Your search keyword '"So-Yeong Lee"' showing total 2,904 results

1. Exploring Case-Based 3D Animated Videos for Online Instructional Design Learning

Author

Li-Wei Peng and Cheun-Yeong Lee

Abstract

Numerous educators, instructional designers, and technology specialists utilize case study methodologies to achieve various objectives, such as elevating the profession's status, bridging theory and practice, applying knowledge to real-world classroom and workplace scenarios, honing decision-making skills, and inspiring future professionals. This study focused on the application of case study methodology integrating creative 3D animated video creation, collaborative peer discussion and evaluation, and practical self-reflective exercises in an asynchronous online class environment. The goal was to foster students' comprehensive, in-depth understanding of the instructional design model--Triple E Framework.

Published

2024

2. Finite-Memory Front-Wheel Angle Estimation Strategy for Steer-by-Wire System.

Author

Jun Yeong Lee, Hyun Ho Kang, and Choon Ki Ahn

Published

2025

3. mtSTAT3 suppresses rheumatoid arthritis by regulating Th17 and synovial fibroblast inflammatory cell death with IL-17-mediated autophagy dysfunction

Author

Seon-Yeong Lee, Jeonghyeon Moon, A Ram Lee, Young-Mee Moon, Jeong Won Choi, Chae Rim Lee, Su Been Jeon, Hee Su Sohn, Jeehee Youn, Dongyun Shin, Sung-Hwan Park, and Mi-La Cho

Subjects

Medicine, Biochemistry, QD415-436

Abstract

Abstract Th17 cells are activated by STAT3 factors in the nucleus, and these factors are correlated with the pathologic progression of rheumatoid arthritis (RA). Recent studies have demonstrated the presence of STAT3 in mitochondria, but its function is unclear. We investigated the novel role of mitochondrial STAT3 (mitoSTAT3) in Th17 cells and fibroblast-like synoviocytes (FLSs) and analyzed the correlation of mitoSTAT3 with RA. We used a collagen-induced arthritis (CIA) mouse model to determine the effect of mitochondrial STAT3. We observed changes in the RA mouse model via the use of a mitochondrial STAT3-inducing vector and inhibitor. We observed the accumulation of abnormal autophagosomes, increased inflammatory cell death signaling, and decreased mitoSTAT3 activity in FLSs from both patients with RA and patients with IL-17-treated FLSs. We first discovered that IL-17 increased the accumulation of abnormal autophagosomes and the expression of inflammatory cell death factors in synovial fibroblasts and decreased mitoSTAT3 activation. In a mouse model of CIA, arthritis and joint inflammation were decreased by injection vectors that induced mitoSTAT3 overexpression. The abnormal accumulation of autophagosomes and the expression of inflammatory cell death factors were also decreased in these mice. In mouse and human immune cells, ZnSO4, an inducer of mitochondrial STAT3, decreases the production of reactive oxygen species, the IL-17 concentration, and differentiation into Th17 cells. However, mitoSTAT3 blockade accelerated the development of arthritis, inflammatory cell death, and abnormal autophagosome/autophagolysosome formation. Therefore, this study suggests a novel inhibitory mechanism of RA using mitoSTAT3 via the regulation of autophagy, Th17 differentiation, and inflammatory cell death.

Published

2025

4. In vitro gene editing using primary cells derived from Cas9-expressing pigs

Author

Seokho Kim, Jin-Gu No, Seunghoon Lee, Areum Choi, Namwoong Hyung, Ju Young Lee, Tae-Uk Kwak, Won Seok Ju, Jae-Yeong Lee, Poogyeon Lee, Mi-Ryung Park, Sung June Byun, Haesun Lee, Keon Bong Oh, Hyeon Yang, and Jae Gyu Yoo

Subjects

Pig, Cas9, sgRNA, Animal culture, SF1-1100

Abstract

Clustered Regularly Interspaced Short Palindromic Repeats/CRISPR-associated protein 9 (CRISPR/Cas9) technology has significantly facilitated the generation of gene-edited (GE) pigs. Although GE pigs are promising for agricultural and biomedical applications, the entire process of generating useful GE pigs is time- and labor-intensive. To overcome this, in vivo gene-editing techniques have been developed, where Cas9 nuclease and single guide RNA (sgRNA) are directly injected into animals; however, their efficiency remains low owing to the large size of the nuclease. In this study, we generated a Cas9-expressing pig by inserting the Cas9 gene into the ROSA26 locus, resulting in its constitutive expression in various tissues. We also confirmed the pig’s fertility. In vitro experiments with primary cells from the pig confirmed effective gene deletion by adding only sgRNAs. These results suggest that the Cas9-expressing pig generated in this study could serve as an effective platform for in vivo and in vitro gene editing in agricultural and biomedical research.

Published

2025

5. AAV2 serotype demonstrates the highest transduction efficiency in porcine lung-derived cells

Author

Won Seok Ju, Seokho Kim, Areum Choi, Jae-Yeong Lee, Haesun Lee, Jingu No, Seunghoon Lee, Keonbong Oh, and Jae Gyu Yoo

Subjects

adeno-associated virus 2 serotype, lung epithelial cells, porcine, pulmonary alveolar macrophages, Biotechnology, TP248.13-248.65, Medicine (General), R5-920, Internal medicine, RC31-1245

Abstract

Background: The ability of adeno-associated viruses (AAVs) to transduce various cell types with minimal immune responses renders them prominent vectors for gene editing (GE), with different AAV serotypes exhibiting distinct transduction efficiencies due to their specific cellular tropism. However, detailed molecular processes of AAV infection and penetration, as well as the optimal serotype for specific purposes, remain poorly understood. Porcine models are widely used in research benefitting both human and livestock due to anatomical and physiological similarities to humans. Methods: Transduction efficiencies of 18 AAV serotypes (AAV1–9, 6.2, rh10, DJ, DJ/8, PHP.eB, PHP.S, 2-retro, 2-QuadYF, and 2.7m8) were evaluated in immortalized porcine lung epithelial cells (pLCsImt) and pulmonary alveolar macrophages 3D4/31 (PAMs 3D4/31). Results: We found AAV2, DJ, and 2.7m8 to be the most effective in both cell types. The highest enhanced green fluorescent protein expression of 52.46 ± 2.4% in pLCsImt and 64.08 ± 2.4% in PAMs 3D4/31 was observed for AAV2, while negligible transduction was observed for AAV4, rh10, DJ, PHP.eB, PHP.S, and 2-retro. AAV-DJ showed superior transduction efficiency in PK-15, as compared to AAV2 and 2.7m8. Results emphasize the cell type-specific nature of AAV serotype transduction efficiencies. Notably, AAV2 was most effective in both lung and macrophage cells, whereas AAV-DJ was more effective in renal cells. Conclusions: Our findings suggest that AAV2 was identified as the most efficient serotype for transducing pLCsImt and PAMs 3D4/31, compare to the PK-15 cells. Understanding cell type-specific preferences of AAV serotypes offer crucial insight for tailoring AAV vectors to specific tissue and optimizing genome editing strategies, with potential implications for the advancement of personalized medicine and development of treatments for human and livestock.

Published

2024

6. GRIM-19-mediated induction of mitochondrial STAT3 alleviates systemic sclerosis by inhibiting fibrosis and Th2/Th17 cells

Author

Ha Yeon Jeong, Jin-Sil Park, Jeong Won Choi, Kun Hee Lee, Seung Cheon Yang, Hye Yeon Kang, Sang Hee Cho, Seon-Yeong Lee, A Ram Lee, Youngjae Park, Sung-Hwan Park, and Mi-La Cho

Subjects

Medicine, Biochemistry, QD415-436

Abstract

Abstract The gene associated with the retinoid–IFN-induced mortality-19 (GRIM-19) protein is a regulator of a cell death regulatory protein that inhibits STAT3, which is a critical transcription factor for interleukin (IL)-17-producing T (Th17) cells and a key integrator of extracellular matrix accumulation in systemic sclerosis (SSc). This protein is also a component of mitochondrial complex I, where it directly binds to STAT3 and recruits STAT3 to the mitochondria via the mitochondrial importer Tom20. In this study, the role of GRIM19 and its relationship with STAT3 in SSc development was investigated using a murine model of SSc. We observed a decrease in the level of GRIM-19 in the lesional skin of mice with bleomycin-induced SSc, which was negatively correlated with the level of STAT3. Overexpression of GRIM-19 reduced dermal thickness and fibrosis and the frequency of Th2 and Th17 cells in SSc mice. Mitophagic dysfunction promoted fibrosis in mice lacking PINK1, which is a mitophagy inducer. In an in vitro system, the overexpression of GRIM-19 increased the level of mitochondrial STAT3 (mitoSTAT3), induced mitophagy, and alleviated fibrosis progression. MitoSTAT3 overexpression hindered the development of bleomycin-induced SSc by reducing fibrosis. These results suggest that GRIM-19 is an effective therapeutic target for alleviating the development of SSc by increasing mitophagy.

