바이오시스템대학

연세대학교 전자공학과 공학사

연세대학교 전자공학과 공학석사
The University of Iowa 의용공학전공 공학석사

The University of Iowa 의용공학(생체역학)전공 공학박사

기초의용전자, 의용계측기기설계실험, 디지털헬스케어엔지니어링

◆2022 의료기기 RA전문가 2급 핵심문제집, 예문사, 2021
◆의료기기 소프트웨어 밸리데이션, 라임하우스, 2019
◆헬스케어 산업의 위험관리, 라임하우스, 2018
◆바이오디자인, 도서출판 홍릉(홍릉과학출판사), 2017

◆Sulim Kang, Jaehyun Woo, Sungmin Kim, 「A Systematic Review of Companion Diagnostic Tests by Immunohistochemistry for the Screening of Alectinib-Treated Patients in ALK-Positive Non-Small Cell Lung Cancer」, Diagnostics(Basel), 2022, 12(5),1297
◆Daechang Kim, Younju Lee, Jaehoon Jeong, Sungmin Kim, 「Stimulation method and individual health index study for real-time cardiovascular and autonomic nervous system reactivity analysis using PPG signal」, Biomedical Signal Processing and Control, 2022, Volume 76, 103714
◆JaeHyun Woo, EunCheol Kim, SungMin Kim, 「The current status of breakthrough devices designation in the United States and innovative medical devices designation in Korea for digital health software」, Expert Rev Med Devices, 2022, 19(3), 213-228
◆SangHoon Oh, SeungBong Lee, SungMin Kim, JaeHoon Jeong, 「Development of a heart rate detection algorithm using a non-contact doppler radar via signal elimination」, Biomedical Signal Processing and Control, 2021, Volume 64, 102314
◆Daechang Kim, SeungBong Lee, SungMin Kim, JaeHoon Jeong, 「Confirmation of the clinical value and the effect of sound biofeedback on the autonomic nervous system through heart rate variability analysis」, Journal of Mechanics in Medicine and Biology, 2021, 21(04), 2150036
◆YooNa Hwang, MinJi Seo, SungMin Kim, 「A Segmentation of Melanocytic Skin Lesions in Dermoscopic and Standard Images Using a Hybrid Two-Stage Approach」, Biomed research international, Biomed Res Int, 2021, 2021:5562801
◆JiYean Kwon, SungMin Kim, Masao Tanaka, 「Evaluation of mechanical adaptation on preoperative planning for total hip arthroplasty」, International Journal of Precision Engineering and Manufacturing, 2020, 21, 1975–1983
◆GaYoung Kim, JuHwan Lee, YooNa Hwang , SungMin Kim, 「Anovel intensity-based multi-level classification approach for coronary plaque characterization in intravascular ultrasound images」, Biomedical Engineering, 2018, 17, 151
◆JuHwan Lee, GaYoung Kim, YooNa Hwang, Sung-Min Kim, 「Automatic Detection of Dense Calciumand Acoustic Shadow in Intravascular Ultrasound Images by Dual-threshold-based Segmentation Approach」, Sensors and materials, 2018, 30(8), 1841–1852
◆YooNa Hwang, JuHwan Lee, GaYoung Kim, SungMin Kim, 「Characterization of coronary plague regions in intravascular ultrasound images using a hybrid ensemble classifier」, Computer Methods and Programs in Biomedicine, 2018, 153:83-92

고려대학교 화학과 이학사

고려대학교 화학과 이학석사

University of Chicago, Department of Chemistry, Ph.D.

