Li Junjun 李俊君

… Alternative Names

LI Junjun 李俊君

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Researcher Number	10723786
Other IDs	https://orcid.org/0000-0002-7473-4918
Affiliation (Current)	2022: 大阪大学, 大学院医学系研究科, 特任助教
Affiliation (based on the past Project Information) *help	2022: 大阪大学, 医学系研究科, 特任助教 2019 – 2022: 大阪大学, 医学系研究科, 特任助教(常勤) 2017 – 2019: 大阪大学, 医学系研究科, 特任研究員(常勤)
Review Section/Research Field	Principal Investigator Intelligent mechanics/Mechanical systems / Basic Section 90120:Biomaterials-related / Basic Section 90110:Biomedical engineering-related Except Principal Investigator Medium-sized Section 20:Mechanical dynamics, robotics, and related fields / Medium-sized Section 55:Surgery of the organs maintaining homeostasis and related fields / Basic Section 55030:Cardiovascular surgery-related
Keywords	Principal Investigator pluripotent stem cells / cardiomyocytes / maturation / tissue engineering / cardiomyocyte maturation / organ on chip / iPS cell / Cardiomyocyte / Maturation / Traveling wave … More / pluripotent stem cell / 心筋梗塞治療 / 成熟心筋 / 自発進行波 / drug assessment … More Except Principal Investigator ヒトiPS由来心筋細胞 / デバイス / 心筋梗塞治療 / 心筋組織 / 回転培養 / iPS心筋細胞 / 重症心不全治療 / 間葉系幹細胞 Less

hiPSC Derived Mesenchymal stem cells Tissue Enhance Therapeutic Effects of Cardiomyocytes and MSC Tissue Transplantation in Myocardial Infarction Model
- Principal Investigator
  
  劉莉
- Project Period (FY)
  2022 – 2024
- Research Category
  
  Grant-in-Aid for Scientific Research (B)
- Review Section
  
  Basic Section 55030:Cardiovascular surgery-related
- Research Institution
  Osaka University
Cardiac electrophysiology evaluation system for improved drug assessmentPrincipal Investigator
- Principal Investigator
  
  李俊君
- Project Period (FY)
  2022 – 2024
- Research Category
  
  Grant-in-Aid for Scientific Research (C)
- Review Section
  
  Basic Section 90110:Biomedical engineering-related
- Research Institution
  Osaka University
Creating "3D mini heart" for transplantation of heart failure
- Principal Investigator
  
  澤芳樹
- Project Period (FY)
  2020 – 2022
- Research Category
  
  Grant-in-Aid for Scientific Research (A)
- Review Section
  
  Medium-sized Section 55:Surgery of the organs maintaining homeostasis and related fields
- Research Institution
  Osaka University
マイクロ・ナノファイバー融合型デバイスを用いた「心神融合」新規培養法の開発
- Principal Investigator
  
  藤本七恵
- Project Period (FY)
  2019 – 2021
- Research Category
  
  Grant-in-Aid for Challenging Research (Exploratory)
- Review Section
  
  Medium-sized Section 20:Mechanical dynamics, robotics, and related fields
- Research Institution
  Osaka University
Novel method for treating myocardium infarction by using cardiac tissue ring matured by spontaneous traveling wavePrincipal Investigator
- Principal Investigator
  
  李俊君
- Project Period (FY)
  2019 – 2021
- Research Category
  
  Grant-in-Aid for Scientific Research (C)
- Review Section
  
  Basic Section 90120:Biomaterials-related
- Research Institution
  Osaka University
Circulating traveling wave enhances the maturation of cardiomyocytes in self-organized tissuePrincipal Investigator
- Principal Investigator
  
  LI Junjun
- Project Period (FY)
  2017 – 2018
- Research Category
  
  Grant-in-Aid for Young Scientists (B)
- Research Field
  
  Intelligent mechanics/Mechanical systems
- Research Institution
  Osaka University

All 2020 2019 2018 2017

All Journal Article Presentation Patent

[Journal Article] Circulating re-entrant waves promote maturation of hiPSC-derived cardiomyocytes in self-organized tissue ring2020
- Author(s)
  Li Junjun、Zhang Lu、Yu Leqian、Minami Itsunari、Miyagawa Shigeru、H?rning Marcel、Dong Ji、Qiao Jing、Qu Xiang、Hua Ying、Fujimoto Nanae、Shiba Yuji、Zhao Yang、Tang Fuchou、Chen Yong、Sawa Yoshiki、Tang Chao、Liu Li
- Journal Title
  
  Communications Biology
  
  Volume: 3
- DOI
  10.1038/s42003-020-0853-0
- Peer Reviewed / Open Access
- Data Source
  KAKENHI-PROJECT-19K12801
[Journal Article] hiPSC-Derived Cardiac Tissue for Disease Modeling and Drug Discovery2020
- Author(s)
  Li Junjun、Hua Ying、Miyagawa Shigeru、Zhang Jingbo、Li Lingjun、Liu Li、Sawa Yoshiki
- Journal Title
  
  International Journal of Molecular Sciences
  
  Volume: 21 Pages: 8893-8893
- DOI
  10.3390/ijms21238893
- Peer Reviewed / Open Access
- Data Source
  KAKENHI-PROJECT-19K12801
[Journal Article] Clonal Isolation of Human Pluripotent Stem Cells on Nanofibrous Substrates Reveals an Advanced Sub-clone for Cardiomyocyte Differentiation2019
- Author(s)
  Yu, L. ; Li, J. ; , Minami, I.; Qu X.; Miyagawa S.; Fujimoto, N.; Hasegawa K.; Chen, Y.; Sawa, Y.; Kotera, H.; Liu, L.,
- Journal Title
  
