Your search keyword '"Sanghyeon Lee"' showing total 143 results

1. Stretchable Ag2Se Thermoelectric Fabric with Simple and Nonthermal Fabrication for Wearable Electronics

Author

Chaebeen Kwon, Sanghyeon Lee, Chihyeong Won, Kyu Hyoung Lee, Byeonggwan Kim, Sungjoon Cho, and Taeyoon Lee

Subjects

energy generator, pressure sensor, silver selenide, strain sensor, temperature sensor, thermoelectric fabric, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

As the field of wearable electronics continues to expand, the integration of inorganic thermoelectric (TE) materials into fabrics has emerged as a promising development due to their excellent TE properties. However, conventional thermal methods for fabricating TE fabrics are unsuitable for wearable applications because of their high temperatures, resulting in rigid TE materials. Herein, a nonthermally fabricated silver selenide (Ag2Se) TE fabric is developed that can be effectively integrated into wearable applications. Ag2Se nanoparticles are densely formed within the fabric through a simple in situ chemical reduction process, resulting in remarkable electrical stability even after 10 000 cycles of mechanical deformation, such as stretching and compression. Notably, the fabricated Ag2Se TE fabric exhibits superior stretchability, stretching ≈1.36 times more than the thermally treated Ag2Se TE fabrics, while retaining its excellent electrical conductivity. Moreover, the TE unit exhibits 9.80 μW m−1 K−2 power factor, 134.45 S cm−1 electrical conductivity, and −26.98 μV K−1 Seebeck coefficient at 370 K. A haptic sensing glove based on the Ag2Se TE fabric as a sensor for detecting potential hazards is demonstrated. The glove effectively distinguishes between simple touch, physical pain, and high‐temperature hazards, ensuring user safety and prompt response.

Published

2024

2. Lateral Graft Failure Resulted In Graft Volume Loss And Poor Clinical Outcomes Compared With Medial Failure After Superior Capsule Reconstruction

Author

Sanghyeon Lee and Sang-Jin Shin

Subjects

Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Published

2024

3. Changes in postural stability after cerebrospinal fluid tap test in patients with idiopathic normal pressure hydrocephalus

Author

Eunhee Park, Sanghyeon Lee, Tae-Du Jung, Ki-Su Park, Jong Taek Lee, and Kyunghun Kang

Subjects

normal pressure hydrocephalus, postural balance, spinal puncture, center of pressure, balance (static), Neurology. Diseases of the nervous system, RC346-429

Abstract

IntroductionIn patients with idiopathic normal pressure hydrocephalus (iNPH), the characteristics of balance disturbance are not as well understood as those related to gait. This study examined changes in postural stability in quiet standing after the cerebrospinal fluid tap test (CSFTT) in these patients. Furthermore, the study explored the relationship between the amount of spontaneous body sway and both gait and executive function.Materials and methodsAll patients diagnosed with iNPH underwent CSFTT. We evaluated their center of pressure (COP) measurements on a force plate during quiet standing, both pre- and post-CSFTT. Following the COP measurements, we calculated COP parameters using time and frequency domain analysis and assessed changes in these parameters after CSFTT. At pre-CSFTT, we assessed the Timed Up and Go (TUG) and the Frontal Assessment Battery (FAB). We investigated the relationship between COP parameters and the TUG and FAB scores at pre-CSFTT.ResultsA total of 72 patients with iNPH were initially enrolled, and 56 patients who responded positively to CSFTT were finally included. Post-CSFTT, significant improvements were observed in COP parameters through time domain analysis. These included the velocity of COP (vCOP), root-mean-square of COP (rmsCOP), turn index, torque, and base of support (BOS), compared to the pre-CSFTT values (p

Published

2024

4. Increased Susceptibility to Mechanical Stretch Drives the Persistence of Keloid Fibroblasts: An Investigation Using a Stretchable PDMS Platform

Author

Jihee Kim, Chihyeong Won, Seoyoon Ham, Heetak Han, Sungsik Shin, Jieun Jang, Sanghyeon Lee, Chaebeen Kwon, Sungjoon Cho, Hyeonjoo Park, Dongwon Lee, Won Jai Lee, Taeyoon Lee, and Ju Hee Lee

Subjects

keloid, fibroblast, mechanosensitivity, polydimethylsiloxane, Biology (General), QH301-705.5

Abstract

Background: Keloids are a common fibrotic disease of the skin, with the pathological hallmark of excessive extracellular matrix synthesis due to abnormal fibroblast activity. Since keloids clinically arise in areas of high mechanical tension, the mechanotransductory pathway may be attributed to its pathogenesis. We aimed to establish a preclinical platform to elucidate the underlying mechanism of keloid development and its clinical persistence. Methods: We fabricated a mechanically stretchable polydimethylsiloxane cell culture platform; with its mimicry of the in vivo cyclic stretch of skeletal muscles, cells showed higher proliferation compared with conventional modalities. Results: In response to mechanical strain, TGF-β and type 1 collagen showed significant increases, suggesting possible TGF-β/Smad pathway activation via mechanical stimulation. Protein candidates selected by proteomic analysis were evaluated, indicating that key molecules involved in cell signaling and oxidative stress were significantly altered. Additionally, the cytoskeletal network of keloid fibroblasts showed increased expression of its components after periodic mechanical stimulation. Conclusions: Herein, we demonstrated and validated the existing body of knowledge regarding profibrotic mechanotransduction signaling pathways in keloid fibroblasts. Cyclic stretch, as a driving force, could help to decipher the tension-mediated biomechanical processes, leading to the development of optimized therapeutic targets.