Published

2024

7. Ammonium capture Kinetic, Capacity, and Prospect of Rice Husk Biochar produced by different pyrolysis conditions

Author

Yun-Gu Kang, Do-Gyun Park, Jun-Yeong Lee, Jiwon Choi, Jun-Ho Kim, Ji-Hoon Kim, Yeo-Uk Yun, and Taek-Keun Oh

Subjects

Medicine, Science

Abstract

Abstract This study explores the potential application of rice husk biochars, categorized by their pH (acidic, pH 5.98; neutral, pH 7.02; and alkali, pH 11.21) and particle sizes (micron-scale and sub-centimeter) in aquatic ecosystems for efficient removal of ammonium (NH4 +). To assess the NH4 + adsorption capacity of the rice husk biochars, both NH4 + adsorption kinetics and isotherms were employed. Additionally, we propose future prospects for utilizing rice husk biochar as an efficient adsorbent based on a review of previous studies. Our findings suggest that the NH4 +adsorption capacity of rice husk biochars is primarily influenced by their surface characteristics, specifically surface area of rice husk biochars and loss of acidic functional groups. In this study, the neutral rice husk biochars, which had the highest surface area at 9.86 m2 g−1, exhibited the highest NH4 +adsorption performance at 1.12 mg g−1 (micron-scale) and 0.94 mg g−1 (sub-centimeter) compared to acidic and alkali rice husk biochars. Additionally, particle size control proves to be a promising strategy for enhancing adsorption efficiency of rice husk biochars, with the micron-scale rice husk biochars being 1.19-fold higher than sub-centimeter ones. However, before implementing biochar-based pollutant removal strategies in aquatic ecosystems, several considerations (e.g., the potential harmfulness of inner components in biochar, side effects of biochar on aquatic life, and tracking the fate of biochar in aquatic ecosystems) must be addressed. By addressing these concerns, we can expect to expand the practical application of biochar for remediation in aquatic environments, contributing to the effective management of pollutants.

Published

2024

8. Genetic variations and clinical features associated with burning sensation due to topical tacrolimus in patients with atopic dermatitis

Author

Ju Yeong Lee, Hyun Kang, Eunjung Kim, Shinae Noh, Hyeyoung Lee, and Eung Ho Choi

Subjects

atopic dermatitis, burning sensation, genetic variation, topical tacrolimus, Dermatology, RL1-803, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Topical tacrolimus has been used as one of the treatment options for atopic dermatitis (AD). A burning sensation is the most common side effect of topical tacrolimus. Objectives This study was designed to identify genetic variations and clinical features to predict burning sensation by topical tacrolimus in patients with AD. Methods Patients with AD who had applied topical tacrolimus were classified according to the presence of a burning sensation. We compared the patients' demographics and blood test results, including serum eosinophil, serum immunoglobulin E and multiple allergen simultaneous test. Furthermore, the frequency of variations in barrier‐ (KLK7, FLG 3321delA, FLG K4022X, SPINK5 1156, SPINK5 1188, SPINK5 2475) and immune response‐ (DEFB1, KDR, CDKAL1, IL‐5RA, IL‐9, IL‐12RB1, IL‐12RB2, IL‐17RA) related genes was compared between two groups by reverse blot hybridization assay of the buccal mucosa. Results Among 206 patients with AD using topical tacrolimus, 34 (16.5%) complained of a burning sensation. The burning sensation was associated with severe AD and a family history of atopic disease. Furthermore, with statistical significance, a heterozygous mutation in the filaggrin gene (FLG K4022X) was more frequent in AD patients with a burning sensation due to topical tacrolimus. However, no other significant genetic differences were observed between them. Conclusions A burning sensation caused by topical tacrolimus can be expected in AD patients with severe symptoms, a family history of atopy and a genetic variation such as FLG K4022X.

Published

2024

9. Effects of an extra-high slaughter weight and a low-lysine diet on growth and meat quality of finishing gilts

Author

Chul Young Lee, Eun-Yeong Lee, Tae-Whan Park, Yeon-Hae Jeong, Yu-Min Son, Sang-Hyon Oh, Seon-Tea Joo, and Jae-Cheol Jang

Subjects

Finishing gilt, Dietary lysine, Slaughter weight, Weight gain, Backfat thickness, Pork quality, Animal culture, SF1-1100

Abstract

The present study aimed to find out the feasibility of increasing the meat quality of finishing gilts by increasing their slaughter weight (SW) to an extra-high (XH) level and also by using a low-lysine (lys) diet in XH-weight pig production. Twenty-four gilts and eights barrows were divided into four treatments (T) by gender, SW, and diet: T1 (barrow; 116-kg SW; Medium [Med]-lys [0.80%] diet), T2 (gilt; 116-kg SW; Med-lys), T3 (gilt; XH [150 kg] SW; Med-lys), and T4 (gilt; XH SW, Low-lys [0.60%]). Growth performance from 85 kg of body weight to SW was measured only for T3 and T4. All animals were slaughtered at their target SW, followed by physicochemical analyses and sensory evaluation on the Longissimus lumborum muscle (LL). Average daily gain did not differ between T3 and T4. Dressing percentage was greater for T3 vs. T2. Backfat thickness was greater for T1 vs. T2 and T3 vs. T2, not being different between T3 and T4. The LL pH was lower and Warner-Bratzler Shear force value was greater for T3 vs. T2. Other physicochemical measurements including the intramuscular fat content were not different or different narrowly if different at all (p < 0.05) between T3 and T2 or T4, but not between T1 and T2. The percentages of major fatty acids including 16:0, 18:0, 18:1, and 18:2 in LL, which did not differ between T2 and T3, differed between T3 and T4 apparently resulting from a difference in composition of the ingredients of the two diets. The sensory texture score was greater for T3 vs. T2 in fresh LL; in cooked LL, juiciness and umami scores were greater for T3 vs. T2, flavor score being less for T4 vs. T3. The gender effects on physicochemical and sensory pork quality were small, if any. Overall, the meat quality of finishing gilts could be improved by increasing the SW to the XH level, but not by using the Low-lys diet, suggesting that it will be feasible to produce XH-weight market gilts if the increased meat quality can make up for the expected decrease in production efficiency accompanying the increased SW.

Published

2024

10. Deoxybouvardin-glucoside induces apoptosis in non-small cell lung cancer cells by targeting EGFR/MET and AKT signaling pathway

Author

Na Yeong Lee, Sang Hoon Joo, A-Young Nam, Seung-On Lee, Goo Yoon, Seung-sik Cho, Yung Hyun Choi, Jin Woo Park, and Jung-Hyun Shim

Subjects

deoxybouvardin glucoside, non-small cell lung cancer, egfr/met/akt, cell cycle, reactive oxygen species, apoptosis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Biology (General), QH301-705.5

Abstract

Non-small cell lung cancer (NSCLC) is a leading cause of cancer-related deaths worldwide. Its treatment is complicated due to the development of resistance to conventional chemotherapy and targeted therapy. Deoxybouvardin and related cyclic hexapeptides reportedly exhibit antitumor activities, but their mechanisms of action remain unclear. This study aimed to investigate the anticancer mechanisms of deoxybouvardin glucoside (DBG), a glucosidic form of deoxybouvardin from Rubia species, in gefitinib (GEF)-sensitive and -resistant NSCLC HCC827 cells. The effects of DBG treatment on cell proliferation were evaluated using a viability assay. The inhibitory effects of DBG treatment on the activities and phosphorylation of the protein kinases epidermal growth factor receptor (EGFR), MET, and AKTs were assessed using in vitro kinase assay and western blot, respectively. DBG treatment inhibited the growth of HCC827 cells in a concentration- and time-dependent manner. Results of in vitro kinase assay and western blotting showed that DBG treatment significantly inhibited the activities and phosphorylation of the protein kinases EGFR, MET, and AKT. Prediction using molecular docking showed that DBG is located in the ATP-binding pockets of these kinases, supporting the kinase inhibition by DBG treatment. Moreover, DBG treatment induced reactive oxygen species (ROS) generation and cell cycle arrest in the cells. The induction of apoptosis by DBG through caspase activation was confirmed by Z-VAD-FMK treatment. In summary, DBG treatment inhibited the growth of GEF-sensitive and -resistant NSCLC cells by targeting EGFR, MET, and AKTs. Moreover, it induced apoptosis by inducing ROS generation and caspase activation. These results indicate that DBG is a potential therapeutic agent for the treatment of GEF-resistant NSCLC.