유기화학, 화학생물학, 단백질공학

◆Kang, C., Shrestha, K. L., Kwon, S., Park, S., Kim, J., & Kwon, Y., 「Intein-Mediated Protein Engineering for Cell-Based Biosensors」, Biosensors, 2022, 12(5), 283
◆Chang Y, Cho B, Lee E, Kim J, Yoo J, Sung JS, Kwon Y, Kim J, 「Electromagnetized gold nanoparticles improve neurogenesis and cognition in the aged brain」, Biomaterials, 2021, 278, 121157
◆H. Jeon, E. Lee, D. Kim, M. Lee, J. Ryu, C. Kang, S. Kim, Y. Kwon, 「Cell-Based Biosensors Based on Intein-Mediated Protein Engineering for Detection of Biologically Active Signaling Molecules」, Anal Chem, 2018, 90(16), 9779-9786
◆E. Lee, H. Jeon, M. Lee, J. Ryu, C. Kang, S. Kim, J. Jung, Y. Kwon, 「Molecular origin of AuNPs-induced cytotoxicity and mechanistic study」, Sci rep, 2019, 9, 2494-2506
◆Y. Chang, E. Lee, J. Kim, Y. Kwon, Y. Kwon, J. Kim, 「Efficient in vivo direct conversion of fibroblasts into cardiomyocytes using a nanoparticle-based gene carrier」, Biomaterials, 2019, 192, 500-509
◆J. Yoo, E. Lee, H. Y. Kim, D. Youn, J. Jung, H. Kim, Y. Chang, W. Lee, J. Shin, S. Baek, W. Jang, W. Jun, S. Kim, J. Hong, H. Park, C. J. Lengner, S. H. Moh, Y. Kwon, J. Kim, 「Electromagnetized gold nanoparticles mediate direct lineage reprogramming into induced dopamine neurons in vivo for Parkinson’s disease therapy」, Nature Nanotech, 2017, 12, 1006-1014

서강대학교 전자공학과 공학사

University of Southern California, Department of Biomedical Engineering, M.S.
서강대학교 전자공학과 공학석사

University of Southern California, Department of Biomedical Engineering, Ph.D.

바이오메디컬 프로그래밍, 디지털진단영상시스템, 바이오메디컬 신호처리시스템

◆Hee Su Lee, Jong Seob Jeong, 「Triple-Element Back-to-Back Transducer With 3D Printed Housing for Intravascular Ultrasound Imaging: A Feasibility Study」, IEEE Access, 2022, vol.10, 9287−9297
◆Bo Eun Choi, Hee Su Lee, Jin Ho Sung, Eun Young Jeong, Chan Yuk Park, Jong Seob Jeong, 「Polarization Inverted Ultrasound Transducer Based on Composite Structure for Tissue Harmonic and Frequency Compound Imaging」, IEEE Trans Ultrason Ferroelect Freq Control, 2022, 69(1), 273−282
◆Hee Su Lee, Eun Young Jeong, Jin Ho Sung, Bo Eun Choi, Jong Seob Jeong, 「An Intraocular Pressure Measurement Technique Based on Acoustic Radiation Force Using an Ultrasound Transducer: A Feasibility Study」, Sensors, 2021, 21(5), 1857
◆Eun Young Jeong, Jin Ho Sung, Jong Seob Jeong, 「Improved Acoustic Radiation Force Impulse Imaging Using Split-Focused Ultrasound Transducer With Phase Inversion Technique」, IEEE Sensors Journal, 2020, 21(2), 1395−1403
◆Jin Ho Sung, Jong Seob Jeong, 「Intravascular Ultrasound Transducer by Using Polarization Inversion Technique for Tissue Harmonic Imaging: Modeling and Experiments」, IEEE Trans Biomed Eng., 2020, 67(12), 3380−3391

한양대학교 화학과 이학사

한양대학교 화학과 이학석사

한양대학교 화학과 이학박사
한국과학기술연구원 생체재료연구센터 이학박사

재생의학, 인체세포공학 개론 및 실습, 세포배양공학 및 실험, 의료용고분자소재 및 실험

◆조직공학재생의학 실험(Experiment of Tissue Engineering & Regenerative Medicine) Editor for Cell Culture Part, Chapter 10,12&19, 2012
◆Characteristics and Application of Star-shaped Architecture for PL and PGCL in “Biodegradable Polymers and Plastics”, Ed. Chiellini and Solaro, 223-241, Kluwer Academic/Plenum Publishers, New York, 2003
◆Regenerative Medicine(재생의학) 4th Edition, 군자출판사, 2018

