Koh Isabel Siew Yin

Affiliation and department：
Research theme for competitive and other funds (1)：

2021 - 2023 Construction of a multi-organ interaction model via the controlled vascularisation of modular organoids

Papers (6)：

Isabel Koh, Masaya Hagiwara. Gradient to sectioning CUBE workflow for the generation and imaging of organoids with localized differentiation. Communications Biology. 2023. 6. 1
Atsushi Takano, Isabel Koh, Masaya Hagiwara. 3D Culture Platform for Enabling Large-Scale Imaging and Control of Cell Distribution into Complex Shapes by Combining 3D Printing with a Cube Device. Micromachines. 2022. 13. 2. 156-156
Junta Yonemoto, Yasuyuki Maki, Isabel Koh, Kazuya Furusawa, Masahiko Annaka. Formation of Multi-Channel Collagen Gels Investigated Using Particle Tracking Microrheology. Biomacromolecules. 2021. 22. 9. 3819-3826
Masaya Hagiwara, Hisataka Maruyama, Masakazu Akiyama, Isabel Koh, Fumihito Arai. Weakening of resistance force by cell-ECM interactions regulate cell migration directionality and pattern formation. Communications biology. 2021. 4. 1. 808-808
Masaya Hagiwara, Isabel Koh. Engineering approaches to control and design the in vitro environment towards the reconstruction of organs. Development, Growth & Differentiation. 2020. 62. 3. 158-166

ｍore...

Books (1)：

A BBB-on-a-Chip Model by the Integration of Tissue-in-a-Cube with Fluidic Device
Chemistry and Micro-Nano Systems (CHEMINAS) 2022

Education (2)：

2015 - 2018 Hokkaido University Graduate School of Life Science PhD Transdisciplinary Life Science
2010 - 2014 University College London Mathematical & Physical Sciences MSci Natural Sciences - Biomedical Sciences and Synthetic Organic Chemistry

Work history (2)：

2019/10 - 現在 RIKEN Cluster for Pioneering Research Postdoctoral Researcher
2015/02 - 2015/07 Albert Einstein College of Medicine Department of Anatomy & Structural Biology Research Trainee

Awards (1)：

2021/11 - Chemistry and Micro-Nano Systems (CHEMINAS) Best Research Award A BBB-on-a-Chip Model by the Integration of Tissue-in-a-Cube with Fluidic Device

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