Published

2024

11. Deoxybouvardin targets EGFR, MET, and AKT signaling to suppress non-small cell lung cancer cells

Author

A-Young Nam, Sang Hoon Joo, Quan T. Khong, Jisu Park, Na Yeong Lee, Seung-On Lee, Goo Yoon, Jin Woo Park, MinKyun Na, and Jung-Hyun Shim

Subjects

Deoxybouvardin, Reactive oxygen species, Non-small cell lung cancer, EGFR, MET, AKT, Medicine, Science

Abstract

Abstract Non-small cell lung cancer (NSCLC) remains a significant challenge, as it is one of the leading causes of cancer-related deaths, and the development of resistance to anticancer therapy makes it difficult to treat. In this study, we investigated the anticancer mechanism of deoxybouvardin (DB), a cyclic hexapeptide, in gefitinib (GEF)-sensitive and -resistant NSCLC HCC827 cells. DB inhibited the viability and growth of HCC827 cells in a concentration- and time-dependent manner. In vitro kinase assay showed DB inhibited epidermal growth factor receptor (EGFR), mesenchymal–epithelial transition (MET), and AKT, and their phosphorylation was suppressed in HCC827 cells treated with DB. A molecular docking model suggested that DB interacts with these kinases in the ATP-binding pockets. DB induces ROS generation and cell cycle arrest. DB treatment of HCC827 cells leads to mitochondrial membrane depolarization. The induction of apoptosis through caspase activation was confirmed by Z-VAD-FMK treatment. Taken together, DB inhibited the growth of both GEF-sensitive and GEF-resistant NSCLC cells by targeting EGFR, MET, and AKT and inducing ROS generation and caspase activation. Further studies on DB can improve the treatment of chemotherapy-resistant NSCLC through the development of effective DB-based anticancer agents.

Published

2024

12. Real Exchange Rate Misalignment and Economic Fundamentals in Korea

Author

Keun Yeong Lee

Subjects

real effective exchange rate misalignment, var, impulse response, rolling regressions, Economics as a science, HB71-74

Abstract

This study analyzes the response of economic fundamentals to a misalignment shock of the real effective exchange rate in Korea. The estimation results of the equilibrium exchange rate determination model and time series model show that there is no significant difference in the direction of the deviation from equilibrium and that the won is significantly undervalued during the period before 1988, or during the currency and global financial crises. The cumulative impulse response analysis of the VAR model over the full period shows that an upward shock to the deviation from the equilibrium exchange rate reduces the GDP gap and inflation rate, while the effect on the call rate is not statistically significant. Furthermore, an upward misalignment shock initially worsens the goods and services balance, but the deficit in the goods and services balance shrinks significantly over time. In rolling regressions analysis, the entire sample is divided into two periods to estimate the impulse response function from the first period, and then the same procedure is repeated by moving the sample forward one by one. The cumulative impulse response results show that, as is the case for the full period, a positive exchange rate misalignment shock initially reduces the GDP gap, inflation, and worsens the goods and services balance, but the impact of this upward shock on these variables becomes increasingly weaker in the more recent sample. It also shows that the negative impact of upward shocks on the current account is smoothed out more recently during periods of undervaluation than during periods of overvaluation.

Published

2024

13. Kalimate-Associated Gastric Ulcer

Author

Tae Yeong Lee, Jong Kyu Park, Sang Jin Lee, and Byeong-Joo Noh

Subjects

calcium polystyrene sulfonate, kalimate, gastric ulcer, renal failure, Internal medicine, RC31-1245

Abstract

Kalimate (calcium polystyrene sulfonate) is a cation-exchange resin commonly used in clinical practice to treat hyperkalemia. However, Kalimate has been demonstrated to also cause serious gastrointestinal injuries, such as colonic necrosis, ulcerations, and perforations, in a subset of patients with chronic renal failure; these cases have been reported with and without the administration of hypertonic sorbitol. These lesions usually occur in the large or small intestine; lesions occurring in the stomach are rarely reported. We present the case of a 62-year-old woman with very large Kalimate-induced gastric ulcers that were mistaken for advanced gastric cancer in patients with chronic renal failure who had been taking Kalimate for the previous 3 months. The patient was successfully treated by discontinuing Kalimate and initiating a proton pump inhibitor.

Published

2024

14. Synergistic enhancement of spinal fusion in preclinical models using low-dose rhBMP-2 and stromal vascular fraction in an injectable hydrogel composite

Author

Hye Yeong Lee, Seong Bae An, Sae Yeon Hwang, Gwang Yong Hwang, Hye-Lan Lee, Hyun Jung Park, Joongkyum Shin, Keung Nyun Kim, Sung Won Wee, Sol Lip Yoon, and Yoon Ha

Subjects

Injectable putty, Stromal vascular fraction, Low-dose recombinant human BMP-2, Osteodifferentiation and angiogenesis, Synergy, Spinal fusion surgery, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Spinal fusion surgery remains a significant challenge due to limitations in current bone graft materials, particularly in terms of bioactivity, integration, and safety. This study presents an innovative approach using an injectable hydroxyapatite/β-tricalcium phosphate (HA/β-TCP) hydrogel combined with stromal vascular fraction (SVF) and low-dose recombinant human BMP-2 (rhBMP-2) to enhance osteodifferentiation and angiogenesis. Through a series of in vitro studies and preclinical models involving rats and minipigs, we demonstrated that the hydrogel system enables the sustained release of rhBMP-2, resulting in significantly improved bone density and integration, alongside reduced inflammatory responses. The combination of rhBMP-2 and SVF in this injectable formulation yielded superior spinal fusion outcomes, with enhanced mechanical properties and increased bone mass in both small and large animal models. These findings suggest that this strategy offers a promising and safer alternative for spinal fusion, with strong potential for clinical application.

Published

2025

15. Revolutionizing cell-based protein: Innovations, market dynamics, and future prospects in the cultivated meat industry

Author

Abdul Samad, SoHee Kim, Chan Jin Kim, Eun-Yeong Lee, Swati Kumari, Md Jakir Hossain, AMM Nurul Alam, Ayesha Muazzam, Uzma Bilal, Young-Hwa Hwang, and Seon-Tea Joo

Subjects

Cultured meat, Challenges, Market opportunities, Methane emission, New technologies, Agriculture (General), S1-972, Nutrition. Foods and food supply, TX341-641

Abstract

The world's population is proliferating, and the growing population needs more food resources. Meat is one of the essential dietary components for humans, but the available meat resources are insufficient to fulfill consumers' demands. In this scenario, the meat alternative could be a sustainable resource for fulfilling the meat demand. Cultured meat is one of the best meat alternatives and also has the potential to fulfill the meat demand of the growing population. Cultured meat is produced by cultivating animal stem cells and allowing them to undergo a growth and division process that closely mimics the natural cellular development inside living organisms. The primary reasons behind cultured meat production are to minimize the environmental effect by reducing methane emissions, to minimize the meat cost so it will be economical for the consumer, and to provide antibiotic-free meat. This review explains cultured meat production and new technologies being introduced to create opportunities to improve the overall production of cultured meat. It also explores the cultured meat sector's market opportunities and challenges to the cultured meat industry.