◆Ganesh Shimoga et al., 「Polypyrrole-Based Metal Nanocomposite Electrode Materials for High-Performance Supercapacitors」, Metals, 2021, 11(6), 905
◆Sunghyun Park et al., 「Functional Duality of Chondrocyte Hypertrophy and Biomedical Application Trends in Osteoarthritis」, Pharmaceutics, 2021, 13(8), 1139
◆Alvin Bacero Bello et al., 「Matrilin-3/TGF-β3 gelatin microparticle system promotes chondrogenic differentiation, prevents hypertrophy, and induces paracrine secretion in MSC spheroids for intervertebral disc regeneration」, NPJ Regenerative Medicine, 2021, 6:50
◆Sunghyun Park et al., 「SPRY4 acts as an indicator of osteoarthritis severity and regulates chondrocyte hypertrophy and M protease expression」, NPJ Regenerative Medicine, 2021, 6:56
◆Ramasubba Reddy Palem et al., 「Enhanced supercapacitive behavior by CuO@MnO2/carboxymethyl cellulose composites」, Ceramics International, 2021, 47(19), 26738-26747
◆Ramasubba Reddy Palem et al., 「Ultrasonically decorated zinc cobaltate on nanocellulose interface for supercapacitors」, Surfaces and Interfaces, 2022, volume 30, 101915
◆Banavath Jayanna Naik et al., 「CRISPR/Cas9 and Nanotechnology Pertinence in Agricultural Crop Refinement」, Frontiers in plant science, 2022, 13:843575
◆Ramasubba Reddy Palem et al., 「Ball-milling route to design hierarchical nanohybrid Cobat Oxide structures with cellulose nanocrystal interface for supercapacitors」, International Journal of Energy Research, 2022, 46(6), 8398-8412
◆Ramasubba Reddy Palem et al., 「Biogenic palladium nanoparticles: An effectual environmental benign catalyst for Organic Coupling Reactions」, Journal of Industrial and Engineering Chemistry, 2022, 106, 52-68
◆Jinsung Ahn et al., 「Combinatorial physicochemical stimuli in three-dimensional environment of hyaluronic acid hydrogel amplify chondrogenesis by stimulating phosphorylation of Smad and MAPKs signaling pathways」, NPG Asia Materials, 2022, 14(1), 1-15

동국대학교 화학공학과 공학사

동국대학교 생명화학공학과 공학석사

동국대학교 생명화학공학과 공학박사

조직공학, 조직공학 및 재생의학 실험실습(캡스톤디자인), 재생의학Ⅱ, 생체재료공학개론 및 실험

◆재생의학(Regenerative medicine), 군자출판사, 2018

◆Park HJ, Choi JH, Nam MH, Seo YK, 「Induced Neurodifferentiation of hBM-MSCs through Activation of the ERK/CREB Pathway via Pulsed Electromagnetic Fields and Physical Stimulation Promotes Neurogenesis in Cerebral Ischemic Models」, Int J Mol Sci., 2022, 23(3), 1177
◆Choi JH, Kim YM, Park HJ, Nam MH, Seo YK, 「Extremely Low-Frequency Electromagnetic Fields Increase Cytokines in Human Hair Follicles through Wnt/β-Catenin Signaling」, Biomedicines, 2022, 10(4), 924
◆Lim HM, Nam MH, Kim YM, Seo YK, 「Increasing Odontoblast-like Differentiation from Dental Pulp Stem Cells through Increase of β-Catenin/p-GSK-3β Expression by Low-Frequency Electromagnetic Field」, Biomedicines, 2021, 9(8), 1049
◆Lee W, Eo SR, Choi JH, Kim YM, Nam MH, Seo YK, 「The Osteogenic Differentiation of Human Dental Pulp Stem Cells through G0/G1 Arrest and the p-ERK/Runx-2 Pathway by Sonic Vibration」, Int J Mol Sci., 2021, 22(18), 10167
◆Ro HS, Park HJ, Seo YK, 「Fluorine-incorporated TiO2 nanotopography enhances adhesion and differentiation through ERK/CREB pathway」, J Biomed Mater Res A, 2021, 109(8), 1406– 1417
◆Ki GE, Kim YM, Lim HM, Lee EC, Seo YK, 「Extremely Low-Frequency Electromagnetic Fields Increase the Expression of Anagen-Related Molecules in Human Dermal Papilla Cells via GSK-3β/ERK/Akt Signaling Pathway」, Int J Mol Sci, 2020, 21(3), 784
◆Kim YM, Lim HM, LEE EC, Ki GE, Kim SC, Seo YK, 「Synergistic Effect of Electromagnetic Fields and Nanomagnetic particles on osteogenesis in vitro and in vivo」, Journal of biomedical nanotechnology, 2020, 39(8), 1633-1646
◆Jang HJ, Lee EC, Kwon GJ, Seo YK, 「The effect of coated nano-hydroxyapatite concentration on scaffolds for osteogenesis」, J Biomater Appl., 2019, 34(6), 827-839
◆Jang HJ, Kim YM, Yoo BY, Seo YK, 「Wound-healing effects of human dermal components with gelatin dressing」, J Biomater Appl., 2018, 32(6), 716-724
◆Kim YM, Lim HM, Ro HS, Ki GE, Seo YK, 「Pulsed Electromagnetic Fields Increase Pigmentation through the p-ERK/p-p38 Pathway in Zebrafish (Danio rerio)」, Int J Mol Sci., 2018, 19(10), 3211

