed for general electromagnetic analysis, where the dielectrics and conductors can be inhomogeneous, lossless, or lossy. In this method, for a given time step, we find the unstable modes that are the root cause of instability, and deduct them directly from the system matrix resulting from a time-domain finite-element based analysis. The resultant explicit time-domain simulation is absolutely stable for the given time step no matter how large it is, and irrespective of the space step. The accuracy of the method is also guaranteed when the time step is chosen based on accuracy. In addition to a formulation for lossless problems, formulations for general lossy problems are also presented in detail. Numerical experiments have demonstrated the accuracy, efficiency, and unconditional stability of the proposed new explicit method.

Published
2018

42. A Real-Time Wearable Physiological Monitoring System for Home-Based Healthcare Applications

Author

Jin-Woo Jeong, Woochan Lee, and Young-Joon Kim

Subjects
ECG/EMG sensing, Home Environment, Chemical technology, rehabilitation training, Signal Processing, Computer-Assisted, TP1-1185, wireless communication, Biochemistry, Article, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Electrocardiography, Wearable Electronic Devices, physiological monitor, smart wearable device, Humans, Electrical and Electronic Engineering, Delivery of Health Care, Instrumentation, Monitoring, Physiologic
Abstract

The acquisition of physiological data are essential to efficiently predict and treat cardiac patients before a heart attack occurs and effectively expedite motor recovery after a stroke. This goal can be achieved by using wearable wireless sensor network platforms for real-time healthcare monitoring. In this paper, we present a wireless physiological signal acquisition device and a smartphone-based software platform for real-time data processing and monitor and cloud server access for everyday ECG/EMG signal monitoring. The device is implemented in a compact size (diameter: 30 mm, thickness: 4.5 mm) where the biopotential is measured and wirelessly transmitted to a smartphone or a laptop for real-time monitoring, data recording and analysis. Adaptive digital filtering is applied to eliminate any interference noise that can occur during a regular at-home environment, while minimizing the data process time. The accuracy of ECG and EMG signal coverage is assessed using Bland–Altman analysis by comparing with a reference physiological signal acquisition instrument (RHS2116 Stim/Recording System, Intan). Signal coverage of R-R peak intervals showed almost identical outcome between this proposed work and the RHS2116, showing a mean difference in heart rate of 0.15 ± 4.65 bpm and a Wilcoxon’s p value of 0.133. A 24 h continuous recording session of ECG and EMG is conducted to demonstrate the robustness and stability of the device based on extended time wearability on a daily routine.

Published
2021

43. Realization of Flexible Ultraviolet Organic Light‐Emitting Diodes: Key Design Issues

Author

Donggyun Lee, Seunghyup Yoo, Hyung Suk Kim, Woochan Lee, and Jaehyeok Park

Subjects
Materials science, business.industry, top emissions, QC350-467, General Medicine, organic light-emitting diodes, Optics. Light, medicine.disease_cause, TA1501-1820, ultraviolet, medicine, OLED, Key (cryptography), Optoelectronics, Applied optics. Photonics, flexible, business, Realization (systems), Ultraviolet
Abstract

While organic light‐emitting diodes (OLEDs) have seen huge success as light sources in high‐end displays, efforts are being made to extend their spectral coverage beyond the visible region. Among such endeavors, the development of ultraviolet (UV) OLEDs is particularly of interest due to the unique applications of UV light in a variety of areas such as security, sterilization, phototherapy, etc. However, OLEDs that emit UV light are very challenging to realize due to limitations such as high‐energy‐induced molecular instability, the rarity of adequate emitting layers, and material optical properties that are very different from those of visible OLEDs. Herein, UV OLEDs are realized using 3‐(Biphenyl‐4‐yl)‐5‐(4‐tert‐butylphenyl)‐4‐phenyl‐4 H‐1,2,4‐triazole (TAZ) as emitters in both top‐emitting and bottom‐emitting configurations. High absorption of common plastic substrates is carefully considered, and semitransparent refractory characteristics of metals under UV are exploited to form flexible dielectric−metal−dielectric electrodes with high transparency in UV. As a result, highly flexible UV OLEDs with a peak wavelength of 371 nm and a full width half maximum as small as 13 nm are realized.