Published

2024

16. Integrated battery thermal management and CO2 control in electric buses using recirculated air and waste heat recovery

Author

Min Gyu Choi, Mahdi Koushaeian, Abdullah, Jun Su Park, Hwa Yeong Lee, Jinyoung Chang, and Jae Dong Chung

Subjects

Electric bus, Thermal comfort, Carbon dioxide concentration, BTMS, Recirculation system, Technology

Abstract

In recent years, electric vehicles (EVs) have significantly progressed due to their environmental protection and energy-saving advantages. However, maintaining indoor thermal comfort and effective battery thermal management are critical considerations for EVs. Unlike conventional vehicles, EVs cannot use waste heat and depend on heat pump systems for winter heating and summer cooling. This research proposes a novel system to reduce the energy consumption of heat pump systems by using recirculated air while addressing the challenges of battery temperature management and maintaining safe CO2 concentrations in the cabin. The primary objectives of this research are threefold: first, to ensure passenger comfort through an integrated approach that includes cabin CO2 concentration safety; second, to recover heat from recirculated cabin air to save energy and control battery temperature; and third, to comprehensively analyze the performance of the Electric Vehicle Thermal Management System (EVTMS) using precise Computational Fluid Dynamics (CFD) analysis and mathematical modeling. This study will significantly enhance the understanding of energy consumption related to CO2 concentration control; an aspect previously overlooked in the literature. It will develop a battery temperature management strategy that leverages bus exhaust heat. These contributions will aid in achieving both passenger comfort and battery stability in electric buses, providing practical insights for the design and optimization of thermal management systems for future electric buses.

Published

2024

17. Instructor Teaching Experience with Online Distance Learning for Practical Design Courses after COVID-19

Author

Miha Kim and Dong-Yeong Lee

Abstract

Due to COVID-19, all classes in schools have been converted to distance learning using online platforms. However, various problems were raised when converting face-to-face classes to online distance learning. In particular, the difficulties were more pronounced for practical design courses because they include practical experience. In this context, this study focused on actual online distance learning classroom cases in design education. Based on the qualitative case study methodology, four instructors were interviewed about their experience with distance learning courses that actively utilized online platforms for college design courses as research cases. In design education, which aims at interdisciplinary and convergence thinking, online distance learning is meaningful in that it can expand experience and opportunities for the overall formative design through the development of technology. On the other hand, there are clear limitations in terms of practical production activities for existing online distance learning methods. Therefore, it is necessary to explore whether to develop classes based on the recently used effective activities or whether to find new strategies in the case that these limitations are fundamental to online distance learning. [For the complete proceedings, see ED639262.]

Published

2022

18. Gut microbiome perturbation and its correlation with tylosin pharmacokinetics in healthy and infected pigs

Author

Eon-Bee Lee, Ga-Yeong Lee, Md Akil Hossain, Elias Gebru Awji, and Seung-Chun Park

Subjects

Tylosin, Gut microbiota, Pharmacokinetics, Pharmacomicrobiomics, Actinobacillus pleuropneumoniae, Pasteurella multocida, Medicine, Science

Abstract

Abstract Tylosin, an antibiotic with a long history in treating respiratory bacterial infections, has unknown effects on the gut microbiota of healthy and infected pigs. The study aimed to investigate the effect of a therapeutic dose of tylosin on swine gut microbiota and explored the relationship between this effect and tylosin pharmacokinetics (PK). We also assessed whether changes in gut microbiota after tylosin administration differ between healthy animals (n = 7) and animals intranasally co-infected (n = 7) with Actinobacillus pleuropneumoniae and Pasteurella multocida. Both groups were intramuscularly administered with tylosin (20 mg/kg). The 16S rRNA gene analyses revealed a significantly lower species richness and diversity, after tylosin treatment, in the infected than the healthy pigs, with infected pigs having lower levels of Bacteroidetes and Firmicutes and higher levels of Proteobacteria. Greater tylosin exposure (greater area under curve (AUC) and maximum plasma concentration (Cmax), and slower elimination (longer terminal half-life, T1/2) were observed in healthy than infected pigs. Relative abundance of Lactobacillus, Oscillibacter, Prevotella, and Sporobacter was positively and significantly correlated with AUC and Cmax, whereas the abundance of Acinetobacter, Alishewanella, and Pseudomonas was positively and significantly correlated with T1/2 and mean residence time (MRT) of tylosin. Our findings, for the first time, demonstrated significant changes in swine gut microbiota after a single therapeutic dose of tylosin was administered, whereas the effect of these changes on tylosin PK was not evident.

Published

2024

19. Meat quality and safety issues during high temperatures and cutting-edge technologies to mitigate the scenario

Author

AMM Nurul Alam, Eun-Yeong Lee, Md Jakir Hossain, Abdul Samad, So-Hee Kim, Young-Hwa Hwang, and Seon-Tea Joo

Subjects

Heat stress, Meat quality, Muscle glycogen, Dry meat, Food safety, Cutting edge technology, Animal culture, SF1-1100

Abstract

Climate change, driven by the natural process of global warming, is a worldwide issue of significant concern because of its adverse effects on livestock output. The increasing trend of environmental temperature surging has drastically affected meat production and meat product quality, hence result in economic losses for the worldwide livestock business. Due to the increasing greenhouse gas emissions, the situation would get prolonged, and heat exposure-related stress is expected to worsen. Heat exposure causes metabolic and physiological disruptions in livestock. Ruminants and monogastric animals are very sensitive to heat stress due to their rate of metabolism, development, and higher production levels. Before slaughter, intense hot weather triggers muscle glycogen breakdown, producing pale, mushy, and exudative meat with less water-holding capacity. Animals exposed to prolonged high temperatures experience a decrease in their muscle glycogen reserves, producing dry, dark, and complex meat with elevated final pH and increased water-holding capacity. Furthermore, heat stress also causes oxidative stresses, especially secondary metabolites from lipid oxidation, severely affects the functionality of proteins, oxidation of proteins, decreasing shelf life, and food safety by promoting exfoliation and bacterial growth. Addressing the heat-related issues to retain the sustainability of the meat sector is an essential task that deserves an inclusive and comprehensive approach. Considering the intensity of the heat stress effects, this review has been designed primarily to examine the consequences of hot environment temperatures and related stresses on the quality and safety of meat and secondarily focus on cutting edge technology to reduce or alleviate the situational impact.

Published

2024

20. Predicting Mental Health Using Lifelog Data: Application of Median Resampling and Data Augmentation Techniques.

Author

Tae-Yeong Lee, Soon Ho Ha, and Hwa-Min Lee

Published

2024

21. Zero-Shot Estimation of Radial Distortion of Wide-Angle Camera.

Author

Jae-Yeong Lee

Published

2024

22. Unveiling Cas12j Trans‐Cleavage Activity for CRISPR Diagnostics: Application to miRNA Detection in Lung Cancer Diagnosis

Author

Ju‐Eun Kang, Hansol Kim, Young‐Hoon Lee, Ha‐Yeong Lee, Yeonkyung Park, Hyowon Jang, Jae‐Rin Kim, Min‐Young Lee, Byeong‐Ho Jeong, Ju‐Young Byun, Seung Jun Kim, Eun‐Kyung Lim, Juyeon Jung, Eui‐Jeon Woo, Taejoon Kang, and Kwang‐Hyun Park

Subjects

Cas12j, CRISPR, liquid biopsy, lung cancer, miRNA, Science

Abstract

Abstract Cas12j, a hypercompact and efficient Cas protein, has potential for use in CRISPR diagnostics, but has not yet been used because the trans‐cleavage activity of Cas12j is veiled. Here, the trans‐cleavage behavior of Cas12j1, 2, and 3 variants and evaluate their suitability for nucleic acid detection is unveiled. The target preferences and mismatch specificities of the Cas12j variants are precisely investigated and the optimal Cas12j reaction conditions are determined. As a result, the EXP‐J assay for miRNA detection by harnessing the robust trans‐cleavage activity of Cas12j on short ssDNA is developed. The EXP‐J method demonstrates exceptional detection capabilities for miRNAs, proving that Cas12j can be a pivotal component in molecular diagnostics. Furthermore, the translational potential of the EXP‐J assay is validated by detecting oncogenic miRNAs in plasma samples from lung cancer patients. This investigation not only elucidates the trans‐cleavage characteristics of Cas12j variants, but also advances the Cas12j‐based diagnostic toolkit.