고려대학교 전자전기공학과 공학사

고려대학교 전자전기공학과 석박사통합과정

고려대학교 전자전기공학과 공학박사

MEMS 센서 공학, 전자회로이론, 공업수학, 기초의공학개론

◆S. Lee, et. al., 「Quantitative analysis of composition between PACAP 38 and Amyloid beta through reduced graphene oxide biosensor with verifying of neuroprotective roll of PACAP 38」, Sensors and Actuators B: Chemical, 2022, 361, 131727
◆H.J. Kim, et. al., 「Dielectrophoresis-based filtration effect and detection of amyloid beta in plasma for Alzheimer's disease diagnosis」, Biosensors and Bioelectronics, 2019, 128, 166-175
◆M.-S. Chae, et. al., 「Enhancing surface functionality of reduced graphene oxide biosensors by oxygen plasma treatment for Alzheimer's disease diagnosis」, Biosensors and Bioelectronics, 2017, 92, 610-617

한동대학교 생명식품과학과 이학사

한동대학교 생명과학과 이학석사

Weizmann Institute of Science, Biochemistry Department, 이학박사

면역공학 및 실험, 생체분자생물학, 생화학I, 생화학 II

◆Immunotherapeutic approaches against amyloid-β in drug discovery for Alzheimer’s disease, Springer, 2015
◆The in-vivo significance of necroptosis: lessons from exploration of caspase-8 function. Necrotic Cell Death, Cell Death in Biology and Diseases, 2014

◆Lee, S. et al., 「Quantitative analysis of PACAP-38 and amyloid beta composition using a dual reaction in reduced graphene oxide biosensor to verify the neuroprotective role of PACAP-38」, Sensors and Actuators: B. Chemical, 2022, 361, 131727
◆Jang, D.I. et al., 「The role of tumor necrosis factor alpha (TNF-α) in autoimmune disease and current TNF-α inhibitors in therapeutics」, Int J Mol Sci., 2021, 22(5), 2719
◆Lee, J.H. et al., 「Natural products targeting Amyloid beta in Alzheimer's disease」, Int J Mol Sci., 2021, 22(5), 2341
◆Lee, A.H. et al., 「Fucoxanthin from microalgae Phaeodactylum tricornutum inhibits pro-inflammatory cytokines by regulating both NF-κB and NLRP3 inflammasome activation」, Sci Rep., 2021, 11, 543
◆Kwon, Y. et al., 「Rhizolutin, a novel 7/10/6-tricyclic dilactone, dissociates misfolded protein aggregates and reduces apoptosis/inflammation associated with Alzheimer’s disease」, Angewandte Chemie., 2020, 59(51), 22994-22998
◆Lee, JC. et al., 「Discovery of chemicals to clear or indicate amyloid aggregates by targeting memory-impairing anti-parallel Aβ dimers」, Angewandte Chemie., 2020, 59(28), 11491-11500
◆Kang, T.B. et al., 「Caspase-8 deficiency in mouse embryos triggers chronic RIPK1-dependent activation of inflammatory genes, independently of RIPK3」, Cell Death Differ, 2018, 25(6), 1107-1117
◆Yang, S.H. et al., 「Nec-1 alleviates cognitive impairment with reduction in Aβ and tau abnormalities in APP/PS1 mice」, EMBO. Mol. Med., 2017, 9(1), 61-77
◆Kang, T.B. et al., 「Caspase-8 blocks kinase RIPK3-mediated activation of the NLRP3 inflammasome」, Immunity, 2013, 38(1), 27-40
◆Rajput, A. et al., 「RIG-I RNA Helicase Activation of IRF3 Transcription Factor Is Negatively Regulated by Caspase-8-Mediated Cleavage of the RIP1 Protein」, Immunity, 2011, 34(3), 340-351