Published

2024

5. The Effect of Denosumab on Rotator Cuff Repair in Women Aged 60 and over with Osteoporosis: A Prospective Observational Study

Author

Ki-Tae Kim, Sanghyeon Lee, Ho-Won Lee, Shi-Hyun Kim, and Yong-Beom Lee

Subjects

rotator cuff tear, re-tear, osteoporosis, shoulder arthroscopy, bone marrow density, Biology (General), QH301-705.5

Abstract

Background: In previous studies, denosumab, a RANKL human monoclonal antibody used in osteoporosis treatment, has shown efficacy in tendon healing after rotator cuff repair. This prospective study investigated the effects of denosumab on tendon healing, re-tear rates, and clinical outcomes post rotator cuff repair in women with osteoporosis. Method: This was a prospective, observational study, employing propensity score matching for the control group. From March 2018 to March 2023, female patients over the age of 60 with normal bone density undergoing arthroscopic rotator cuff repair were selected as controls through propensity score matching (PSM) and compared with female patients of the same age group with osteoporosis who were receiving denosumab treatment. The control group was matched using 1-to-2 propensity score matching. Radiological examinations and functional outcomes were assessed preoperatively and at 6 months postoperatively. Results: In the final analysis, the study comprised 34 patients in the denosumab treatment group (Group 1) and 68 patients in the control group (Group 2). The functional scores showed significant improvement at 6 months post-surgery in both groups. No significant difference in the functional scores was observed among the groups. The re-tear rate, defined according to Sugaya’s classification (types IV and V) as re-tear, was slightly higher in Group 1 at 16.7% (6 of 34) compared to Group 2 at 11.7% (8 of 68), but the difference was not statistically significant (p = 0.469). The re-tear patterns, classified according to Rhee’s classification, also showed no significant difference among the groups (Group 1: 2/4 of 6; Group 2: 4/4 of 8; p = 0.571). The occurrence of type I re-tear exhibited no significant difference between the two groups (5.9% vs. 5.9%; p = 1.000). Conclusions: The administration of denosumab following arthroscopic rotator cuff repair in women aged 60 and over with osteoporosis resulted in a re-tear rate that was similar to that observed in patients without osteoporosis. This result suggests that denosumab administration might be beneficial for rotator cuff healing, particularly in the context of osteoporosis, a known risk factor for increased retear rates. Therefore, comprehensive osteoporosis screening and treatment should be considered in conjunction with rotator cuff repair surgery in middle-aged women.

Published

2024

6. Circular active noise barrier using theoretical control filter considering interaction between speaker and barrier

Author

Sanghyeon Lee and Youngjin Park

Subjects

Medicine, Science

Abstract

Abstract A circular active noise barrier using a theoretically calculated control filter without real-time adaptation was proposed for noise reduction in a specific outdoor space. A compact circular barrier is used for the movable system to cope with changes in the location of the workspace, and noise in a wide frequency band can be reduced by conducting active noise control through control speakers arranged around a barrier. However, there was a significant performance gap compared with the maximum performance achieved by using the experimental fixed filter due to an extremely simplified theoretical model which ignores the interaction between the control speakers and the barrier. Therefore, this study tried to minimize the performance degradation when applying the theoretically calculated control filter. Another theoretical model is introduced to improve the noise reduction performance by considering the interaction between the control speaker and the barrier. Through experiment, it is confirmed that noise reduction performance is improved by about 2.6 dB in the frequency of interest.

Published

2023

7. 3D-printed NiFe-layered double hydroxide pyramid electrodes for enhanced electrocatalytic oxygen evolution reaction

Author

Jinhyuck Ahn, Yoo Sei Park, Sanghyeon Lee, Juchan Yang, Jaeyeon Pyo, Jooyoung Lee, Geul Han Kim, Sung Mook Choi, and Seung Kwon Seol

Subjects

Medicine, Science

Abstract

Abstract Electrochemical water splitting has been considered one of the most promising methods of hydrogen production, which does not cause environmental pollution or greenhouse gas emissions. Oxygen evolution reaction (OER) is a significant step for highly efficient water splitting because OER involves the four electron transfer, overcoming the associated energy barrier that demands a potential greater than that required by hydrogen evolution reaction. Therefore, an OER electrocatalyst with large surface area and high conductivity is needed to increase the OER activity. In this work, we demonstrated an effective strategy to produce a highly active three-dimensional (3D)-printed NiFe-layered double hydroxide (LDH) pyramid electrode for OER using a three-step method, which involves direct-ink-writing of a graphene pyramid array and electrodeposition of a copper conducive layer and NiFe-LDH electrocatalyst layer on printed pyramids. The 3D pyramid structures with NiFe-LDH electrocatalyst layers increased the surface area and the active sites of the electrode and improved the OER activity. The overpotential (η) and exchange current density (i 0 ) of the NiFe-LDH pyramid electrode were further improved compared to that of the NiFe-LDH deposited Cu (NiFe-LDH/Cu) foil electrode with the same base area. The 3D-printed NiFe-LDH electrode also exhibited excellent durability without potential decay for 60 h. Our 3D printing strategy provides an effective approach for the fabrication of highly active, stable, and low-cost OER electrocatalyst electrodes.

Published

2022

8. Unraveling the dynamic importance of county-level features in trajectory of COVID-19

Author

Qingchun Li, Yang Yang, Wanqiu Wang, Sanghyeon Lee, Xin Xiao, Xinyu Gao, Bora Oztekin, Chao Fan, and Ali Mostafavi

Subjects

Medicine, Science

Abstract

Abstract The objective of this study was to investigate the importance of multiple county-level features in the trajectory of COVID-19. We examined feature importance across 2787 counties in the United States using data-driven machine learning models. Existing mathematical models of disease spread usually focused on the case prediction with different infection rates without incorporating multiple heterogeneous features that could impact the spatial and temporal trajectory of COVID-19. Recognizing this, we trained a data-driven model using 23 features representing six key influencing factors affecting the pandemic spread: social demographics of counties, population activities, mobility within the counties, movement across counties, disease attributes, and social network structure. Also, we categorized counties into multiple groups according to their population densities, and we divided the trajectory of COVID-19 into three stages: the outbreak stage, the social distancing stage, and the reopening stage. The study aimed to answer two research questions: (1) The extent to which the importance of heterogeneous features evolved at different stages; (2) The extent to which the importance of heterogeneous features varied across counties with different characteristics. We fitted a set of random forest models to determine weekly feature importance. The results showed that: (1) Social demographic features, such as gross domestic product, population density, and minority status maintained high-importance features throughout stages of COVID-19 across 2787 studied counties; (2) Within-county mobility features had the highest importance in counties with higher population densities; (3) The feature reflecting the social network structure (Facebook, social connectedness index), had higher importance for counties with higher population densities. The results showed that the data-driven machine learning models could provide important insights to inform policymakers regarding feature importance for counties with various population densities and at different stages of a pandemic life cycle.