Published

2024

23. Nosocomial transmission of fluconazole-resistant Candida glabrata bloodstream isolates revealed by whole-genome sequencing

Author

In Ji Hwang, Yong Jun Kwon, Ha Jin Lim, Ki Ho Hong, Hyukmin Lee, Dongeun Yong, Eun Jeong Won, Seung A. Byun, Ga Yeong Lee, Soo Hyun Kim, Eun Song Song, and Jong Hee Shin

Subjects

Candida glabrata, whole-genome sequencing, clonal transmission, fluconazole resistance, PDR1, multilocus sequence typing, Microbiology, QR1-502

Abstract

ABSTRACT The clonal transmission of fluconazole-resistant Candida glabrata isolates within hospitals has seldom been analyzed by whole-genome sequencing (WGS). We performed WGS on 79 C. glabrata isolates, comprising 31 isolates from three premature infants with persistent C. glabrata bloodstream infection despite antifungal treatment in the same neonatal intensive care unit (NICU) in 2022 and 48 (27 fluconazole-resistant and 21 fluconazole-susceptible dose-dependent) bloodstream isolates from 48 patients in 15 South Korean hospitals from 2010 to 2022. Phylogenetic analysis based on WGS single-nucleotide polymorphisms (SNPs) distinguished the 79 isolates according to multilocus sequence typing (MLST) (17 sequence type [ST]3, 13 ST7, two ST22, 41 ST26, four ST55, and two ST59 isolates) and unveiled two possible clusters of nosocomial transmission among ST26 isolates. One cluster from two premature infants with overlapping NICU hospitalizations in 2022 encompassed 15 fluconazole-resistant isolates harboring pleiotropic drug-resistance transcription factor (Pdr1p) P258L (13 isolates) or N1086I (two isolates), together with 10 fluconazole-susceptible dose-dependent isolates lacking Pdr1p SNPs. The other cluster indicated unforeseen clonal transmission of fluconazole-resistant bloodstream isolates among five patients (four post-lung transplantation and one with diffuse interstitial lung disease) in the same hospital over 8 months. Among these five isolates, four obtained after exposure to azole antifungals harbored distinct Pdr1p SNPs (N1091D, E388Q, K365E, and R376Q). The findings reveal the transmission patterns of clonal bloodstream isolates of C. glabrata among patients undergoing antifungal treatment, exhibiting different levels of fluconazole susceptibility or distinct Pdr1p SNP profiles.IMPORTANCEThe prevalence of fluconazole-resistant bloodstream infections caused by Candida glabrata is increasing globally, but the transmission of these resistant strains within hospitals has rarely been documented. Through whole-genome sequencing and epidemiological analyses, this study identified two potential clusters of C. glabrata bloodstream infections within the same hospital, revealing the transmission of clonal C. glabrata strains with different levels of fluconazole susceptibility or distinct transcription factor pleiotropic drug resistance protein 1 (Pdr1p) single-nucleotide polymorphism profiles among patients receiving antifungal therapy.

Published

2024

24. A study on k-walk generation algorithm to prevent the tottering in graph edit distance heuristic algorithms.

Author

SeongCheol Yoon, Daehee Seo, Su-Hyun Kim, and Im-Yeong Lee

Published

2025

25. Extrinsic hydrophobicity-controlled silver nanoparticles as efficient and stable catalysts for CO2 electrolysis

Author

Young-Jin Ko, Chulwan Lim, Junyoung Jin, Min Gyu Kim, Ji Yeong Lee, Tae-Yeon Seong, Kwan-Young Lee, Byoung Koun Min, Jae-Young Choi, Taegeun Noh, Gyu Weon Hwang, Woong Hee Lee, and Hyung-Suk Oh

Subjects

Science

Abstract

Abstract To realize economically feasible electrochemical CO2 conversion, achieving a high partial current density for value-added products is particularly vital. However, acceleration of the hydrogen evolution reaction due to cathode flooding in a high-current-density region makes this challenging. Herein, we find that partially ligand-derived Ag nanoparticles (Ag-NPs) could prevent electrolyte flooding while maintaining catalytic activity for CO2 electroreduction. This results in a high Faradaic efficiency for CO (>90%) and high partial current density (298.39 mA cm‒2), even under harsh stability test conditions (3.4 V). The suppressed splitting/detachment of Ag particles, due to the lipid ligand, enhance the uniform hydrophobicity retention of the Ag-NP electrode at high cathodic overpotentials and prevent flooding and current fluctuations. The mass transfer of gaseous CO2 is maintained in the catalytic region of several hundred nanometers, with the smooth formation of a triple phase boundary, which facilitate the occurrence of CO2RR instead of HER. We analyze catalyst degradation and cathode flooding during CO2 electrolysis through identical-location transmission electron microscopy and operando synchrotron-based X-ray computed tomography. This study develops an efficient strategy for designing active and durable electrocatalysts for CO2 electrolysis.

Published

2024

26. Pyrolysis temperature and time of rice husk biochar potentially control ammonia emissions and Chinese cabbage yield from urea-fertilized soils

Author

Yun-Gu Kang, Jin-Hyuk Chun, Yeo-Uk Yun, Jun-Yeong Lee, Jwakyung Sung, and Taek-Keun Oh

Subjects

Medicine, Science

Abstract

Abstract Current agricultural practices are increasingly favoring the biochar application to sequester carbon, enhance crop growth, and mitigate various environmental pollutants resulting from nitrogen (N) loss. However, since biochar’s characteristics can vary depending on pyrolysis conditions, it is essential to determine the optimal standard, as they can have different effects on soil health. In this study, we categorized rice husk biochars basis on their pH levels and investigated the role of each rice husk biochar in reducing ammonia (NH3) emissions and promoting the growth of Chinese cabbage in urea-fertilized fields. The findings of this study revealed that the variation in pyrolysis conditions of rice husk biochars and N rates affected both the NH3 emissions and crop growth. The neutral (pH 7.10) biochar exhibited effective NH3 volatilization reduction, attributed to its high surface area (6.49 m2 g−1), outperforming the acidic (pH 6.10) and basic (pH 11.01) biochars, particularly under high N rates (640 kg N ha−1). Chinese cabbage yield was highest, reaching 4.00 kg plant−1, with the basic biochar application with high N rates. Therefore, the neutral rice husk biochar effectively mitigate the NH3 emissions from urea-treated fields, while the agronomic performance of Chinese cabbage enhanced in all biochar amendments.

Published

2024

27. Exposure and risk assessment for agricultural workers during chlorothalonil and flubendiamide treatments in pepper fields

Author

Deuk-Yeong Lee, Jong-Wook Song, Ji-Young An, Yeong-Jin Kim, Jong-Su Seo, and Jong-Hwan Kim

Subjects

Agricultural workers, Acceptable operator exposure level, Chlorothalonil, Flubendiamide, Personal protective equipment, Risk assessment, Medicine, Science

Abstract

Abstract Pesticides are indispensable tools in modern agriculture for enhancing crop productivity. However, the inherent toxicity of pesticides raises significant concerns regarding human exposure, particularly among agricultural workers. This study investigated the exposure and associated risks of two commonly used pesticides in open-field pepper cultivation, namely, chlorothalonil and flubendiamide, in the Republic of Korea. We used a comprehensive approach, encompassing dermal and inhalation exposure measurements in agricultural workers during two critical scenarios: mixing/loading and application. Results revealed that during mixing/loading, dermal exposure to chlorothalonil was 3.33 mg (0.0002% of the total active ingredient [a.i.]), while flubendiamide exposure amounted to 0.173 mg (0.0001% of the a.i.). Conversely, dermal exposure increased significantly during application to 648 mg (chlorothalonil) and 93.1 mg (flubendiamide), representing 0.037% and 0.065% of the total a.i., respectively. Inhalation exposure was also evident, with chlorothalonil and flubendiamide exposure levels varying across scenarios. Notably, the risk assessment using the Risk Index (RI) indicated acceptable risk of exposure during mixing/loading but raised concerns during application, where all RIs exceeded 1, signifying potential risk. We suggest implementing additional personal protective equipment (PPE) during pesticide application, such as gowns and lower-body PPE, to mitigate these risks.

