Highly communicative and analytic candidate with a strong research background in biomedical engineering including cancer therapy and tissue regeneration. Effective in serving as a middle person in resolving issues, developing the project, and scientific communication.
Overview
1
1
year of professional experience
3
3
Languages
7
7
years of post-secondary education
Research Area
Cancer Therapy
Immune Therapy
Tissue Regeneration: Muscle, Bone, Vasculature
Stem Cell Engineering: iPSCs, MSCs
Extracellular Vesicle Engineering
Gene Therapy
Hydrogel Engineering
Work History
Research Scholar
Brigham And Women's Hospital, Harvard Medical School
Boston, MA
12.2022 - 11.2023
Enhanced research quality by collaborating with multidisciplinary teams and sharing expertise.
Achieved research breakthroughs by employing innovative methodologies and rigorous data analysis techniques.
Projects
Performed scientific researches on multiple projects: lung cancer therapy, muscle regeneration, and vascularization.
Lung Cancer Therapy
Managed project as main researcher.
In paper writing process. (first author)
Summary
Gene therapy with exosomes as delivery carrier.
Confirmed anti-cancer effect with selective apoptosis induction and immunomodulatory effect by transfected gene.
Introduced hydrogel platform for efficient gene delivery in clinical application.
Insight
Communicated and collected scientific insights with thought leaders from various fields include sciences, medical and company.
Served as middle person to connect professors, doctors and undergraduate trainees to organize and manage to meet research goal in assigned time.
Muscle Regeneration
Designed and conducted experiments and analyzed data as one of main researcher.
In paper processing (first author)
Summary
Investigated effect of stem cell derived exosomes to differentiate muscle in volumetric muscle loss (VML) model.
Engineered hydrogels for capturing exosomes and clinical application.
In vivo experiments for muscle regeneration in VML defect mouse model.
Insight
Collaborated with international scholars to broaden scope of research projects and share valuable insights across borders.
Analyzed data to determine which theory to select for further research
Vascularization
Designed and conducted experiments and analyzed data as co-worker.
Summary
miRNA-loaded exosomes laden hydrogel to enhance vascular regeneration.
Optimized transfection efficiency of miRNA with exosome as delivery carrier.
Insight
Investigated vascularization effect in 2D cell culture environment.
Analyzed data and discussed theory based on results with team.
Education
Master of Science - Biomedical Engineering
Dongguk University
Seoul, Republic Of Korea
09.2021 - 08.2024
Bachelor of Science - Biomedical Engineering
Dongguk University
Seoul, Republic Of Korea
03.2017 - 08.2021
Skills
Project Management
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Additional Information
Study Abroad
Shanghai, China (2007-08 - 2017-02)
Studied in Shanghai High School International Division (2008-09 - 2015-02)
Timeline
Research Scholar
Brigham And Women's Hospital, Harvard Medical School
12.2022 - 11.2023
Master of Science - Biomedical Engineering
Dongguk University
09.2021 - 08.2024
Bachelor of Science - Biomedical Engineering
Dongguk University
03.2017 - 08.2021
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