Published

2021

9. Effects of population co-location reduction on cross-county transmission risk of COVID-19 in the United States

Author

Chao Fan, Sanghyeon Lee, Yang Yang, Bora Oztekin, Qingchun Li, and Ali Mostafavi

Subjects

Population co-location, Social distancing, COVID-19, Human mobility, Pandemic, Applied mathematics. Quantitative methods, T57-57.97

Abstract

Abstract The objective of this study is to examine the transmission risk of COVID-19 based on cross-county population co-location data from Facebook. The rapid spread of COVID-19 in the United States has imposed a major threat to public health, the real economy, and human well-being. With the absence of effective vaccines, the preventive actions of social distancing, travel reduction and stay-at-home orders are recognized as essential non-pharmacologic approaches to control the infection and spatial spread of COVID-19. Prior studies demonstrated that human movement and mobility drove the spatiotemporal distribution of COVID-19 in China. Little is known, however, about the patterns and effects of co-location reduction on cross-county transmission risk of COVID-19. This study utilizes Facebook co-location data for all counties in the United States from March to early May 2020 for conducting spatial network analysis where nodes represent counties and edge weights are associated with the co-location probability of populations of the counties. The analysis examines the synchronicity and time lag between travel reduction and pandemic growth trajectory to evaluate the efficacy of social distancing in ceasing the population co-location probabilities, and subsequently the growth in weekly new cases across counties. The results show that the mitigation effects of co-location reduction appear in the growth of weekly new confirmed cases with one week of delay. The analysis categorizes counties based on the number of confirmed COVID-19 cases and examines co-location patterns within and across groups. Significant segregation is found among different county groups. The results suggest that within-group co-location probabilities (e.g., co-location probabilities among counties with high numbers of cases) remain stable, and social distancing policies primarily resulted in reduced cross-group co-location probabilities (due to travel reduction from counties with large number of cases to counties with low numbers of cases). These findings could have important practical implications for local governments to inform their intervention measures for monitoring and reducing the spread of COVID-19, as well as for adoption in future pandemics. Public policy, economic forecasting, and epidemic modeling need to account for population co-location patterns in evaluating transmission risk of COVID-19 across counties.

Published

2021

10. Resource-Optimized Design of Bit-Shuffle Block Coding for MIMO-VLC

Author

Youngsun Han, Sanghyeon Lee, Byung Wook Kim, and Yongtae Kim

Subjects

Multiple-input multiple-output (MIMO), visible light communication (VLC), run-length-limited (RLL) codes, hardware resource optimization, bit-shuffling, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Designing a run-length-limited (RLL) code for a visible light communication (VLC) system requires consideration of several performance factors including hardware overhead, transmission efficiency, and direct current (DC) balance. This paper proposes a novel RLL code called bit-shuffle block codes for high-rate multiple-input multiple-output (MIMO)-VLC systems that can offer excellent constant illumination and transmission efficiency with extensively-optimized hardware resources. Due to the structure of the Omega network, the proposed bit-shuffle block coding method can increase transmission efficiency and significantly reduce hardware overhead. In addition, it can generate codewords dynamically, which guarantees DC balance with multiple LEDs to serve the dual purpose of illumination and communication. Experimental results confirm that the proposed bit-shuffle block coding demonstrate excellent performance in resource optimization, and can be a viable solution for MIMO-VLC applications that can send large volumes data with limited hardware resources.

Published

2021

11. Diagnosis and treatment of calcific tendinitis of the shoulder

Author

Min-Su Kim, In-Woo Kim, Sanghyeon Lee, and Sang-Jin Shin

Subjects

calcification, tendinitis, shoulder joint, conservative treatment, surgical treatment, Orthopedic surgery, RD701-811

Abstract

Calcific tendinitis is the leading cause of shoulder pain. Among patients with calcific tendinitis, 2.7%–20% are asymptomatic, and 35%–45% of patients whose calcific deposits are inadvertently discovered develop shoulder pain. If symptoms are present, complications such as decreased range of motion of the shoulder joint should be minimized while managing pain. Patients with acute calcific tendinitis respond well to conservative treatment and rarely require surgery. In contrast, patients with chronic calcific tendinitis often do not respond to conservative treatment and do require surgery. Clinical improvement takes time, even after surgical treatment. This review article summarizes the processes related to the diagnosis and treatment of calcific tendinitis with the aim of helping clinicians choose appropriate treatment options for their patients.

Published

2020

12. Rationale for Small Glenoid Baseplate: Position of Central Cage within Glenoid Vault (Exactech® Equinoxe® Reverse System)

Author

Joo Han Oh, Sanghyeon Lee, Sung-Min Rhee, Hyeon Jang Jeong, and Jae Chul Yoo

Subjects

shoulder, rotator cuff injuries, arthropathies, arthroplasty, anatomy, Orthopedic surgery, RD701-811

Abstract

Background Glenoid baseplate location is important to good clinical outcomes of reverse total shoulder arthroplasty (RTSA). The glenoid vault is the determining factor for glenoid baseplate location, but, to date, there are no reports on the effect of central cage location within the glenoid vault on RTSA outcomes when using the Exactech® Equinoxe® Reverse System. The purpose of this study was to determine the appropriate cage location in relation to the glenoid vault and monitor for vault and/or cortex penetration by the cage. Methods Data were retrospectively collected from the Samsung Medical Center (SMC) and Seoul National University Bundang Hospital (SNUBH). Patients who underwent RTSA between November 2016 and February 2018 were enrolled. Glenoid vault depth, central cage location within the vault were examined. Inferior glenoid rim–center distance, inferior glenoid rim–cage distance, and center–cage center distances were collected. Results Twenty-two patients were enrolled. Three SNUBH patients had inappropriate central cage fixation (33.3%) versus 4 SMC patients (30.8%). All cage exposures were superior and posterior to the glenoid vault. Mean center–cage distance was 5.0 mm in the SNUBH group and 5.21 mm in the SMC group. Center–prosthesis distance was significantly longer in the inappropriate fixation group than in the appropriate fixation group (p