서울대학교 기계항공공학부 공학사

서울대학교 기계항공공학부 석박사통합과정

서울대학교 기계항공공학부 공학박사

의생명공학특론(바이오메디컬 이동현상)

◆Seokyoung Bang, Seung-Ryeol Lee and Noo Li Jeon, “3D tissue modelling of the central nervous system”, in “Biofabrication and 3D Tissue Modeling”, Ed. Dong-Woo Cho, pp. 171-183, Royal Society of Chemistry, London (2019)

◆Seokyoung Bang et al., 「3D Microphysiological System-Inspired Scalable Vascularized Tissue Constructs for Regenerative Medicine」, Advanced Functional Materials, 2022, 32 (1), 2105475
◆Seokyoung Bang et al., 「Brain physiome: A concept bridging in vitro 3D brain models and in silico models for predicting drug toxicity in the brain」, Bioactive Materials, 2022, 13, 135-148
◆Seokyoung Bang et al., 「Self-detachable UV-curable polymers for open-access microfluidic platforms」, Lab on a Chip, 2020, 20(22), 4215-4224
◆Seokyoung Bang et al., 「Modeling neural circuit, blood-brain barrier, and myelination on a microfluidic 96 well plate」, Biofabrication, 2019, 11(3), 035013
◆Seokyoung Bang et al., 「Reliable autapse formation using the single-cell patterning method」, Biofabrication, 2019, 11(1), 015008

◆전누리, 트렁, 장재명, 방석영, "단방향성 신경축삭의 3차원 배양을 위한 미세유체장치", 국내 특허 1017473780000 (출원: 2014.07. 등록: 2017.06.)

Sri Venkateswara University, Department of chemistry, BSC

Sri Krishnadevaraya University, Department of chemistry, MSc

Yogi Vemana University, Department of Chemistry, Ph.D.

◆Synthesis and characterization of pectin based silver nanocomposite hydrogels for controlled release 5-fluorouracil, Nano Biomaterials, 2012
◆Comparative Studyof “MG GEL” and “GG–DSS GEL” for its Application in Health Care Industry, Bolesti periferních kloubů, 2016

◆Ramasubba Reddy Palem et al., 「Ultrasonically decorated zinc cobaltate on nanocellulose interface for supercapacitors」, Surfaces and Interfaces, 2022, 30, 101915
◆Chinna Bathula et al., 「Optoelectronic and DFT investigation of thienylenevinylene based materials for thin film transistors」, Journal of Molecular Liquids, 2022, 360, 119462
◆Sivalingam Ramesh et al., 「V2O5 nano sheets assembled on nitrogen doped multiwalled carbon nanotubes/carboxy methyl cellulose composite for two-electrode configuration of supercapacitor applications」, Ceramics International, 2022, 48(19), 29247-29256
◆Ramasubba Reddy Palem et al., 「Ball-milling route to design hierarchical nanohybrid cobalt oxide structures with cellulose nanocrystals interface for supercapacitors」, International Journal of Energy Research, 2022, 46(6), 8398-8412
◆Ramasubba Reddy Palem et al., 「Fabrication of Fe2O3 nanostructure on CNT for oxygen evolution reaction」, Ceramics International, 2022, 48(19), 29081-29086
◆Banavath Jayanna Naik et al., 「CRISPR/Cas9 and Nanotechnology Pertinence in Agricultural Crop Refinement」, Frontiers in plant science, 2022, 13, 843575
◆Rijuta Ganesh Saratale et al., 「Lignin-Mediated Silver Nanoparticle Synthesis for Photocatalytic Degradation of Reactive Yellow 4G and In Vitro Assessment of Antioxidant, Antidiabetic, and Antibacterial Activities」, Polymers, 2022, 14(3), 648
◆Sivalingam Ramesh et al., 「Sheet-like morphology CuCo2O4 bimetallic nanoparticles adorned on graphene oxide composites for symmetrical energy storage applications」, Journal of Alloys and Compounds, 2022, 892, 162182
◆Avinash A. Kadam et al., 「Recent Advances in the Development of Laccase-Based Biosensors via Nano-Immobilization Techniques」, Chemosensors, 2022, 10(2), 58

◆Silver nanoparticles with improved properties, especially for ecofriendly sensors applications, and the method of preparation thereof, PatentNo : 306647,Věstník č.15/2017.