Published
2021

44. STAT3 is a key molecule in the oncogenic behavior of diffuse intrinsic pontine glioma

Author

Kyung Hyun Kim, Jinju Park, Ji Yeoun Lee, Woochan Lee, Sangil Yun, Seung-Ki Kim, Saet Pyoul Kim, Kyu-Chang Wang, and Jong‑Il Kim

Subjects
0301 basic medicine, Cancer Research, Cell, Articles, Biology, Cell cycle, medicine.disease_cause, Neural stem cell, Small hairpin RNA, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, medicine, Cancer research, Viability assay, Epithelial–mesenchymal transition, Carcinogenesis, Gliogenesis
Abstract

Diffuse intrinsic pontine glioma (DIPG) is one of the most lethal childhood brain tumors. This tumor is unique because it is detected exclusively in the ventral pons of patients aged between 6 and 7 years, which suggests a developmental nature of its formation. Signal transducer and activator of transcription 3 (STAT3) is a critical molecule for the differentiation of neural stem cells into astrocytes during neurodevelopment. Additionally, STAT3 is associated with oncogenesis and the epithelial-mesenchymal transition (EMT) in various types of tumor. In recent years, several studies have demonstrated the oncogenic role of STAT3 in high-grade gliomas. However, the role of STAT3 in DIPG at the cellular level remains unknown. To assess the possible association between gliogenesis and DIPG, the expression levels of various molecules participating in the differentiation of neural stem cells were compared between normal brain control tissues and DIPG tissues using open public data. All of the screened genes exhibited significantly increased expression in DIPG tissues compared with normal tissues. As STAT3 expression was the most increased, the effect of STAT3 inhibition in a DIPG cell line was assessed via STAT3 short hairpin (sh)RNA transfection and treatment with AG490, a STAT3 inhibitor. Changes in viability, apoptosis, EMT and radiation therapy efficiency were also evaluated. Downregulation of STAT3 resulted in decreased cyclin D1 expression and cell viability, migration and invasion. Additionally, treatment with STAT3 shRNA or AG490 suppressed the EMT phenotype. Finally, when radiation was administered in combination with STAT3 inhibition, the therapeutic efficiency, assessed by cell viability and DNA damage repair, was increased. The present results suggest that STAT3 is a potential therapeutic target in DIPG, especially when combined with radiation therapy.

Published
2019

45. Priming mobilization of hair follicle stem cells triggers permanent loss of regeneration after alkylating chemotherapy

Author

Ji Seon Yoon, Sungjoo Tommy Hwang, Bo Mi Kang, Woochan Lee, Jin Yong Kim, Oh Sang Kwon, Kyu Han Kim, Jong Il Kim, Minji Park, Jungyoon Ohn, and Sookyung Kim

Subjects
0301 basic medicine, General Physics and Astronomy, Apoptosis, 02 engineering and technology, Mice, SCID, p38 Mitogen-Activated Protein Kinases, Mice, Phosphatidylinositol 3-Kinases, Regeneration in humans, lcsh:Science, Mitotic catastrophe, Cells, Cultured, Adult stem cells, Multidisciplinary, integumentary system, Stem Cells, Middle Aged, 021001 nanoscience & nanotechnology, Cell biology, Heterografts, Female, Stem cell, 0210 nano-technology, Hair Follicle, Adult stem cell, medicine.drug, Adult, Alkylating Agents, DNA damage, Science, Transplantation, Heterologous, Biology, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, medicine, Regeneration, Chemotherapy, Animals, Humans, Busulfan, Cyclophosphamide, PI3K/AKT/mTOR pathway, Cell Proliferation, General Chemistry, Transplantation, 030104 developmental biology, lcsh:Q, Tumor Suppressor Protein p53, Proto-Oncogene Proteins c-akt, DNA Damage
Abstract