Published

2019

13. Early Indicators of Human Activity During COVID-19 Period Using Digital Trace Data of Population Activities

Author

Xinyu Gao, Chao Fan, Yang Yang, Sanghyeon Lee, Qingchun Li, Mikel Maron, and Ali Mostafavi

Subjects

COVID-19, early indicators, population activities, time lag relationship, Venables distance, activity density, Engineering (General). Civil engineering (General), TA1-2040, City planning, HT165.5-169.9

Abstract

The spread of pandemics such as COVID-19 is strongly linked to human activities. The objective of this article is to specify and examine early indicators of disease spread risk in cities during the initial stages of outbreak based on patterns of human activities obtained from digital trace data. In this study, the Venables distance (Dv) and the activity density (Da) are used to quantify and evaluate human activities for 193 United States counties, whose cumulative number of confirmed cases was greater than 100 as of March 31, 2020. Venables distance provides a measure of the agglomeration of the level of human activities based on the average distance of human activities across a city or a county (less distance could lead to a greater contact risk). Activity density provides a measure of level of overall activity level in a county or a city (more activity could lead to a greater risk). Accordingly, Pearson correlation analysis is used to examine the relationship between the two human activity indicators and the basic reproduction number in the following weeks. The results show statistically significant correlations between the indicators of human activities and the basic reproduction number in all counties, as well as a significant leader-follower relationship (time lag) between them. The results also show one to two weeks’ lag between the change in activity indicators and the decrease in the basic reproduction number. This result implies that the human activity indicators provide effective early indicators for the spread risk of the pandemic during the early stages of the outbreak. Hence, the results could be used by the authorities to proactively assess the risk of disease spread by monitoring the daily Venables distance and activity density in a proactive manner.

Published

2021

14. Anterior Cable Reconstruction Using the Biceps Tendon in Retracted Anterior L-Shaped Rotator Cuff Tears

Author

Sang-Jin Shin, M.D., Ph.D., In-Woo Kim, M.D., In Park, M.D., Ph.D., Sanghyeon Lee, M.D., and Min-Su Kim, M.D.

Subjects

Orthopedic surgery, RD701-811

Abstract

Repair of a retracted anterior L-shaped rotator cuff tear is challenging because of the lack of mobilization of the torn tendon and destruction of the rotator cable. Restoring the anterior rotator cable decreases gap formation of the repaired tendon, leading to maintenance of the repair integrity of the anterior supraspinatus tendon. This Technical Note introduces the surgical technique of anterior cable reconstruction using the proximal biceps tendon for a retracted anterior L-shaped rotator cuff tear.

Published

2021

15. GPU-Accelerated PD-IPM for Real-Time Model Predictive Control in Integrated Missile Guidance and Control Systems

Author

Sanghyeon Lee, Heoncheol Lee, Yunyoung Kim, Jaehyun Kim, and Wonseok Choi

Subjects

graphics processing unit, primal-dual interior point method, model predictive control, real-time systems, integrated missile guidance and control, Chemical technology, TP1-1185

Abstract

This paper addresses the problem of real-time model predictive control (MPC) in the integrated guidance and control (IGC) of missile systems. When the primal-dual interior point method (PD-IPM), which is a convex optimization method, is used as an optimization solution for the MPC, the real-time performance of PD-IPM degenerates due to the elevated computation time in checking the Karush–Kuhn–Tucker (KKT) conditions in PD-IPM. This paper proposes a graphics processing unit (GPU)-based method to parallelize and accelerate PD-IPM for real-time MPC. The real-time performance of the proposed method was tested and analyzed on a widely-used embedded system. The comparison results with the conventional PD-IPM and other methods showed that the proposed method improved the real-time performance by reducing the computation time significantly.

Published

2022

16. Morphological characteristics of the posterior malleolar fragment according to ankle fracture patterns: a computed tomography-based study

Author

Young Yi, Dong-Il Chun, Sung Hun Won, Suyeon Park, Sanghyeon Lee, and Jaeho Cho

Subjects

Ankle fracture, Computed tomography, Posterior malleolar fragment, Morphology, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background The posterior malleolar fragment (PMF) of an ankle fracture can have various shapes depending on the injury mechanism. The purpose of this study was to evaluate the morphological characteristics of the PMF according to the ankle fracture pattern described in the Lauge-Hansen classification by using computed tomography (CT) images. Methods We retrospectively analyzed CT data of 107 patients (107 ankles) who underwent surgery for trimalleolar fracture from January 2012 to December 2014. The patients were divided into two groups: 76 ankles in the supination-external rotation (SER) stage IV group and 31 ankles in the pronation-external rotation (PER) stage IV group. The PMF type of the two groups was assessed using the Haraguchi and Jan Bartonicek classification. The cross angle (α), fragment length ratio (FLR), fragment area ratio (FAR), sagittal angle (θ), and fragment height (FH) were measured to assess the morphological characteristics of the PMF. Results The PMF in the SER group mainly had a posterolateral shape, whereas that in the PER group mainly had a posteromedial two-part shape or a large posterolateral triangular shape (P = 0.02). The average cross angle was not significantly different between the two groups (SER group = 19.4°, PER group = 17.6°). The mean FLR and FH were significantly larger in the PER group than in the SER group (P = 0.024, P = 0.006). The mean fragment sagittal angle in the PER group was significantly smaller than that in the SER group (P = 0.017). Conclusions With regard to the articular involvement, volume, and vertical nature, the SER-type fracture tends to have a smaller fragment due to the rotational force, whereas the PER-type fracture tends to have a larger fragment due to the combination of rotational and axial forces.