Published

2024

28. Taxonomic and Genomic Characterization of Niveibacterium terrae sp. nov., a New Species from Riparian Soil in the Seomjin River, Republic of Korea

Author

Ahyoung Choi, Sumin Jang, Soo-Yeong Lee, and Jaeduk Goh

Subjects

Niveibacterium terrae, novel species, phylogenetic analysis, genome sequence, comparative genomics, Biology (General), QH301-705.5

Abstract

A novel Gram stain-negative, rod-shaped, non-motile bacterium, designated strain 24SJ04S-2T, was isolated from riparian soil near the Seomjin River, Republic of Korea. Phylogenetic analysis based on the 16S rRNA gene sequence placed strain 24SJ04S-2T within the genus Niveibacterium in the family Zoogloeaceae, with high similarity to Niveibacterium umoris (97.3%) and Niveibacterium microcysteis (96.7%). Whole-genome sequencing revealed a genome size of 3.98 Mbp with a G+C content of 63.9 mol%, and genomic relatedness metrics confirmed that strain 24SJ04S-2T represents a novel species. The strain demonstrated unique growth characteristics, including tolerance to low salinity and a broad pH range (5.0 to 10.0), suggesting ecological adaptability to fluctuating riparian environments. Chemotaxonomic analysis identified ubiquinone-8 as the major quinone, with diphosphatidylglycerol, phosphatidylglycerol, and phosphatidylethanolamine as dominant polar lipids. Fatty acid profiling showed that summed feature 3 (C16:1ω7c and/or C16:1ω6c) and C16:0 were predominant. Genome analysis identified several biosynthetic gene clusters, including those potentially associated with antimicrobial and antioxidant compounds. Based on its distinct genomic and phenotypic characteristics, we propose the designation Niveibacterium terrae sp. nov. This discovery highlights the potential ecological and biotechnological roles of Niveibacterium terrae in nutrient cycling and environmental remediation in freshwater ecosystems. The type strain is 24SJ04S-2T (=KACC 23837T =FBCC-B16161T).

Published

2025

29. Gene Editing for Enhanced Swine Production: Current Advances and Prospects

Author

Won Seok Ju, Seokho Kim, Jae-Yeong Lee, Haesun Lee, Jingu No, Seunghoon Lee, and Keonbong Oh

Subjects

swine, CRISPR/Cas9 system, gene editing, next-generation sequencing, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Traditional pig breeding has improved production traits but faces limitations in genetic diversity, disease resistance, and environmental adaptation. Gene editing technologies, such as CRISPR/Cas9, base editing, and prime editing, enable precise genetic modifications, overcoming these limitations and expanding applications to biomedical research. Here, we reviewed the advancements in gene editing technologies in pigs and explored pathways toward optimized swine genetics for a resilient and adaptive livestock industry. This review synthesizes recent research on gene editing tools applied to pigs, focusing on CRISPR/Cas9 and its derivatives. It examines their impact on critical swine production traits and their role as human disease models. Significant advancements have been made in targeting genes for disease resistance, such as those conferring immunity to porcine reproductive and respiratory syndrome viruses. Additionally, gene-edited pigs are increasingly used as models for human diseases, demonstrating the technology’s broader applications. However, challenges such as off-target effects, ethical concerns, and varying regulatory frameworks remain. Gene editing holds substantial potential for sustainable and productive livestock production by enhancing key traits and supporting biomedical applications. Addressing technical and ethical challenges through integrated approaches will be essential to realize its full potential, ensuring a resilient, ethical, and productive livestock sector for future generations

Published

2025

30. Development and Application of Lactobacillus plantarum PSCPL13 Probiotics in Olive Flounder (Paralichthys olivaceus) Farming

Author

Muhammad Aleem Abbas, Hae-Jung Kim, Ga-Yeong Lee, Hae-Yeon Cho, Syed Al Jawad Sayem, Eon-Bee Lee, Seung-Jin Lee, and Seung-Chun Park

Subjects

fish probiotic, aquaculture, fish gut microbiota, fish nutrition, aquatic microorganisms, Lactobacillus plantarum, Biology (General), QH301-705.5

Abstract

Aquaculture has grown significantly, contributing to global food security and sustainability; however, intensified fish farming has increased disease susceptibility and antibiotic resistance. This study assessed the probiotic potential of Lactobacillus plantarum PSCPL13 (hereafter, PSCPL13), isolated from the intestines of Japanese eels, for enhancing the health of olive flounder. After screening 16 Lactobacillus isolates, PSCPL13 was selected because of its potential broad-spectrum antibacterial activity against many pathogens, such as Vibrio and Edwardsiella. This strain exhibited high acid and bile salt tolerance, which is crucial for intestinal survival. Molecular characterisation confirmed PSCPL13 to be L. plantarum. It was resistant to all tested antibiotics and exhibited significant enzyme activity. In vivo assays in olive flounder revealed that the body weight and length of the fish were significantly higher, while the prevalence of pathogens was lower in their gut microbiota. Regarding haematological parameters, the treated groups exhibited lower eosinophil counts and higher IgM levels, suggesting enhancement of the immune system. These findings indicate that PSCPL13 is a potential probiotic that can be used in aquaculture for naturally improving fish health, growth and immunity, in addition to combating antibiotic resistance and reducing environmental impacts. These findings not only highlight the potential of PSCPL13 in sustainable aquaculture but also provide a foundation for the development of future probiotics.

Published

2025

31. Pharmacodynamic Profiling of Amoxicillin: Targeting Multidrug-Resistant Gram-Positive Pathogens Staphylococcus aureus and Staphylococcus pseudintermedius in Canine Clinical Isolates

Author

Syed Al Jawad Sayem, Ga-Yeong Lee, Muhammad Aleem Abbas, Seung-Chun Park, and Seung-Jin Lee

Subjects

amoxicillin, Staphylococcus aureus, Staphylococcus pseudintermedius, minimal inhibitory concentration, time-kill assay, post-antibiotic effect, Therapeutics. Pharmacology, RM1-950

Abstract

The rising threat of antimicrobial resistance (AMR) is a global concern in both human and veterinary medicine, with multidrug-resistant (MDR) pathogens such as Staphylococcus aureus and Staphylococcus pseudintermedius presenting significant challenges. Background/Objectives: This study evaluates the effectiveness of amoxicillin against these MDR pathogens in canine isolates using pharmacokinetic and pharmacodynamic parameters. Methods: Minimum inhibitory concentration (MIC), minimum bactericidal concentration (MBC), and mutation prevention concentration (MPC) were assessed. Additionally, time-kill assays and post-antibiotic effect (PAE) assessments were performed. Epidemiological cutoff (ECOFF) values were established for both species to guide therapy. Results: S. aureus had a higher resistance rate (35.89%) than S. pseudintermedius (15.27%), with MIC50 values of 0.50 μg/mL and 0.25 μg/mL, respectively. The MPC analysis revealed that S. pseudintermedius required higher antibiotic concentrations (16.11 μg/mL) to prevent mutations compared to S. aureus (2.20 μg/mL). Time-kill assays indicated that higher amoxicillin dosages caused faster bacterial reduction. The PAE analysis showed extended post-treatment bacterial suppression at elevated doses, particularly against S. aureus. Conclusions: Species-specific amoxicillin dosing strategies are necessary due to differing resistance and susceptibility profiles between S. aureus and S. pseudintermedius. High-dose amoxicillin therapy is recommended to achieve optimal therapeutic outcomes for resistant SA, while slightly adjusted dosing can manage S. pseudintermedius infections. These findings provide essential insights for veterinary antimicrobial stewardship, underscoring the need for tailored therapeutic approaches to minimize AMR development while ensuring effective infection control.

Published

2025

32. Limonin Exhibits Anti-Inflammatory Effects by Inhibiting mTORC1 and Mitochondrial Reactive Oxygen Species in Psoriatic-like Skin Inflammation

Author

Seung Taek Lee, Jong Yeong Lee, Ha Eun Kim, Jun-Young Park, and Jin Kyeong Choi

Subjects

limonin, TPA, psoriasis, mitochondrial ROS, mTOR, AMPK, Therapeutics. Pharmacology, RM1-950

Abstract

Psoriasis is a chronic inflammatory skin disorder characterized by abnormal immune responses and keratinocyte hyperproliferation. Limonin, a bioactive compound found in citrus fruits, has anti-inflammatory properties in various models; however, its effects on psoriasis are not fully understood. We investigated the therapeutic potential of limonin in a 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced psoriasis mouse model. Mice were treated with TPA to induce psoriasis-like skin lesions, followed by intraperitoneal administration of limonin (200 or 400 μg/mouse) for six days. The results showed that limonin improved psoriasis-related symptoms in a psoriasis-like mouse model by suppressing the mRNA expression of pro-inflammatory cytokines and inflammation-related antimicrobial peptides and regulating the expansion of myeloid cells and T cells. Specifically, limonin reduced glucose uptake and oxidative phosphorylation to shift the metabolic program in the inflamed skin cells of psoriasis-like mice. Limonin activates AMPK and proteins related to mTOR inhibition, thereby suppressing the mTOR signaling pathway. It also inhibits mitochondrial mass and mitochondrial ROS production, thereby preventing the development of dysfunctional mitochondria in inflamed skin cells. Overall, limonin modulates key immune responses and metabolic pathways related to inflammation and mitochondrial health in psoriasis. Therefore, it is a promising natural candidate for the treatment of psoriasis and various inflammatory skin diseases.

