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Hong-ki Lee | Toxicology | Best Researcher Award

Professor, Chungbuk National University, South Korea.

Dr. Hong-Ki Lee is a distinguished researcher and academic in the field of biomedical engineering. Over the years, he has made significant contributions to developing innovative medical devices and rehabilitation technologies. His work bridges the gap between engineering principles and medical needs, focusing on improving patient care and enhancing the quality of life for individuals with various health conditions. Dr. Lee’s extensive research encompasses areas such as neural engineering, bio-signal processing, and rehabilitation robotics. His expertise and leadership in the field have earned him numerous accolades and collaborations with international institutions, making him a sought-after expert in his discipline. As a professor and mentor, Dr. Lee is also dedicated to nurturing the next generation of engineers and scientists, instilling in them a passion for innovation and a commitment to improving healthcare. His work continues to influence both academia and the medical industry.

Profile

Scopus

Education📝

Dr. Hong-Ki Lee holds an impressive academic background that laid the foundation for his remarkable career in biomedical engineering. He earned his undergraduate degree in Electrical Engineering from Seoul National University, where he developed a keen interest in applying engineering principles to solve medical challenges. His academic journey then took him to Stanford University, where he completed his Master’s and Ph.D. in Biomedical Engineering. During his doctoral studies, Dr. Lee focused on neural engineering and bio-signal processing, working under the guidance of leading experts in the field. His education equipped him with the technical skills and theoretical knowledge necessary to pursue groundbreaking research in medical device development and rehabilitation technologies. Throughout his academic career, Dr. Lee has remained committed to continuous learning, frequently participating in specialized training programs and conferences to stay at the forefront of emerging trends and technologies in biomedical engineering.

Experience👨‍🏫

Dr. Hong-Ki Lee has a diverse and extensive professional background, with over two decades of experience in both academia and industry. Following his Ph.D., he joined the faculty of the Department of Biomedical Engineering at a leading university in South Korea, where he has been instrumental in building a top-tier research program. He has also collaborated with various medical institutions and industry partners to translate his research into practical applications. Dr. Lee has held several leadership positions, including Director of the Rehabilitation Robotics Research Center, where he oversees projects aimed at improving mobility for individuals with physical disabilities. In addition to his academic roles, he has consulted for medical device companies, helping to design and develop innovative solutions for patient care. His experience also extends internationally, having worked on joint research projects with institutions in Europe and the United States, further broadening his global impact in the field.

Research Interest🔬 

Dr. Hong-Ki Lee’s research interests are primarily focused on neural engineering, rehabilitation robotics, and bio-signal processing. He is passionate about developing technologies that enhance the quality of life for individuals with physical disabilities or neurological conditions. His work in neural engineering explores how electrical signals in the brain and nervous system can be harnessed to create prosthetic devices that restore lost functions. Dr. Lee’s research in rehabilitation robotics involves the design of robotic systems that assist patients in regaining mobility and strength after injuries or surgeries. He is also deeply involved in bio-signal processing, where he analyzes physiological signals, such as heart rate and brain waves, to monitor and diagnose medical conditions in real-time. His interdisciplinary approach integrates principles from electrical engineering, neuroscience, and biomechanics, positioning him at the cutting edge of biomedical innovation.

Awards and Honors🏆

 Dr. Hong-Ki Lee has received numerous awards and honors in recognition of his contributions to biomedical engineering. Among his most notable accolades is the Presidential Medal for Scientific Achievement, awarded by the South Korean government for his groundbreaking work in rehabilitation robotics. He has also been recognized by the IEEE, receiving their prestigious Biomedical Engineering Award for his advancements in neural prosthetics. Dr. Lee has been invited to deliver keynote addresses at major international conferences, such as the World Congress on Medical Physics and Biomedical Engineering, where he shared insights into his innovative research. Additionally, he has been honored as a Fellow of both the Korean Academy of Science and Technology and the American Institute for Medical and Biological Engineering. These awards reflect not only his research excellence but also his leadership and mentorship in the scientific community.

Skills🛠️

Dr. Hong-Ki Lee possesses a diverse skill set that spans across various domains of biomedical engineering. He is highly proficient in neural engineering, particularly in designing brain-computer interfaces and neuroprosthetic devices. His expertise in rehabilitation robotics includes mechanical design, control systems, and human-robot interaction, enabling the development of systems that can assist or enhance patient mobility. Dr. Lee is also skilled in bio-signal processing, with extensive experience in analyzing complex physiological data using advanced algorithms and machine learning techniques. His ability to integrate interdisciplinary knowledge allows him to tackle complex healthcare challenges from multiple perspectives. In addition to his technical skills, Dr. Lee is an effective communicator and collaborator, regularly leading multidisciplinary teams and working with both clinicians and engineers to translate research into real-world applications.