Published

2018

17. Nedd4 E3 ligase and beta-arrestins regulate ubiquitination, trafficking, and stability of the mGlu7 receptor

Author

Sanghyeon Lee, Sunha Park, Hyojin Lee, Seulki Han, Jae-man Song, Dohyun Han, and Young Ho Suh

Subjects

mGlu7, Nedd4, beta-arrestin, degradation, ERK signaling, Medicine, Science, Biology (General), QH301-705.5

Abstract

The metabotropic glutamate receptor 7 (mGlu7) is a class C G protein-coupled receptor that modulates excitatory neurotransmitter release at the presynaptic active zone. Although post-translational modification of cellular proteins with ubiquitin is a key molecular mechanism governing protein degradation and function, mGlu7 ubiquitination and its functional consequences have not been elucidated yet. Here, we report that Nedd4 ubiquitin E3 ligase and β-arrestins regulate ubiquitination of mGlu7 in heterologous cells and rat neurons. Upon agonist stimulation, β-arrestins recruit Nedd4 to mGlu7 and facilitate Nedd4-mediated ubiquitination of mGlu7. Nedd4 and β-arrestins regulate constitutive and agonist-induced endocytosis of mGlu7 and are required for mGlu7-dependent MAPK signaling in neurons. In addition, Nedd4-mediated ubiquitination results in the degradation of mGlu7 by both the ubiquitin-proteasome system and the lysosomal degradation pathway. These findings provide a model in which Nedd4 and β-arrestin act together as a complex to regulate mGlu7 surface expression and function at presynaptic terminals.

Published

2019

18. N-Glycosylation Regulates the Trafficking and Surface Mobility of GluN3A-Containing NMDA Receptors

Author

Kristyna Skrenkova, Sanghyeon Lee, Katarina Lichnerova, Martina Kaniakova, Hana Hansikova, Martin Zapotocky, Young Ho Suh, and Martin Horak

Subjects

glutamate receptor, glycan, endoplasmic reticulum, excitatory synapse, ion channel, mammalian neuron, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

N-methyl-D-aspartate receptors (NMDARs) play critical roles in both excitatory neurotransmission and synaptic plasticity. NMDARs containing the nonconventional GluN3A subunit have different functional properties compared to receptors comprised of GluN1/GluN2 subunits. Previous studies showed that GluN1/GluN2 receptors are regulated by N-glycosylation; however, limited information is available regarding the role of N-glycosylation in GluN3A-containing NMDARs. Using a combination of microscopy, biochemistry, and electrophysiology in mammalian cell lines and rat hippocampal neurons, we found that two asparagine residues (N203 and N368) in the GluN1 subunit and three asparagine residues (N145, N264 and N275) in the GluN3A subunit are required for surface delivery of GluN3A-containing NMDARs. Furthermore, deglycosylation and lectin-based analysis revealed that GluN3A subunits contain extensively modified N-glycan structures, including hybrid/complex forms of N-glycans. We also found (either using a panel of inhibitors or by studying human fibroblasts derived from patients with a congenital disorder of glycosylation) that N-glycan remodeling is not required for the surface delivery of GluN3A-containing NMDARs. Finally, we found that the surface mobility of GluN3A-containing NMDARs in hippocampal neurons is increased following incubation with 1-deoxymannojirimycin (DMM, an inhibitor of the formation of the hybrid/complex forms of N-glycans) and decreased in the presence of specific lectins. These findings provide new insight regarding the mechanisms by which neurons can regulate NMDAR trafficking and function.

Published

2018

19. NeuPIMs: NPU-PIM Heterogeneous Acceleration for Batched LLM Inferencing.

Author

Guseul Heo, Sangyeop Lee, Jaehong Cho, Hyunmin Choi, Sanghyeon Lee, Hyungkyu Ham, Gwangsun Kim, Divya Mahajan 0001, and Jongse Park

Published

2024

20. Supporting Trusted Virtual Machines with Hardware-Based Secure Remote Memory.

Author

Taekyung Heo, Seunghyo Kang, Sanghyeon Lee, Soojin Hwang, Joongun Park, and Jaehyuk Huh 0001

Published

2024

21. Hardware-hardened Sandbox Enclaves for Trusted Serverless Computing.

Author

Joongun Park, Seunghyo Kang, Sanghyeon Lee, Taehoon Kim 0001, Jongse Park, Youngjin Kwon, and Jaehyuk Huh 0001

Published

2024

22. Product Performance Aware 3rd Generation GAA Platform Transistor Design with Extreme Small Local Layout Effect and Transistor Variation.

Author

Dongchan Jeong, Seungkwon Kim, Seulki Park, Sanghyeon Lee, Sada-Aki Masuoka, Byungha Choi, Shincheol Min, Sanghoon Lee, Minseong Lee, Chang-Woo Sohn, Jaehun Jeong, Yuri Yasuda-Masuoka, and Ja-Hum Ku

Published

2024

23. Exclusively Penalized Q-learning for Offline Reinforcement Learning.

Author

Junghyuk Yeom, Yonghyeon Jo, Jungmo Kim, Sanghyeon Lee, and Seungyul Han

Published

2024

24. Improving Data Reuse in NPU On-chip Memory with Interleaved Gradient Order for DNN Training.

Author

Jungwoo Kim 0002, Seonjin Na, Sanghyeon Lee, Sunho Lee, and Jaehyuk Huh 0001

Published

2023

25. iColoriT: Towards Propagating Local Hints to the Right Region in Interactive Colorization by Leveraging Vision Transformer.

Author

Jooyeol Yun, Sanghyeon Lee, Minho Park 0003, and Jaegul Choo

Published

2023

26. World's First GAA 3nm Foundry platform Technology (SF3) with Novel Multi-Bridge-Channel-FET (MBCFET™) Process.

Author

Jaehun Jeong, Sanghyeon Lee, Sada-Aki Masuoka, Shincheol Min, Sanghoon Lee, Seungkwon Kim, Taehun Myung, Byungha Choi, Chang-Woo Sohn, Sung Won Kim, Jeongmin Choi, Jungmin Park, Hyungjong Lee, Taeyoung Kim, Seokhoon Kim, Yuri Yasuda-Masuoka, Ja-Hum Ku, and Gitae Jeong

Published

2023

27. Deep Edge-Aware Interactive Colorization against Color-Bleeding Effects.

Author

Eungyeup Kim, Sanghyeon Lee, Jeonghoon Park, Somi Choi, Choonghyun Seo, and Jaegul Choo

Published

2021

28. Efficient Adversarial Audio Synthesis VIA Progressive Upsampling.

Author

Youngwoo Cho, Minwook Chang, Sanghyeon Lee, Hyoungwoo Lee, Gerard Jounghyun Kim, and Jaegul Choo

Published

2021

29. Three-Dimensional Morphological Analysis of the Suprascapular Notch in Patients with Arthroscopic Rotator Cuff Repair.

