Spectroscopic second and third harmonic generation microscopy using a femtosecond laser source in the third near-infrared (NIR-III) optical window

Yusuke Murakami; Minori Masaki; Shinichi Miyazaki; Ryosuke Oketani; Yu Hayashi; Masashi Yanagisawa; Sakiko Honjoh; Hideaki Kano

doi:10.1364/BOE.446273

Spectroscopic second and third harmonic generation microscopy using a femtosecond laser source in the third near-infrared (NIR-III) optical window

Yusuke Murakami, Minori Masaki, Shinichi Miyazaki, Ryosuke Oketani, Yu Hayashi, Masashi Yanagisawa, Sakiko Honjoh, Hideaki Kano

物理化学

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

1 被引用数 (Scopus)

抄録

In this study, second harmonic generation (SHG) and third harmonic generation (THG) spectroscopic imaging were performed on biological samples using a femtosecond laser source in the third near-infrared (NIR) optical window (NIR-III). Using a visible-NIR spectrometer, the SHG and THG signals were simultaneously detected and were extracted using spectral analysis. Visualization of biological samples such as cultured cells (HEK293 T), mouse brain slices, and the nematode Caenorhabditis elegans was performed in a label-free manner. In particular, in an SHG image of an entire coronal brain section (8 × 6 mm²), we observed mesh-like and filamentous structures in the arachnoid mater and wall of the cerebral ventricle, probably corresponding to the collagen fibers, cilia, and rootlet. Moreover, the THG images clearly depicted the densely packed axons in the white matter and cell nuclei at the cortex of the mouse brain slice sample and lipid-rich granules such as lipid droplets inside the nematode. The observations and conclusions drawn from this technique confirm that it can be utilized for various biological applications, including in vivo label-free imaging of living animals.

本文言語	英語
ページ（範囲）	694-708
ページ数	15
ジャーナル	Biomedical Optics Express
巻	13
号	2
DOI	https://doi.org/10.1364/BOE.446273
出版ステータス	出版済み - 2月 1 2022

!!!All Science Journal Classification (ASJC) codes

バイオテクノロジー
原子分子物理学および光学

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@article{9433fded2c3d4a52bb98586e9ade7a43,

title = "Spectroscopic second and third harmonic generation microscopy using a femtosecond laser source in the third near-infrared (NIR-III) optical window",

abstract = "In this study, second harmonic generation (SHG) and third harmonic generation (THG) spectroscopic imaging were performed on biological samples using a femtosecond laser source in the third near-infrared (NIR) optical window (NIR-III). Using a visible-NIR spectrometer, the SHG and THG signals were simultaneously detected and were extracted using spectral analysis. Visualization of biological samples such as cultured cells (HEK293 T), mouse brain slices, and the nematode Caenorhabditis elegans was performed in a label-free manner. In particular, in an SHG image of an entire coronal brain section (8 × 6 mm2), we observed mesh-like and filamentous structures in the arachnoid mater and wall of the cerebral ventricle, probably corresponding to the collagen fibers, cilia, and rootlet. Moreover, the THG images clearly depicted the densely packed axons in the white matter and cell nuclei at the cortex of the mouse brain slice sample and lipid-rich granules such as lipid droplets inside the nematode. The observations and conclusions drawn from this technique confirm that it can be utilized for various biological applications, including in vivo label-free imaging of living animals.",

author = "Yusuke Murakami and Minori Masaki and Shinichi Miyazaki and Ryosuke Oketani and Yu Hayashi and Masashi Yanagisawa and Sakiko Honjoh and Hideaki Kano",

note = "Funding Information: Acknowledgments. The authors thank Mr. S. Ishibashi, Mr. T. Maruyama, Mr. N. O. Grooms, and Ms. A. Imamura for their helpful discussions and measurement of the starch sample. The authors gratefully acknowledge Dr. M. Nuriya, Keio University, for the fruitful discussions. Nematode strains were provided by the CGC, which is funded by NIH Office of Research Infrastructure Programs (P40 OD010440). We would like to thank Editage (www.editage.com) for English language editing. Funding Information: JSPS KAKENHI (JP21H04961 Grant-in-Aid for Scientific Research [A]). Funding Information: The authors thank Mr. S. Ishibashi, Mr. T. Maruyama, Mr. N. O. Grooms, and Ms. A. Imamura for their helpful discussions and measurement of the starch sample. The authors gratefully acknowledge Dr. M. Nuriya, Keio University, for the fruitful discussions. Nematode strains were provided by the CGC, which is funded by NIH Office of Research Infrastructure Programs (P40 OD010440). We would like to thank Editage (www.editage.com) for English language editing. Publisher Copyright: {\textcopyright} 2022 OSA - The Optical Society. All rights reserved.",

year = "2022",

month = feb,

day = "1",

doi = "10.1364/BOE.446273",

language = "English",

volume = "13",

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journal = "Biomedical Optics Express",