Conclusion 🔍 

Dr. Hong-Ki Lee’s career exemplifies a dedication to advancing the field of biomedical engineering through innovative research and practical applications. His contributions in neural engineering, rehabilitation robotics, and bio-signal processing have had a profound impact on patient care and the development of cutting-edge medical devices. Through his leadership roles, awards, and international collaborations, Dr. Lee continues to influence both the academic world and the healthcare industry. His passion for improving the lives of individuals with disabilities or neurological conditions is evident in his work, and his commitment to nurturing future generations of engineers ensures that his legacy will continue to inspire. Dr. Lee’s remarkable achievements demonstrate the power of interdisciplinary research and its potential to transform the future of healthcare.

Publication Top Notes

Title: Postoperative pharmacokinetics of meloxicam in horses after surgery for colic syndrome
Year: 2018
Authors: Di Salvo, A., Giorgi, M., Nannarone, S., Corsalini, J., della Rocca, G.
Citation: Di Salvo, A., Giorgi, M., Nannarone, S., Corsalini, J., & della Rocca, G. (2018). Postoperative pharmacokinetics of meloxicam in horses after surgery for colic syndrome. Journal of Veterinary Pharmacology and Therapeutics, 41(3), 369–373.

Title: Plasma profile of cimicoxib in sheep after oral administration at two different rates
Year: 2017
Authors: Di Salvo, A., Giorgi, M., Lee, H.K., Marinucci, M.T., Della Rocca, G.
Citation: Di Salvo, A., Giorgi, M., Lee, H.K., Marinucci, M.T., & Della Rocca, G. (2017). Plasma profile of cimicoxib in sheep after oral administration at two different rates. Polish Journal of Veterinary Sciences, 20(3), 535–538.

Title: Pharmacokinetic profiles of the active metamizole metabolites in healthy horses
Year: 2017
Authors: Giorgi, M., Aupanun, S., Lee, H.-K., Faillace, V., Laus, F.
Citation: Giorgi, M., Aupanun, S., Lee, H.-K., Faillace, V., & Laus, F. (2017). Pharmacokinetic profiles of the active metamizole metabolites in healthy horses. Journal of Veterinary Pharmacology and Therapeutics, 40(2), 165–171.

Title: Pharmacokinetic investigations of the marker active metabolite-4-methylamino-antipyrin after intravenous and intramuscular injection of metamizole in healthy sheep
Year: 2015
Authors: Giorgi, M., De Vito, V., Lee, H.K., Burmańczuk, A., Vullo, C.
Citation: Giorgi, M., De Vito, V., Lee, H.K., Burmańczuk, A., & Vullo, C. (2015). Pharmacokinetic investigations of the marker active metabolite-4-methylamino-antipyrin after intravenous and intramuscular injection of metamizole in healthy sheep. Small Ruminant Research, 132, 143–146.

Title: Pharmacokinetic and Pharmacodynamic Assessments of Tapentadol in Yellow-Bellied Slider Turtles (Trachemys Scripta Scripta) after a Single Intramuscular Injection
Year: 2015
Authors: Giorgi, M., Lee, H.-K., Rota, S., Demontis, M.P., Varoni, M.V.
Citation: Giorgi, M., Lee, H.-K., Rota, S., Demontis, M.P., & Varoni, M.V. (2015). Pharmacokinetic and Pharmacodynamic Assessments of Tapentadol in Yellow-Bellied Slider Turtles (Trachemys Scripta Scripta) after a Single Intramuscular Injection. Journal of Exotic Pet Medicine, 24(3), 317–325.

Title: Synergistic interaction between tapentadol and flupirtine in the rat orafacial formalin test
Year: 2015
Authors: Lee, H., De Vito, V., Giorgi, M., Yun, H.
Citation: Lee, H., De Vito, V., Giorgi, M., & Yun, H. (2015). Synergistic interaction between tapentadol and flupirtine in the rat orafacial formalin test. European Journal of Pharmacology, 762, 350–356.

Title: Soluble epoxide hydrolase inhibitors: New molecules with potential for use in veterinary medicine
Year: 2014
Authors: Lee, H.K., De Vito, V., Giorgi, M.
Citation: Lee, H.K., De Vito, V., & Giorgi, M. (2014). Soluble epoxide hydrolase inhibitors: New molecules with potential for use in veterinary medicine. Israel Journal of Veterinary Medicine, 69(2), 55–61.

Title: Use of the novel atypical opioid tapentadol in goats (Capra hircus): Pharmacokinetics after intravenous, and intramuscular administration
Year: 2014
Authors: Lavy, E., Lee, H.-K., Mabjeesh, S.J., Baker, Y., Giorgi, M.
Citation: Lavy, E., Lee, H.-K., Mabjeesh, S.J., Baker, Y., & Giorgi, M. (2014). Use of the novel atypical opioid tapentadol in goats (Capra hircus): Pharmacokinetics after intravenous, and intramuscular administration. Journal of Veterinary Pharmacology and Therapeutics, 37(5), 518–521.

Hong-ki Lee | Toxicology | Best Researcher Award

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