Author

Kyu Cheol Noh, Sanghyeon Lee, Chang Won Park, Haotian Bai, and Jung-Youn Kim

Published

2024

30. iColoriT: Towards Propagating Local Hint to the Right Region in Interactive Colorization by Leveraging Vision Transformer.

Author

Sanghyeon Lee, Jooyeol Yun, Minho Park 0003, and Jaegul Choo

Published

2022

31. SHP2 regulates GluA2 tyrosine phosphorylation required for AMPA receptor endocytosis and mGluR- LTD.

Author

Sanghyeon Lee, Jungho Kim, Hyun-Hee Ryu, Hanbyul Jang, DoEun Lee, Seungha Lee, Jae-man Song, Yong-Seok Lee, and Young Ho Suh

Subjects

*AMPA receptors, *NEUROPLASTICITY, *ENDOCYTOSIS, *TYROSINE, *CENTRAL nervous system

Abstract

Posttranslational modifications regulate the properties and abundance of synaptic α- amino- 3- hydroxy- 5- methyl- 4- isoxazolepropionic acid (AMPA) receptors that mediate fast excitatory synaptic transmission and synaptic plasticity in the central nervous system. During long- term depression (LTD), protein tyrosine phosphatases (PTPs) dephosphorylate tyrosine residues in the C- terminal tail of AMPA receptor GluA2 subunit, which is essential for GluA2 endocytosis and group I metabotropic glutamate receptor (mGluR)- dependent LTD. However, as a selective downstream effector of mGluRs, the mGluR- dependent PTP responsible for GluA2 tyrosine dephosphorylation remains elusive at Schaffer collateral (SC)- CA1 synapses. In the present study, we find that mGluR5 stimulation activates Src homology 2 (SH2) domain- containing phosphatase 2 (SHP2) by increasing phospho- Y542 levels in SHP2. Under steady- state conditions, SHP2 plays a protective role in stabilizing phospho- Y869 of GluA2 by directly interacting with GluA2 phosphorylated at Y869, without affecting GluA2 phospho- Y876 levels. Upon mGluR5 stimulation, SHP2 dephosphorylates GluA2 at Y869 and Y876, resulting in GluA2 endocytosis and mGluR- LTD. Our results establish SHP2 as a downstream effector of mGluR5 and indicate a dual action of SHP2 in regulating GluA2 tyrosine phosphorylation and function. Given the implications of mGluR5 and SHP2 in synaptic pathophysiology, we propose SHP2 as a promising therapeutic target for neurodevelopmental and autism spectrum disorders. [ABSTRACT FROM AUTHOR]

Published

2024

32. Hardware-assisted Trusted Memory Disaggregation for Secure Far Memory.

Author

Taekyung Heo, Seunghyo Kang, Sanghyeon Lee, Soojin Hwang, and Jaehyuk Huh 0001

Published

2021

33. Stockade: Hardware Hardening for Distributed Trusted Sandboxes.

Author

Joongun Park, Seunghyo Kang, Sanghyeon Lee, Taehoon Kim 0003, Jongse Park, Youngjin Kwon, and Jaehyuk Huh 0001

Published

2021

34. Divergent synthesis of conidiogenones B–F and 12β-hydroxyconidiogenone C

Author

Jiheon Kim, Sanghyeon Lee, Sunkyu Han, and Hee-Yoon Lee

Subjects

General Chemical Engineering, Biochemistry (medical), Materials Chemistry, Environmental Chemistry, General Chemistry, Biochemistry

Published

2023

35. Indoor Navigation System for Evacuation Route in case of Fire by using Environment and Location Data.

Author

Sanghoon Lee, Sangmin Park, Seunghwan Kim, Sanghyeon Lee, Sooheng Lee, and Sehyun Park

Published

2020

36. Artificial Intelligence-Base d Energy Data Monitoring and Management System in Smart Energy City.

Author

Guwon Yoon, Keonhee Cho, Lee Won Park, Sanghyeon Lee, and Hangbae Chang

Published

2020

37. Deneddylating enzyme <scp>SENP8</scp> regulates neuronal development

Author

Jae‐man Song, Minji Kang, Seungha Lee, Jungho Kim, Sunha Park, Da‐ha Park, Sanghyeon Lee, and Young Ho Suh

Subjects

Cellular and Molecular Neuroscience, Biochemistry

Published

2023

38. Superior Capsule Reconstruction Using an Acellular Dermal Matrix Allograft Combined With Remnant Tendon Augmentation for Irreparable Rotator Cuff Tear

Author

Sanghyeon Lee, Kyoung Hwan Koh, and Sang-Jin Shin

Subjects

Orthopedics and Sports Medicine

Published

2023

39. Multi-Service Charging Platform Based on Smart Plug for Electric Vehicle in Residential Complexes and Buildings.

Author

Sanghoon Lee, Myeong-in Choi, Sanghyeon Lee, Keonhee Cho, and Sehyun Park

Published

2019

40. Satisfactory functional and structural outcomes of anterior cable reconstruction using the proximal biceps tendon for large retracted rotator cuff tears