  Advanced Healthcare Materials
  
  Volume: In press
- Peer Reviewed / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-17K14624
[Journal Article] Low Cell-Matrix Adhesion Reveals Two Novel Subtypes of Human Pluripotent Stem Cells.2018
- Author(s)
  Yu, L.; Li, J.; Hong, J.; Takashima, Y.; Fujimoto, N.; Nakajima, M.; Yamamoto, A.; Dong, X.; Dang, Y.; Hou, Y.; Yang, W.; Minami, I.; Okita, K.; Tanaka, M.; Luo, C.; Tang, F.; Chen, Y.; Tang, C.; Kotera, H. & Liu, L.
- Journal Title
  
  Stem Cell Reports
  
  Volume: 11 Pages: 142-156
- DOI
  10.1016/j.stemcr.2018.06.003
- NAID
  120006488610
- Peer Reviewed / Open Access / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-17H00855, KAKENHI-PROJECT-17K14624, KAKENHI-PROJECT-16H02465
[Patent] Ring-like cardiac tissue construct2018
- Inventor(s)
  Liu, L.; Li, J.
- Industrial Property Rights Holder
  Liu, L.; Li, J.
- Industrial Property Rights Type
  特許
- Filing Date
  2018
- Data Source
  KAKENHI-PROJECT-17K14624
[Presentation] Circulating TRAVELING WAVES ENHANCE THE MATURATION OF HIPSC-DERIVED CARDIOMYOCYTES IN SELF-ORGANIZED TISSUE RING2019
- Author(s)
  Li Junjun
- Organizer
  The 8th Meeting of the International Federation for Artificial Organs
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K12801
[Presentation] CIRCULATING TRAVELING WAVES ENHANCE THE MATURATION OF HIPSC-DERIVED CARDIOMYOCYTES IN SELF-ORGANIZED TISSUE RING2019
- Author(s)
  Li Junjun
- Organizer
  CiRA 2019 International Symposium
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K12801
[Presentation] Generating functional anisotropic and 3D tissue-like construct using induced pluripotent stem cell-derived cardiomyocytes.2017
- Author(s)
  Li Junjun
- Organizer
  Biomedical Engineering Society Annual Meeting
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-17K14624

1. Liu Li (50380093)

# of Collaborated Projects: 4 results

# of Collaborated Products: 3 results
2. Minami Itsunari (40362537)

# of Collaborated Projects: 3 results

# of Collaborated Products: 2 results
3. 藤本七恵 (00838691)

# of Collaborated Projects: 1 results

# of Collaborated Products: 0 results
4. 澤芳樹 (00243220)

# of Collaborated Projects: 1 results

# of Collaborated Products: 0 results
5. 植村寿公 (60176641)

# of Collaborated Projects: 1 results

# of Collaborated Products: 0 results
6. 田中求

# of Collaborated Projects: 0 results

# of Collaborated Products: 1 results
7. 高島康弘

# of Collaborated Projects: 0 results

# of Collaborated Products: 1 results

Li Junjun 李 俊君

LI Junjun 李 俊君

Research Projects

Research Products

Co-Researchers

hiPSC Derived Mesenchymal stem cells Tissue Enhance Therapeutic Effects of Cardiomyocytes and MSC Tissue Transplantation in Myocardial Infarction Model

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Cardiac electrophysiology evaluation system for improved drug assessmentPrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Creating "3D mini heart" for transplantation of heart failure

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

マイクロ・ナノファイバー融合型デバイスを用いた「心神融合」新規培養法の開発

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Novel method for treating myocardium infarction by using cardiac tissue ring matured by spontaneous traveling wavePrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Circulating traveling wave enhances the maturation of cardiomyocytes in self-organized tissuePrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Research Field

Research Institution

[Journal Article] Circulating re-entrant waves promote maturation of hiPSC-derived cardiomyocytes in self-organized tissue ring2020

Author(s)

Journal Title

DOI

Data Source

[Journal Article] hiPSC-Derived Cardiac Tissue for Disease Modeling and Drug Discovery2020

Author(s)

Journal Title

DOI

Data Source

[Journal Article] Clonal Isolation of Human Pluripotent Stem Cells on Nanofibrous Substrates Reveals an Advanced Sub-clone for Cardiomyocyte Differentiation2019

Author(s)

Journal Title

Data Source

[Journal Article] Low Cell-Matrix Adhesion Reveals Two Novel Subtypes of Human Pluripotent Stem Cells.2018

Author(s)

Journal Title

DOI

NAID

Data Source

[Patent] Ring-like cardiac tissue construct2018

Inventor(s)

Industrial Property Rights Holder

Industrial Property Rights Type

Filing Date

Data Source

[Presentation] Circulating TRAVELING WAVES ENHANCE THE MATURATION OF HIPSC-DERIVED CARDIOMYOCYTES IN SELF-ORGANIZED TISSUE RING2019

Author(s)

Organizer

Data Source

[Presentation] CIRCULATING TRAVELING WAVES ENHANCE THE MATURATION OF HIPSC-DERIVED CARDIOMYOCYTES IN SELF-ORGANIZED TISSUE RING2019

Author(s)

Organizer

Data Source

[Presentation] Generating functional anisotropic and 3D tissue-like construct using induced pluripotent stem cell-derived cardiomyocytes.2017

Author(s)

Organizer

Data Source

Li Junjun 李俊君

LI Junjun 李俊君