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publisher = "The Optical Society",

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T1 - Spectroscopic second and third harmonic generation microscopy using a femtosecond laser source in the third near-infrared (NIR-III) optical window

AU - Murakami, Yusuke

AU - Masaki, Minori

AU - Miyazaki, Shinichi

AU - Oketani, Ryosuke

AU - Hayashi, Yu

AU - Yanagisawa, Masashi

AU - Honjoh, Sakiko

AU - Kano, Hideaki

N1 - Funding Information: Acknowledgments. The authors thank Mr. S. Ishibashi, Mr. T. Maruyama, Mr. N. O. Grooms, and Ms. A. Imamura for their helpful discussions and measurement of the starch sample. The authors gratefully acknowledge Dr. M. Nuriya, Keio University, for the fruitful discussions. Nematode strains were provided by the CGC, which is funded by NIH Office of Research Infrastructure Programs (P40 OD010440). We would like to thank Editage (www.editage.com) for English language editing. Funding Information: JSPS KAKENHI (JP21H04961 Grant-in-Aid for Scientific Research [A]). Funding Information: The authors thank Mr. S. Ishibashi, Mr. T. Maruyama, Mr. N. O. Grooms, and Ms. A. Imamura for their helpful discussions and measurement of the starch sample. The authors gratefully acknowledge Dr. M. Nuriya, Keio University, for the fruitful discussions. Nematode strains were provided by the CGC, which is funded by NIH Office of Research Infrastructure Programs (P40 OD010440). We would like to thank Editage (www.editage.com) for English language editing. Publisher Copyright: © 2022 OSA - The Optical Society. All rights reserved.

PY - 2022/2/1

Y1 - 2022/2/1

N2 - In this study, second harmonic generation (SHG) and third harmonic generation (THG) spectroscopic imaging were performed on biological samples using a femtosecond laser source in the third near-infrared (NIR) optical window (NIR-III). Using a visible-NIR spectrometer, the SHG and THG signals were simultaneously detected and were extracted using spectral analysis. Visualization of biological samples such as cultured cells (HEK293 T), mouse brain slices, and the nematode Caenorhabditis elegans was performed in a label-free manner. In particular, in an SHG image of an entire coronal brain section (8 × 6 mm2), we observed mesh-like and filamentous structures in the arachnoid mater and wall of the cerebral ventricle, probably corresponding to the collagen fibers, cilia, and rootlet. Moreover, the THG images clearly depicted the densely packed axons in the white matter and cell nuclei at the cortex of the mouse brain slice sample and lipid-rich granules such as lipid droplets inside the nematode. The observations and conclusions drawn from this technique confirm that it can be utilized for various biological applications, including in vivo label-free imaging of living animals.

AB - In this study, second harmonic generation (SHG) and third harmonic generation (THG) spectroscopic imaging were performed on biological samples using a femtosecond laser source in the third near-infrared (NIR) optical window (NIR-III). Using a visible-NIR spectrometer, the SHG and THG signals were simultaneously detected and were extracted using spectral analysis. Visualization of biological samples such as cultured cells (HEK293 T), mouse brain slices, and the nematode Caenorhabditis elegans was performed in a label-free manner. In particular, in an SHG image of an entire coronal brain section (8 × 6 mm2), we observed mesh-like and filamentous structures in the arachnoid mater and wall of the cerebral ventricle, probably corresponding to the collagen fibers, cilia, and rootlet. Moreover, the THG images clearly depicted the densely packed axons in the white matter and cell nuclei at the cortex of the mouse brain slice sample and lipid-rich granules such as lipid droplets inside the nematode. The observations and conclusions drawn from this technique confirm that it can be utilized for various biological applications, including in vivo label-free imaging of living animals.

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