Label-free intra-tissue activity imaging of alveolar organoid with three-dimensional dynamic optical coherence tomography

Rion Morishita; Pradipta Mukherjee; Ibrahim Abd El-Sadek; Ibrahim Abd El-Sadek; Toshio Suzuki; Toshio Suzuki; Antonia Lichtenegger; YiHeng Lim; Zhu Yiqiang; Shuichi Makita; Yuki Yamamoto; Tetsuharu Nagamoto; Yoshiaki Yasuno

doi:10.1117/12.2670861

Optical Coherence Imaging Techniques and Imaging in Scattering Media V
Technical Digest Series (Optica Publishing Group, 2023),
paper 126321C
•https://doi.org/10.1117/12.2670861

Label-free intra-tissue activity imaging of alveolar organoid with three-dimensional dynamic optical coherence tomography

Rion Morishita, Pradipta Mukherjee, Ibrahim Abd El-Sadek, Toshio Suzuki, Antonia Lichtenegger, YiHeng Lim, Zhu Yiqiang, Shuichi Makita, Yuki Yamamoto, Tetsuharu Nagamoto, and Yoshiaki Yasuno

European Conference on Biomedical Optics 2023

Munich Germany
25–29 June 2023
ISBN: 9781510664739

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Cell and Tumor Imaging and Applications in Biology (CTI)

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R. Morishita, P. Mukherjee, I. A. El-Sadek, T. Suzuki, A. Lichtenegger, Y. Lim, Z. Yiqiang, S. Makita, Y. Yamamoto, T. Nagamoto, and Y. Yasuno, "Label-free intra-tissue activity imaging of alveolar organoid with three-dimensional dynamic optical coherence tomography," in Optical Coherence Imaging Techniques and Imaging in Scattering Media V, Technical Digest Series (Optica Publishing Group, 2023), paper 126321C.

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Abstract

Organoid is three-dimensional (3D) in vitro cell culture which closely mimics the structure and function of human organs, and hence generally used in the medical and pharmaceutical research [1]. Recently, a human induced pluripotent stem cell (hiPSC)-derived alveolar organoid and its fibrosis model have been demonstrated [2,3]. These alveolar organoids have structures of alveoli and fibroblasts, where they are known to conduct the material metabolism or undergo fibrosis changes [2,3].

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