The maintenance of genetic integrity is critical for stem cells to ensure homeostasis and regeneration. Little is known about how adult stem cells respond to irreversible DNA damage, resulting in loss of regeneration in humans. Here, we establish a permanent regeneration loss model using cycling human hair follicles treated with alkylating agents: busulfan followed by cyclophosphamide. We uncover the underlying mechanisms by which hair follicle stem cells (HFSCs) lose their pool. In contrast to immediate destructive changes in rapidly proliferating hair matrix cells, quiescent HFSCs show unexpected massive proliferation after busulfan and then undergo large-scale apoptosis following cyclophosphamide. HFSC proliferation is activated through PI3K/Akt pathway, and depletion is driven by p53/p38-induced cell death. RNA-seq analysis shows that HFSCs experience mitotic catastrophe with G2/M checkpoint activation. Our findings indicate that priming mobilization causes stem cells to lose their resistance to DNA damage, resulting in permanent loss of regeneration after alkylating chemotherapy., Hair follicles (HFs) are sensitive to chemotherapy but recover from quiescent HF stem cells, although sometimes chemotherapy results in permanent loss. Here, Kim et al. establish a model of permanent chemotherapy-induced alopecia to uncover the underlying mechanisms depleting human HF stem cells.

Published
2019

46. A Two-DOF Impact Actuator for Haptic Interaction

Author

Sangyoon Kim, Bukun Son, Yongheon Lee, Jaeyoung Park, Woochan Lee, and Hyunwoong Choi

Subjects
Mechanism (engineering), Planar, Computer science, Orientation (geometry), Magnet, Trajectory, Physics::Accelerator Physics, Mechanical engineering, Solenoid, Actuator, Potential energy
Abstract

This paper presents a new actuator mechanism that can create a planar two-DOF impact and vibrotactile stimuli with wide frequency bandwidth. The proposed device utilizes one permanent magnet and two different sets of solenoids, direction controlling solenoids and a central solenoid. The direction controlling solenoids are two sets of facing solenoid pair, which attract the permanent magnet from a neutral position toward the housing, to create an impact. The central solenoid increases the magnet’s potential energy, resulting in a faster movement toward the outside of the neutral position and thus increasing the amount of impact. The central solenoid can be utilized to create an attractive force to move the magnet back to the neutral position after the impact. When creating an impact in an arbitrary orientation, two sets of solenoid pair are used to decide the initial force direction, which is parallel to the magnet’s trajectory until an impact. The actuator can be used as a tactor by controlling the impact cycle.

Published
2019

47. Down-conversion based near-infrared organic light-emitting diodes with high efficiency and low roll-off

Author

Woochan Lee, Seunghyup Yoo, Jaehyeok Park, and Jinouk Song

Subjects
Wavelength, Materials science, Roll-off, business.industry, Near-infrared spectroscopy, OLED, Optoelectronics, Quantum efficiency, Phosphor, business, Diode, Visible spectrum
Abstract

Efficient near-infrared organic light-emitting diodes are proposed based on a down-conversion method using phosphors. The proposed devices exhibit external quantum efficiency as high as 14% at the wavelength longer than 700nm with low roll-off.

Published
2019

48. A Robust Energy Saving Data Dissemination Protocol for IoT-WSNs

Author

Moonseong Kim, Sooyeon Park, and Woochan Lee

Subjects
Computer Networks and Communications, business.industry, Computer science, Node (networking), Routing table, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, 010401 analytical chemistry, 020206 networking & telecommunications, 02 engineering and technology, Energy consumption, 01 natural sciences, 0104 chemical sciences, Flooding (computer networking), Sensor node, Shortest path problem, 0202 electrical engineering, electronic engineering, information engineering, business, Dissemination, Wireless sensor network, Information Systems, Computer network
Abstract

