Intelligent Image-Activated Cell Sorting

Nao Nitta; Takeaki Sugimura; Akihiro Isozaki; Hideharu Mikami; Kei Hiraki; Shinya Sakuma; Takanori Iino; Fumihito Arai; Taichiro Endo; Yasuhiro Fujiwaki; Hideya Fukuzawa; Misa Hase; Takeshi Hayakawa; Kotaro Hiramatsu; Yu Hoshino; Mary Inaba; Takuro Ito; Hiroshi Karakawa; Yusuke Kasai; Kenichi Koizumi; Sang Wook Lee; Cheng Lei; Ming Li; Takanori Maeno; Satoshi Matsusaka; Daichi Murakami; Atsuhiro Nakagawa; Yusuke Oguchi; Minoru Oikawa; Tadataka Ota; Kiyotaka Shiba; Hirofumi Shintaku; Yoshitaka Shirasaki; Kanako Suga; Yuta Suzuki; Nobutake Suzuki; Yo Tanaka; Hiroshi Tezuka; Chihana Toyokawa; Yaxiaer Yalikun; Makoto Yamada; Mai Yamagishi; Takashi Yamano; Atsushi Yasumoto; Yutaka Yatomi; Masayuki Yazawa; Dino Di Carlo; Yoichiroh Hosokawa; Sotaro Uemura; Yasuyuki Ozeki; Keisuke Goda

doi:10.1016/j.cell.2018.08.028

Intelligent Image-Activated Cell Sorting

Nao Nitta, Takeaki Sugimura, Akihiro Isozaki, Hideharu Mikami, Kei Hiraki, Shinya Sakuma, Takanori Iino, Fumihito Arai, Taichiro Endo, Yasuhiro Fujiwaki, Hideya Fukuzawa, Misa Hase, Takeshi Hayakawa, Kotaro Hiramatsu, Yu Hoshino, Mary Inaba, Takuro Ito, Hiroshi Karakawa, Yusuke Kasai, Kenichi KoizumiSang Wook Lee, Cheng Lei, Ming Li, Takanori Maeno, Satoshi Matsusaka, Daichi Murakami, Atsuhiro Nakagawa, Yusuke Oguchi, Minoru Oikawa, Tadataka Ota, Kiyotaka Shiba, Hirofumi Shintaku, Yoshitaka Shirasaki, Kanako Suga, Yuta Suzuki, Nobutake Suzuki, Yo Tanaka, Hiroshi Tezuka, Chihana Toyokawa, Yaxiaer Yalikun, Makoto Yamada, Mai Yamagishi, Takashi Yamano, Atsushi Yasumoto, Yutaka Yatomi, Masayuki Yazawa, Dino Di Carlo, Yoichiroh Hosokawa, Sotaro Uemura, Yasuyuki Ozeki, Keisuke Goda

大学病院・臨床研究推進センター

研究成果: Article › 査読

310 被引用数 (Scopus)

抄録

A fundamental challenge of biology is to understand the vast heterogeneity of cells, particularly how cellular composition, structure, and morphology are linked to cellular physiology. Unfortunately, conventional technologies are limited in uncovering these relations. We present a machine-intelligence technology based on a radically different architecture that realizes real-time image-based intelligent cell sorting at an unprecedented rate. This technology, which we refer to as intelligent image-activated cell sorting, integrates high-throughput cell microscopy, focusing, and sorting on a hybrid software-hardware data-management infrastructure, enabling real-time automated operation for data acquisition, data processing, decision-making, and actuation. We use it to demonstrate real-time sorting of microalgal and blood cells based on intracellular protein localization and cell-cell interaction from large heterogeneous populations for studying photosynthesis and atherothrombosis, respectively. The technology is highly versatile and expected to enable machine-based scientific discovery in biological, pharmaceutical, and medical sciences. Artificial-intelligence-assisted, image-based flow cytometry in real-time enables rapid cell sorting based on unique chemical and morphological features.

本文言語	English
ページ（範囲）	266-276.e13
ジャーナル	Cell
巻	175
号	1
DOI	https://doi.org/10.1016/j.cell.2018.08.028
出版ステータス	Published - 2018 9月 20

ASJC Scopus subject areas

生化学、遺伝学、分子生物学（全般）

文献へのアクセス

10.1016/j.cell.2018.08.028

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引用スタイル

Nitta, N, Sugimura, T, Isozaki, A, Mikami, H, Hiraki, K, Sakuma, S, Iino, T, Arai, F, Endo, T, Fujiwaki, Y, Fukuzawa, H, Hase, M, Hayakawa, T, Hiramatsu, K, Hoshino, Y, Inaba, M, Ito, T, Karakawa, H, Kasai, Y, Koizumi, K, Lee, SW, Lei, C, Li, M, Maeno, T, Matsusaka, S, Murakami, D, Nakagawa, A, Oguchi, Y, Oikawa, M, Ota, T, Shiba, K, Shintaku, H, Shirasaki, Y, Suga, K, Suzuki, Y, Suzuki, N, Tanaka, Y, Tezuka, H, Toyokawa, C, Yalikun, Y, Yamada, M, Yamagishi, M, Yamano, T, Yasumoto, A, Yatomi, Y, Yazawa, M, Di Carlo, D, Hosokawa, Y, Uemura, S, Ozeki, Y & Goda, K 2018, 'Intelligent Image-Activated Cell Sorting', Cell, vol. 175, no. 1, pp. 266-276.e13. https://doi.org/10.1016/j.cell.2018.08.028