Published

2024

33. The Classification of Metastatic Spine Cancer and Spinal Compression Fractures by Using CNN and SVM Techniques

Author

Woosik Jeong, Chang-Heon Baek, Dong-Yeong Lee, Sang-Youn Song, Jae-Boem Na, Mohamad Soleh Hidayat, Geonwoo Kim, and Dong-Hee Kim

Subjects

spine, compression fractures, CNNs, SVM, Otsu’s binarization algorithm, Canny edge algorithm, Technology, Biology (General), QH301-705.5

Abstract

Metastatic spine cancer can cause pain and neurological issues, making it challenging to distinguish from spinal compression fractures using magnetic resonance imaging (MRI). To improve diagnostic accuracy, this study developed artificial intelligence (AI) models to differentiate between metastatic spine cancer and spinal compression fractures in MRI images. MRI data from Gyeongsang National University Hospital, collected from January 2019 to April 2022, were processed using Otsu’s binarization and Canny edge detection algorithms. Using these preprocessed datasets, convolutional neural network (CNN) and support vector machine (SVM) models were built. The T1-weighted image-based CNN model demonstrated high sensitivity (1.00) and accuracy (0.98) in identifying metastatic spine cancer, particularly with data processed by Otsu’s binarization and Canny edge detection, achieving exceptional performance in detecting cancerous cases. This approach highlights the potential of preprocessed MRI data for AI-assisted diagnosis, supporting clinical applications in distinguishing metastatic spine cancer from spinal compression fractures.

Published

2024

34. Views Rather than Radiosity: A Study on Urban Cover View Factor Mapping and Utilization

Author

Seung Man An, Byungsoo Kim, Ho-Yeong Lee, Chae-Yeon Yi, Neelakshi Joshi, and Wolfgang Wende

Subjects

urban cover, tree canopy (TC), Unit Hemisphere, view factor (VF), airborne LiDAR 3DPCs, potential influence intensity grade (PIIG), Science

Abstract

Urban tree canopies are a vital component of green infrastructure, especially in the context of the accelerating urban heat island effect and global climate change. Quantifying urban canopy cover in relation to land use and land cover changes is therefore crucial. However, accurately evaluating visual changes remains a challenge. In this study, we introduced the Urban Cover View Factor (VF) and Potential Influence Intensity Grade (PIIG) for tree canopy (TC) mapping using airborne Light Detection and Ranging (LiDAR) remote-sensing three-dimensional point clouds (3DPCs) from the Incheon metropolitan area, South Korea. The results demonstrated that airborne LiDAR 3DPCs effectively segmented non-sky urban cover views. Furthermore, the PIIG map, derived from the TC VF map, showed a significant correlation between surface heat risks and energy consumption patterns. Areas with lower PIIG grades tended to have higher energy consumption and greater vulnerability to surface heat risks, while areas with higher PIIG grades exhibited the opposite trend. Nevertheless, further exploration of complex urban cover and the collection of sufficient ground-based evidence is crucial for practical PIIG application. Further remote sensing research should support the management of urban tree canopies and urban agriculture to promote sustainable urban greening in response to evolving environmental needs.

Published

2024

35. Programmable DNA-based nanostructure sensors for mutation detection coupled with asymmetric amplification in precision genome profiling

Author

Yeong Lee, Eun, Gyu Kim, Myoung, Joo Lee, Hyo, Roh, Yeonjeong, Lee, Minju, Qiao, Zhen, Koo, Bonhan, Liu, Huifang, Lim, Seok-Byung, and Shin, Yong

Published

2024

36. Phase Offset Aided Index Modulation for UCA-Based OAM Communication.

Author

Hye Yeong Lee, Man Hee Lee, and Soo Young Shin

Published

2024

37. Multiple Reconfigurable Intelligent Surface-Based Index Modulation With Optimal Combination.

Author

Nadhira Azizah Suwanda, Hye Yeong Lee, and Soo Young Shin

Published

2024

38. Two-Stage Fault Classification Algorithm for Real Fault Data in Transmission Lines.

Author

Se-Heon Lim, Taegeun Kim, Kyeong-Yeong Lee, Kyung-Min Song, and Sung-Guk Yoon

Published

2024

39. Comparison of the Accuracy of Generator Dynamic State Estimation Based on the Treatment of the Governor-Turbine Mechanical Power.

Author

Jin Kwon Hwang, Sung-Guk Yoon, and Kyeong-Yeong Lee

Published

2024

40. Data Access Control for Secure Authentication Using Dual VC Scheme Based on CP-ABE in DID.

Author

Taehoon Kim, Yong-Woon Hwang, Daehee Seo, and Im-Yeong Lee

Published

2024

41. A study on dynamic group signature scheme with threshold traceability for blockchain

Author

Hyo-jin Song, Teahoon Kim, Yong-Woon Hwang, Daehee Seo, and Im-Yeong Lee

Subjects

Blockchain, Group signature, Privacy, Anonymity, Traceability, Electronic computers. Computer science, QA75.5-76.95

Abstract

Blockchain technology provides transparency and reliability by sharing transactions and maintaining the same information through consensus among all participants. However, single-signature applications in transactions can lead to user identification issues due to the reuse of public keys. To address this issue, group signatures can be used, where the same group public key is used to verify signatures from group members to provide anonymity to users. However, in dynamic groups where membership may change, an attack can occur where a user who has left the group can disguise themselves as a group member by leaking a partial key. This problem cannot be traced back to the partial key leaker. In this paper, we propose assigning different partial keys to group members to trace partial key leakers and partially alleviate the damage caused by partial key leaks. Exist schemes have shown that arbitrary tracing issues occurred when a single administrator had exclusive key generation and tracing authority. This paper proposes a group signature scheme that solves the synchronization problem by involving a threshold number of TMs while preventing arbitrary tracing by distributing authority among multiple TMs.

Published

2024

42. Effect of Abiotic Signals on the Accumulation of Saponarin in Barley Leaves in Hydroponics Under Artificial Lights

Author

Deuk-Yeong Lee, Sang-Woo Kang, Jin-Seong Kim, Ji-Yeon Bae, Haeng-Lim Lee, HanGyeol Lee, Woo-Duck Seo, Yu-Sin Jang, and Jin-Hyo Kim

Subjects

Chemistry, QD1-999

Published

2024

43. Distant migration of copolyamide breast filler following mammography: a case report

Author

Hyeon Min Yoon, Woo Jin Song, Chan Yeong Lee, and Sang Gue Kang

Subjects

breast, early detection of cancer, foreign-body migration, mammography, case reports, Surgery, RD1-811

Abstract

Copolyamide fillers, such as Aquafilling, have been used off-label for breast augmentation in many countries, including Korea. However, safety concerns have arisen due to reported complications, including induration, masses, mastalgia, firmness, asymmetry, migration, infection, and dimpling. We report the case of a 33-year-old woman who presented with distant migration of copolyamide breast filler to the left lower abdomen and inguinal area following mammography for breast cancer screening. This case highlights the potential risks associated with the migration of copolyamide breast fillers, particularly in the context of cancer screening procedures, and emphasizes the importance of awareness and vigilance among clinicians and patients.

Published

2024

44. Kv3.4 regulates cell migration and invasion through TGF-β-induced epithelial–mesenchymal transition in A549 cells

Author

Hun Ju Sim, Mi Ri Kim, Min Seok Song, and So Yeong Lee

Subjects

Medicine, Science

Abstract

Abstract Epithelial–mesenchymal transition (EMT) is the process by which epithelial cells acquire mesenchymal characteristics. This process induces cell migration and invasion, which are closely related to cancer metastasis and malignancy. EMT consists of various intermediate states that express both epithelial and mesenchymal traits, called partial EMT. Recently, several studies have focused on the roles of voltage-gated potassium (Kv) channels associated with EMT in cancer cell migration and invasion. In this study, we demonstrate the relationship between Kv3.4 and EMT and confirm the effects of cell migration and invasion. With TGF-β treatment, EMT was induced and Kv3.4 was also increased in A549 cells, human lung carcinoma cells. The knockdown of Kv3.4 blocked the EMT progression reducing cell migration and invasion. However, the Kv3.4 overexpressed cells acquired mesenchymal characteristics and increased cell migration and invasion. The overexpression of Kv3.4 also has a synergistic effect with TGF-β in promoting cell migration. Therefore, we conclude that Kv3.4 regulates cancer migration and invasion through TGF-β-induced EMT and these results provide insights into the understanding of cancer metastasis.