In Wireless Sensor Networks (WSNs) for Internet of Things (IoT) environment, fault tolerance is a most fundamental issue due to strict energy constraint of sensor node. In this paper, a robust energy saving data dissemination protocol for IoT-WSNs is proposed. Minimized energy consumption and dissemination delay time based on signal strength play an important role in our scheme. The representative dissemination protocol SPIN (Sensor Protocols for Information via Negotiation) overcomes overlapped data problem of the classical Flooding scheme. However, SPIN never considers distance between nodes, thus the issue of dissemination energy consumption is becoming more important problem. In order to minimize the energy consumption, the shortest path between sensors should be considered to disseminate the data through the entire IoT-WSNs. SPMS (Shortest Path Mined SPIN) scheme creates routing tables using Bellman Ford method and forwards data through a multi-hop manner to optimize power consumption and delay time. Due to these properties, it is very hard to avoid heavy traffic when routing information is updated. Additionally, a node failure of SPMS would be caused by frequently using some sensors on the shortest path, thus network lifetime might be shortened quickly. In contrast, our scheme is resilient to these failures because it employs energy aware concept. The dissemination delay time of the proposed protocol without a routing table is similar to that of shortest path-based SPMS. In addition, our protocol does not require routing table, which needs a lot of control packets, thus it prevents excessive control message generation. Finally, the proposed scheme outperforms previous schemes in terms of data transmission success ratio, therefore our protocol could be appropriate for IoT-WSNs environment.

Published
2018

49. Quenching‐Resistant Solid‐State Photoluminescence of Graphene Quantum Dots: Reduction of π−π Stacking by Surface Functionalization with POSS, PEG, and HDA

Author

Hyewon Yoon, Seunghyup Yoo, Hyung Suk Kim, Minsu Park, Jin Kim, Sukki Lee, Woochan Lee, Sang-Hyeon Nam, Yangho Jeong, and Seokwoo Jeon

Subjects
Quenching (fluorescence), Photoluminescence, Materials science, Graphene, Stacking, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Biomaterials, Chemical engineering, law, Quantum dot, PEG ratio, Electrochemistry, Surface modification, Light-emitting diode
Published
2021

50. Dimensionality-Dependent Foam Rheological Properties: How To Go From Linear to Radial Geometry for Foam Modeling and Simulation

Author

Woochan Lee, Seung Ihl Kam, Seungjun Lee, and Mohammad Izadi

Subjects
Materials science, Energy Engineering and Power Technology, 02 engineering and technology, Mechanics, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Modeling and simulation, 020401 chemical engineering, Rheology, 0204 chemical engineering, Simulation, 0105 earth and related environmental sciences, Curse of dimensionality
Abstract

Summary Numerous laboratory and field tests reveal that foam can effectively control gas mobility and improve sweep efficiency, if correctly designed. It is believed that there is a significant gap between small laboratory-scale experiments and large field-scale tests because of two main reasons: (1) Typical laboratory flow tests are conducted in linear systems, whereas field-scale foam enhanced-oil-recovery (EOR) processes are performed in radial (or spherical partly) systems and (2) through the complicated in-situ lamella creation/coalescence mechanisms and non-Newtonian behavior, foam rheology depends on the geometry and dimensionality. As a result, it is still an open question as to how to translate laboratory-measured data to field-scale treatments. Motivated by earlier studies of Kovscek et al. (1994, 1997), this study investigates how such dimensionality-dependent foam rheological properties are affected by different injection conditions on small and large scales, with a mechanistic foam-modeling technique. Complex foam-flow characteristics such as three foam states (weak-foam, strong-foam, and intermediate states) and two steady-state strong-foam regimes (high-quality regime and low-quality regime) lie in the heart of this analysis. The calculation results from small radial and spherical systems showed that (1) for strong foams in the low-quality regime injected, foam mobility decreased [or mobility reduction factor (MRF) increased] significantly with distance showing a good sweep efficiency; (2) for strong foams in the high-quality regime, the situation became more complicated—near the well, foam mobility decreased, but away from the well, foam mobility increased with distance, which eventually gave a relatively low sweep efficiency; and (3) for weak foams injected, foam mobility increased with distance showing a poor sweep efficiency. The results implied that the use of a fixed value of MRF, which is a common practice in field-scale reservoir simulations, might lead to a significant error. When the method was applied to a larger scale, it was shown that strong foams could propagate deeper into the reservoir at higher injection rate, higher injection pressure, and at lower injection foam quality. Foam-propagation distance was very sensitive to these injection conditions for strong foams in the high-quality regime, but much less sensitive for strong foams in the low-quality regime.

Published
2016

Catalog

Books, media, physical & digital resources
See catalog results