Summary
Overview
Research Area
Work History
Education
Skills
Additional Information
Timeline
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Jieun Jeon

Jieun Jeon

Biomedical Engineer
Goyang,Gyeonggi

Summary

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
Jieun JeonBiomedical Engineer