Published

2024

45. Divergence intensity and mode combinations for multiple orbital angular momentum transmission

Author

Man Hee Lee, Hye Yeong Lee, and Soo Young Shin

Subjects

B5G/6G wireless communication, Divergence intensity (DI), Uniform circular array (UCA), Orbital angular momentum (OAM), Capacity, Information technology, T58.5-58.64

Abstract

In this paper, we propose divergence intensity (DI) and mode combinations for multiple orbital angular momentum (OAM) users to enhance the sum capacity. Generally, OAM multiplexing has beam divergence (BD) limiting the achievable link distance and degrading performance. The effective OAM channel model implies DI which is considered as intensity of OAM mode. In addition, the near–far mode combination is recommended to be sub-optimal compared with different mode combinations which types are sequential and uniform. The sub-optimal mode combination outperforms the other two mode combinations because channel gain shares the DI effect. The performance of the proposed scheme is derived and simulated in terms of normalized DI, capacity per user, and sum capacity.

Published

2023

46. Usefulness of glycated albumin level as a glycemic index complementing glycosylated hemoglobin in diabetic children and adolescents

Author

Young Ju Choi, Na Yeong Lee, Moon Bae Ahn, Shin Hee Kim, Won Kyoung Cho, Kyoung Soon Cho, Min Ho Jung, and Byung-Kyu Suh

Subjects

glycated albumin, glycosylated hemoglobin, diabetes mellitus, Pediatrics, RJ1-570

Abstract

Purpose Glycated albumin (GA) is a glycemic marker reflecting the average serum glucose of the previous 2 weeks. This study aimed to evaluate the usefulness of GA as a glycemic index to complement glycosylated hemoglobin (HbA1c) in children and adolescents. Methods Fifty-four children and adolescents with diabetes mellitus (DM) and 97 children and adolescents without DM (NDM) were enrolled. The correlation between mean blood glucose (MG) and GA compared to HbA1c was investigated in the DM group. The correlation between fasting glucose (FG) and GA compared to HbA1c was investigated in the NDM group. Factors affecting GA, HbA1c, and GA/HbA1c were analyzed. Results In the DM group, positive correlations were observed between MG and GA (P=0.003), between MG and HbA1c (P=0.001), and between GA and HbA1c (P

Published

2023

47. A genomic estimated breeding value-assisted reduction method of single nucleotide polymorphism sets: a novel approach for determining the cutoff thresholds in genome-wide association studies and best linear unbiased prediction

Author

Young-Sup Lee, Jae-Don Oh, Jun-Yeong Lee, and Donghyun Shin

Subjects

Correlation difference (CD), genomic estimated breeding value (GEBV)-assisted reduction method of SNP set (GARS), landrace pigs, prediction ability (PA), Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

ABSTRACTTraditionally, the p-value is the criterion for the cutoff threshold to determine significant markers in genome-wide association studies (GWASs). Choosing the best subset of markers for the best linear unbiased prediction (BLUP) for improved prediction ability (PA) has become an interesting issue. However, when dealing with many traits having the same marker information, the p-values’ themselves cannot be used as an obvious solution for having a confidence in GWAS and BLUP. We thus suggest a genomic estimated breeding value-assisted reduction method of the single nucleotide polymorphism (SNP) set (GARS) to address these difficulties. GARS is a BLUP-based SNP set decision presentation. The samples were Landrace pigs and the traits used were back fat thickness (BF) and daily weight gain (DWG). The prediction abilities (PAs) for BF and DWG for the entire SNP set were 0.8 and 0.8, respectively. By using the correlation between genomic estimated breeding values (GEBVs) and phenotypic values, selecting the cutoff threshold in GWAS and the best SNP subsets in BLUP was plausible as defined by GARS method. 6,000 SNPs in BF and 4,000 SNPs in DWG were considered as adequate thresholds. Gene Ontology (GO) analysis using the GARS results of the BF indicated neuron projection development as the notable GO term, whereas for the DWG, the main GO terms were nervous system development and cell adhesion.

Published

2023

48. Design of Nanocrystalline Suspension of Dutasteride for Intramuscular Prolonged Delivery

Author

Min Young Jeong, Doe Myung Shin, Min Kyeong Kwon, Ye Bin Shin, Jun Soo Park, In Gyu Yang, Jin Hyuk Myung, Dong Geon Lee, Gi Yeong Lee, Chae Won Park, Ji Won Yeo, Myoung Jin Ho, Yong Seok Choi, and Myung Joo Kang

Subjects

dutasteride, nanocrystalline suspension, long-acting injectable, pharmacokinetics, histopathology, Chemistry, QD1-999

Abstract

The aim of the study is to formulate an injectable nanocrystalline suspension (NS) of dutasteride (DTS), a hydrophobic 5α-reductase inhibitor used to treat benign prostatic hyperplasia and scalp hair loss, for parenteral long-acting delivery. A DTS-loaded NS (DTS-NS, 40 mg/mL DTS) was prepared using a lab-scale bead-milling technique. The optimized DTS-NS prepared using Tween 80 (0.5% w/v) as a nano-suspending agent, was characterized as follows: rod/rectangular shape; particle size of 324 nm; zeta potential of −11 mV; and decreased drug crystallinity compared with intact drug powder. The DTS-NS exhibited a markedly protracted drug concentration-time profile following intramuscular injection, reaching a maximum concentration after 8.40 days, with an elimination half-life of 9.94 days in rats. Histopathological observations revealed a granulomatous inflammatory response at the injection site 7 days after intramuscular administration, which significantly subsided by day 14 and showed minimal inflammation by day 28. These findings suggest that the nanosuspension system is a promising approach for the sustained release parenteral DTS delivery, with a protracted pharmacokinetic profile and tolerable local inflammation.

Published

2024

49. Chicken Embryo Fibroblast Viability and Trans-Differentiation Potential for Cultured Meat Production Across Passages

Author

So-Hee Kim, Chan-Jin Kim, Eun-Yeong Lee, Young-Hwa Hwang, and Seon-Tea Joo

Subjects

chicken embryo fibroblast, cultured fat, cultured meat, adipogenic trans-differentiation, adipocyte, primary fibroblast, Cytology, QH573-671

Abstract

This study was conducted to analyze the viability of primary chicken embryo fibroblasts and the efficiency of adipogenic trans-differentiation for cultured meat production. In isolating chicken embryo fibroblasts (CEFs) from a heterogeneous cell pool containing chicken satellite cells (CSCs), over 90% of CEFs expressed CD29 and vimentin. The analysis of the proliferative capabilities of CEFs revealed no significant differences in EdU-positive cells (%), cumulative cell number, doubling time, and growth rate from passage 1 to passage 9 (p > 0.05). This indicates that CEFs can be isolated by 2 h of pre-plating and survive stably up to passage 9, and that primary fibroblasts can serve as a valuable cell source for the cultured meat industry. Adipogenic trans-differentiation was induced up to passage 9 of CEFs. As passages increased, lipid accumulation and adipocyte size significantly decreased (p < 0.05). The reduced differentiation rate of primary CEFs with increasing passages poses a major challenge to the cost and efficiency of cultured meat production. Thus, effective cell management and the maintenance of cellular characteristics for a long time are crucial for ensuring stable and efficient cultured fat production in the cultured meat industry.

Published

2024

50. Functional trait dataset of benthic macroinvertebrates in South Korean streams

Author

Sagar Adhurya, Da-Yeong Lee, Dae-Seong Lee, and Young-Seuk Park

Subjects

Science

Abstract

Abstract Functional traits are the result of evolution and adaptation, providing important ecological insights into how organisms interact with their environment. Benthic macroinvertebrates, in particular, have garnered attention as biomonitoring indicators for freshwater ecosystems. This study presents a functional trait dataset for benthic macroinvertebrates, comprising 447 taxa (393 at genus level, 53 at family level and one at class level) from five phyla (Annelida, Arthropoda, Mollusca, Nematomorpha, and Platyhelmenthes), categorized into nine traits related to life history, morphology, and habit. To account for variation in available trait information, we assigned confidence levels to each taxon and functional trait based on the level of evidence using fuzzy coding. Our dataset provides an important resource for understanding the ecology of benthic macroinvertebrates in South Korea, serving as a valuable baseline dataset for studying their biodiversity, conservation, and biomonitoring in freshwater ecosystems.

Published

2023