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title = "Intelligent Image-Activated Cell Sorting",

abstract = "A fundamental challenge of biology is to understand the vast heterogeneity of cells, particularly how cellular composition, structure, and morphology are linked to cellular physiology. Unfortunately, conventional technologies are limited in uncovering these relations. We present a machine-intelligence technology based on a radically different architecture that realizes real-time image-based intelligent cell sorting at an unprecedented rate. This technology, which we refer to as intelligent image-activated cell sorting, integrates high-throughput cell microscopy, focusing, and sorting on a hybrid software-hardware data-management infrastructure, enabling real-time automated operation for data acquisition, data processing, decision-making, and actuation. We use it to demonstrate real-time sorting of microalgal and blood cells based on intracellular protein localization and cell-cell interaction from large heterogeneous populations for studying photosynthesis and atherothrombosis, respectively. The technology is highly versatile and expected to enable machine-based scientific discovery in biological, pharmaceutical, and medical sciences. Artificial-intelligence-assisted, image-based flow cytometry in real-time enables rapid cell sorting based on unique chemical and morphological features.",

keywords = "cellular heterogeneity, cellular morphology, convolutional neural network, deep learning, high-throughput microscopy, high-throughput screening, image-activated cell sorting, machine intelligence",

author = "Nao Nitta and Takeaki Sugimura and Akihiro Isozaki and Hideharu Mikami and Kei Hiraki and Shinya Sakuma and Takanori Iino and Fumihito Arai and Taichiro Endo and Yasuhiro Fujiwaki and Hideya Fukuzawa and Misa Hase and Takeshi Hayakawa and Kotaro Hiramatsu and Yu Hoshino and Mary Inaba and Takuro Ito and Hiroshi Karakawa and Yusuke Kasai and Kenichi Koizumi and Lee, {Sang Wook} and Cheng Lei and Ming Li and Takanori Maeno and Satoshi Matsusaka and Daichi Murakami and Atsuhiro Nakagawa and Yusuke Oguchi and Minoru Oikawa and Tadataka Ota and Kiyotaka Shiba and Hirofumi Shintaku and Yoshitaka Shirasaki and Kanako Suga and Yuta Suzuki and Nobutake Suzuki and Yo Tanaka and Hiroshi Tezuka and Chihana Toyokawa and Yaxiaer Yalikun and Makoto Yamada and Mai Yamagishi and Takashi Yamano and Atsushi Yasumoto and Yutaka Yatomi and Masayuki Yazawa and {Di Carlo}, Dino and Yoichiroh Hosokawa and Sotaro Uemura and Yasuyuki Ozeki and Keisuke Goda",

note = "Funding Information: This work was funded by the ImPACT program of the Council for Science, Technology, and Innovation (Cabinet Office, Government of Japan) . We thank M. Kanematsu, M. Urakawa, and A. Komiya for assistance. N.N. is an ISAC Marylou Ingram Scholar. Funding Information: This work was funded by the ImPACT program of the Council for Science, Technology, and Innovation (Cabinet Office, Government of Japan). We thank M. Kanematsu, M. Urakawa, and A. Komiya for assistance. N.N. is an ISAC Marylou Ingram Scholar. Publisher Copyright: {\textcopyright} 2018 Elsevier Inc.",

year = "2018",

month = sep,

day = "20",

doi = "10.1016/j.cell.2018.08.028",

language = "English",

volume = "175",

pages = "266--276.e13",

journal = "Cell",

issn = "0092-8674",

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T1 - Intelligent Image-Activated Cell Sorting

AU - Nitta, Nao

AU - Sugimura, Takeaki

AU - Isozaki, Akihiro

AU - Mikami, Hideharu

AU - Hiraki, Kei

AU - Sakuma, Shinya

AU - Iino, Takanori

AU - Arai, Fumihito

AU - Endo, Taichiro

AU - Fujiwaki, Yasuhiro

AU - Fukuzawa, Hideya

AU - Hase, Misa

AU - Hayakawa, Takeshi

AU - Hiramatsu, Kotaro

AU - Hoshino, Yu

AU - Inaba, Mary

AU - Ito, Takuro

AU - Karakawa, Hiroshi

AU - Kasai, Yusuke

AU - Koizumi, Kenichi

AU - Lee, Sang Wook

AU - Lei, Cheng

AU - Li, Ming

AU - Maeno, Takanori

AU - Matsusaka, Satoshi

AU - Murakami, Daichi

AU - Nakagawa, Atsuhiro

AU - Oguchi, Yusuke

AU - Oikawa, Minoru

AU - Ota, Tadataka

AU - Shiba, Kiyotaka

AU - Shintaku, Hirofumi

AU - Shirasaki, Yoshitaka

AU - Suga, Kanako

AU - Suzuki, Yuta

AU - Suzuki, Nobutake

AU - Tanaka, Yo

AU - Tezuka, Hiroshi

AU - Toyokawa, Chihana

AU - Yalikun, Yaxiaer

AU - Yamada, Makoto

AU - Yamagishi, Mai

AU - Yamano, Takashi

AU - Yasumoto, Atsushi

AU - Yatomi, Yutaka

AU - Yazawa, Masayuki

AU - Di Carlo, Dino

AU - Hosokawa, Yoichiroh

AU - Uemura, Sotaro

AU - