Eun Jung (Alice) Lee
Eun Jung (Alice) Lee
Associate Professor, Bio-Medical Engineering
615 Fenster Hall
Education
Ph.D.; Columbia University in the City of New York; Biomedical Engineering; 2007
M.S.; Columbia University in the City of New York; Biomedical Engineering; 2002
B.S.; Dongduk Womens University, Seoul Korea; ; 2000
M.S.; Columbia University in the City of New York; Biomedical Engineering; 2002
B.S.; Dongduk Womens University, Seoul Korea; ; 2000
2023 Fall Courses
BME 385 - CELL & BIOMATERIAL ENGR LAB
BME 792 - PRE-DOCTORAL RESEARCH
BME 790B - DOCTORAL DISSERTATION
BME 790C - DOCTORAL DISSERTATION
BME 492 - RESEARCH & INDPNDNT STUDY II
BME 701C - MASTER'S THESIS
BME 790A - DOCTORAL DISSERTATION
BME 790F - DOCT DISSERTATION & RESEARCH
BME 491 - RESEARCH & INDEPENDENT STUDY I
BME 725 - INDEPENDENT STUDY
BME 790D - DOCTORAL DISSERTATION
BME 700B - MASTER'S PROJECT
BME 701B - MASTER'S THESIS
BME 726 - INDEPENDENT STUDY II
BME 790E - DOCTORAL DISSERTATION
BME 493 - HONORS RESEARCH THESIS I
BME 792 - PRE-DOCTORAL RESEARCH
BME 790B - DOCTORAL DISSERTATION
BME 790C - DOCTORAL DISSERTATION
BME 492 - RESEARCH & INDPNDNT STUDY II
BME 701C - MASTER'S THESIS
BME 790A - DOCTORAL DISSERTATION
BME 790F - DOCT DISSERTATION & RESEARCH
BME 491 - RESEARCH & INDEPENDENT STUDY I
BME 725 - INDEPENDENT STUDY
BME 790D - DOCTORAL DISSERTATION
BME 700B - MASTER'S PROJECT
BME 701B - MASTER'S THESIS
BME 726 - INDEPENDENT STUDY II
BME 790E - DOCTORAL DISSERTATION
BME 493 - HONORS RESEARCH THESIS I
Past Courses
BME 302: INTRO BIOMED ENGR II
BME 385: CELL & BIOMATERIAL ENGR LAB
BME 385: CELL AND BIOMATERIAL ENGINEERING LABORARORY
BME 652: CELL & MOLECULAR TISSUE ENGR
BME 698: ST:
BME 698: ST: CARDIO. TISSUE ENGINEERING
BME 698: ST:CARDIO TISSUE ENGINEERING
BME 385: CELL & BIOMATERIAL ENGR LAB
BME 385: CELL AND BIOMATERIAL ENGINEERING LABORARORY
BME 652: CELL & MOLECULAR TISSUE ENGR
BME 698: ST:
BME 698: ST: CARDIO. TISSUE ENGINEERING
BME 698: ST:CARDIO TISSUE ENGINEERING
In Progress
Myocardial regeneration
Using peptide hydrogels to encapsulate and deliver cells to the heart after heart attacks for myocardial regeneration.
Using peptide hydrogels to encapsulate and deliver cells to the heart after heart attacks for myocardial regeneration.
Journal Article
House, Andrew, & Atalla, Iren, & Lee, Eun, & Guvendiren, Murat (2021). Designing Biomaterial Platforms for Cardiac Tissue and Disease Modeling. Advanced NanoBiomed Research, 1(1), 2000022.
House, Andrew, & Atalla, Iren, & Lee, Eun Jung, & Guvendiren, Murat (2020). Designing Biomaterial Platforms for Cardiac Tissue and Disease Modeling. Advanced NanoBiomed Research, 2000022.
Hitscherich, Pamela, & Xie, Lai, & Del Re, Dominic, & Lee, Eun (2019). The effects of macrophages on cardiomyocyte calcium-handling function using in vitro culture models. Physiological Reports, 7(13),
Hitscherich, Pamela, & Aphale, Ashish, & Gordan, Richard, & Whitaker, Ricardo, & Singh, Prabhakar, & Xie, Lai, & Patra, Prabir, & Lee, Eun (2018). Electroactive graphene composite scaffolds for cardiac tissue engineering. Journal of Biomedical Materials Research - Part A, 106(11), 2923-2933.
Hitscherich, Pamela, & Nguyen, Peter, & Kannan, Adithya, & Chirayath, Anthony, & Anur, Sugosh, & Sarkar, Biplab, & Lee, Eun, & Kumar, Vivek (2018). Injectable self-assembling peptide hydrogels for tissue writing and embryonic stem cell culture. Journal of Biomedical Nanotechnology, 14(4), 802-807.
Hitscherich, Pamela, & Wu, Siliang, & Gordan, Richard, & Xie, Lai, & Arinzeh, Treena, & Lee, Eun (2016). The effect of PVDF-TrFE scaffolds on stem cell derived cardiovascular cells. Biotechnology and Bioengineering, 113(7), 1577-1585.
Lee, Eun Jung , & Jain , Neha (2015). Islet specific endothelial cell derived from mouse embryonic stem cells. Cell Transplantation,
House, Andrew, & Atalla, Iren, & Lee, Eun Jung, & Guvendiren, Murat (2020). Designing Biomaterial Platforms for Cardiac Tissue and Disease Modeling. Advanced NanoBiomed Research, 2000022.
Hitscherich, Pamela, & Xie, Lai, & Del Re, Dominic, & Lee, Eun (2019). The effects of macrophages on cardiomyocyte calcium-handling function using in vitro culture models. Physiological Reports, 7(13),
Hitscherich, Pamela, & Aphale, Ashish, & Gordan, Richard, & Whitaker, Ricardo, & Singh, Prabhakar, & Xie, Lai, & Patra, Prabir, & Lee, Eun (2018). Electroactive graphene composite scaffolds for cardiac tissue engineering. Journal of Biomedical Materials Research - Part A, 106(11), 2923-2933.
Hitscherich, Pamela, & Nguyen, Peter, & Kannan, Adithya, & Chirayath, Anthony, & Anur, Sugosh, & Sarkar, Biplab, & Lee, Eun, & Kumar, Vivek (2018). Injectable self-assembling peptide hydrogels for tissue writing and embryonic stem cell culture. Journal of Biomedical Nanotechnology, 14(4), 802-807.
Hitscherich, Pamela, & Wu, Siliang, & Gordan, Richard, & Xie, Lai, & Arinzeh, Treena, & Lee, Eun (2016). The effect of PVDF-TrFE scaffolds on stem cell derived cardiovascular cells. Biotechnology and Bioengineering, 113(7), 1577-1585.
Lee, Eun Jung , & Jain , Neha (2015). Islet specific endothelial cell derived from mouse embryonic stem cells. Cell Transplantation,
Chapter
Lee, Eun, & Hitscherich, Pamela (2016). Cardiac Tissue Engineering, . (pp. 413-443).
Professional
NIH Grant
Reviewer, Grant Proposal, 2017
Reviewer, Grant Proposal, 2017