Author

Hyunchul Yang, Sanghyeon Lee, and Sang-Jin Shin

Subjects

Orthopedics and Sports Medicine, Surgery

Abstract

Large retracted anterior L-shaped tear characterized by a retracted supraspinatus tendon to the glenoid level combined with a relatively preserved infraspinatus tendon is one of the challenging tear patterns in achieving complete repair to the anatomic footprint. The purpose of this study was to evaluate clinical outcomes and tendon integrity of rotator cuff repair combined with anterior cable reconstruction using the proximal biceps tendon in patients with large retracted anterior L-shaped rotator cuff tear.This study prospectively enrolled patients who underwent arthroscopic anterior cable reconstruction using the proximal biceps tendon for large retracted anterior L-shaped rotator cuff tears between 2018 and 2020 with a minimum 2-year follow-up. The anterior portion of the rotator cable was reconstructed using tenotomized proximal biceps tendon fixed with two suture anchors at the footprint. The retracted supraspinatus tendon was repaired on the biceps tendon without undue tension. The proximal portion of the infraspinatus tendon was repaired with the biceps tendon-supraspinatus tendon complex. Clinical outcomes was assessed during the follow-up period. Tendon integrity and retear size were evaluated by postoperative MRI.A total of 32 consecutive patients were included. The ASES score was significantly improved from 66.6 ± 16.6 preoperatively to 94.1 ± 6.1 postoperatively (P 0.001), and the VAS for pain was significantly relieved from 2.8 ± 1.9 preoperatively to 0.5 ± 0.4 postoperatively (P 0.001). All patients were satisfied postoperatively regardless of tendon integrity (P = 0.015). Postoperative ROM was increased continuously during the follow-up period (P 0.001). The Popeye sign was found in 4 patients (12.5%). Six patients (18.7%) had rotator cuff retears. However, the ASES score of patients with retear was significantly improved from 72.8 ± 13.3 preoperatively to 91.1 ± 6.7 postoperatively (P 0.001). Relative changes in the retear size compared with the primary tear size were -56.8 ± 14.4% for the anteroposterior diameter and - 70.6 ± 6.1% for the mediolateral diameter.Rotator cuff repair combined with anterior cable reconstruction using the proximal biceps tendon provided satisfactory clinical and radiological outcomes for large retracted anterior L-shaped tears. Anterior cable reconstruction using the proximal biceps tendon is a sound surgical option for the patients with large retracted anterior rotator cuff tear.IV.

Published

2022

41. Additive Manufacturing of Thermoelectric Microdevices for Four‐Dimensional Thermometry

Author

Heekwon Lee, Zhuoran Wang, Qing Rao, Sanghyeon Lee, Xiao Huan, Yu Liu, Jihyuk Yang, Mojun Chen, Dong‐Keun Ki, and Ji Tae Kim

Subjects

Mechanics of Materials, Mechanical Engineering, General Materials Science

Published

2023

42. Multi‐Functional and Stretchable Thermoelectric Bi 2 Te 3 Fabric for Strain, Pressure, and Temperature‐Sensing

Author

Chaebeen Kwon, Sanghyeon Lee, Chihyeong Won, Kyu Hyoung Lee, Minyoung Kim, Jaehong Lee, Seung‐Jae Yang, Minkyu Lee, Seungmin Lee, Kukro Yoon, Sungjoon Cho, and Taeyoon Lee

Subjects

Biomaterials, Electrochemistry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2023

43. Tear pattern after superior capsular reconstruction using an acellular dermal matrix allograft

Author

Sang-Jin Shin, Sanghyeon Lee, Ji Young Hwang, Wonsun Lee, and Kyoung Hwan Koh

Subjects

Rupture, Arthroscopy, Treatment Outcome, Shoulder Joint, Humans, Acellular Dermis, Orthopedics and Sports Medicine, Surgery, General Medicine, Range of Motion, Articular, Allografts, Lacerations, Rotator Cuff Injuries

Abstract

The healing rate and tear pattern of grafts in superior capsular reconstruction (SCR) using acellular dermal matrix (ADM) allograft are poorly understood, and clinical results based on the graft status remain controversial.Fifty-one consecutive patients undergoing arthroscopic SCR with ADM between October 2017 and February 2020 were enrolled. Range of motion, strength, and the visual analog scale pain (PVAS) score, American Shoulder and Elbow Surgeons (ASES) score, and Constant score were evaluated preoperatively and at the last follow-up. Postoperative magnetic resonance imaging was performed in all patients and was obtained at least 6 months (mean, 8.9 ± 3.6 months) after surgery. The graft tear status was analyzed on magnetic resonance imaging, and the numbers of patients who achieved the minimal clinically important difference and patient acceptable symptomatic state were analyzed to determine the differences in outcome according to graft tear status.The range of motion and clinical results improved at a minimum of 1 year (mean, 18 ± 5.4 months), whereas strength in forward flexion and external rotation did not (P = .676 and P = .995, respectively). The graft was intact in 36 of 51 patients (70.6%), 9 patients (17.6%) showed an incomplete graft tear with maintained continuity (partial graft rupture at 1 anchor on either the glenoid or humeral side), and 6 patients (11.8%) showed complete graft rupture (5 on the glenoid side and 1 on the humeral side). In cases with a tear (either incomplete or complete), the odds of achieving the minimal clinically important difference for the PVAS score (P = .047) and ASES score (P = .020) was significantly lower than that of the intact graft. However, when the continuity of the graft was maintained, even in cases with a partial tear, patients who reached the patient acceptable symptomatic state showed significantly higher odds for the PVAS score and trends for the ASES score.After SCR using ADM, the graft status could be classified as intact, an incomplete graft tear (where the continuity between the glenoid and humerus was maintained), or an complete tear. When the graft continuity was maintained, even in incomplete graft tears, patients were generally satisfied with postoperative pain and function at 1 year following SCR.

Published

2022

44. The Effects of Food Label Location on Label Utilization and Willingness to Pay for Food Label －The Case of Egg Products－

Author

Wonsil Choi and Sanghyeon Lee

Subjects

General Medicine

Published

2021

45. Design Constraints and Scale Down Evolution in Advanced Semiconductor Packages

Author

Byong Jin Kim, SangHyeon Lee, JaeBeom Shim, Nam-Hee Cho, and JinYoung Khim

Abstract

Wafer fabrication (fab) technology has been scaling down for several decades but now faces many barriers to overcome in terms of technology as well as economy. Beyond Moore's law, the scaling becomes a question of how to cost effectively integrate more functions and achieve better performance. For this matter, the semiconductor industry is looking for packaging solutions using system-on-chip (SoC) or System in Package (SiP) technologies. In this paper, using a commercial mobile application processor (AP), design factors for package integration have been identified and the next level of integration will be proposed by design simulation. The commercial mobile AP package is a good candidate for identifying major design factors because it has evolved in both fab processing and package-level design over many years. Package platform has evolved from a single package to a stack die package and Package-on-Package (PoP) structure. As it is scaled down and interfaced more closely with memory, package technology has evolved but now faces various challenges in structure along with many design constraints. To address these issues, the major drivers and design challenges in package technology will be identified and future direction be proposed.

Published

2021

46. A double-sampled low-distortion cascade ΔΣ modulator with an adder/integrator for WLAN application.

Author

Sanghyeon Lee, Jeongseok Chae, Mitsuru Aniya, Seiji Takeuchi, Koichi Hamashita, Pavan Kumar Hanumolu, and Gabor C. Temes

Published

2011

47. Tailored Self-Assembled Monolayer using Chemical Coupling for Indium-Gallium-Zinc Oxide Thin-Film Transistors: Multifunctional Copper Diffusion Barrier

Author

Seungmin Lee, Sanghyeon Lee, Minkyu Lee, Sung Min Rho, Hyung Tae Kim, Chihyeong Won, Kukro Yoon, Chaebeen Kwon, Juyoung Kim, Geun Chul Park, Jun Hyung Lim, Joon Seok Park, Woobin Kwon, Young-Bae Park, Dong won Chun, Hyun Jae Kim, and Taeyoon Lee

Subjects

General Materials Science

Abstract

Controlling the contact properties of a copper (Cu) electrode is an important process for improving the performance of an amorphous indium-gallium-zinc oxide (a-IGZO) thin-film transistor (TFT) for high-speed applications, owing to the low resistance-capacitance product constant of Cu. One of the many challenges in Cu application to a-IGZO is inhibiting high diffusivity, which causes degradation in the performance of a-IGZO TFT by forming electron trap states. A self-assembled monolayer (SAM) can perfectly act as a Cu diffusion barrier (DB) and passivation layer that prevents moisture and oxygen, which can deteriorate the TFT on-off performance. However, traditional SAM materials have high contact resistance and low mechanical-adhesion properties. In this study, we demonstrate that tailoring the SAM using the chemical coupling method can enhance the electrical and mechanical properties of a-IGZO TFTs. The doping effects from the dipole moment of the tailored SAMs enhance the electrical properties of a-IGZO TFTs, resulting in a field-effect mobility of 13.87 cm

Published

2022

48. A 63 dB 16 mW 20 MHz BW double-sampled ΔΣs analog-to-digital converter with an embedded-adder quantizer.

Author

Jeongseok Chae, Sanghyeon Lee, Mitsuru Aniya, Seiji Takeuchi, Koichi Hamashita, Pavan Kumar Hanumolu, and Gabor C. Temes

Published

2010

49. One-Step, Continuous Three-Dimensional Printing of Multi-Stimuli-Responsive Bilayer Microactuators via a Double-Barreled Theta Pipette

Author

Mojun Chen, Yu Liu, Xiao Huan, Heekwon Lee, Ji Tae Kim, Zhaoyi Xu, Sanghyeon Lee, and Jihyuk Yang

Subjects

Fabrication, Materials science, Inkwell, business.industry, Bilayer, Pipette, 3D printing, Meniscus, General Materials Science, Nanotechnology, business, Actuator, Microscale chemistry

Abstract

Although there has been extensive development and exploration of small-scale robots, the technological challenges associated with their complicated and high-cost fabrication processes remain unresolved. Here, we report a one-step, bi-material, high-resolution three-dimensional (3D) printing method for the fabrication of multi-stimuli-responsive microactuators. This method exploits a two-phase femtoliter ink meniscus formed on a double-barreled theta micropipette to continuously print a freestanding bilayer microstructure, which undergoes an asymmetric volume change upon the adsorption or desorption of water. We show that the 3D-printed bilayer microstructures exhibit reversible, reproducible actuation in ambient humidity or under illumination with infrared light. Our 3D printing approach can assemble bilayer segments for programming microscale actuation, as demonstrated by proof-of-concept experiments. We expect that this method will serve as the basis for flexible, programmable, one-step routes for the assembly of small-scale intelligent actuators.

Published

2021

50. Three-Dimensional Perovskite Nanopixels for Ultrahigh-Resolution Color Displays and Multilevel Anticounterfeiting

Author

Shien-Ping Feng, Ji Tae Kim, Zhaoyi Xu, Rui Cheng, Jihyuk Yang, Yu Liu, Seung Kwon Seol, Mojun Chen, Heekwon Lee, Jaeyeon Pyo, Zhiwen Zhou, Xiao Huan, Barbara P. Chan, Sanghyeon Lee, Shiqi Hu, Ho Cheung Shum, Yage Zhang, and Nan Huang

Subjects

Brightness, Fabrication, Materials science, Pixel, Inkwell, business.industry, Mechanical Engineering, 3D printing, Bioengineering, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Optoelectronics, RGB color model, General Materials Science, Photonics, 0210 nano-technology, business, Perovskite (structure)

Abstract

Hybrid perovskites are emerging as a promising, high-performance luminescent material; however, the technological challenges associated with generating high-resolution, free-form perovskite structures remain unresolved, limiting innovation in optoelectronic devices. Here, we report nanoscale three-dimensional (3D) printing of colored perovskite pixels with programmed dimensions, placements, and emission characteristics. Notably, a meniscus comprising femtoliters of ink is used to guide a highly confined, out-of-plane crystallization process, which generates 3D red, green, and blue (RGB) perovskite nanopixels with ultrahigh integration density. We show that the 3D form of these nanopixels enhances their emission brightness without sacrificing their lateral resolution, thereby enabling the fabrication of high-resolution displays with improved brightness. Furthermore, 3D pixels can store and encode additional information into their vertical heights, providing multilevel security against counterfeiting. The proof-of-concept experiments demonstrate the potential of 3D printing to become a platform for the manufacture of smart, high-performance photonic devices without design restrictions.

Published

2021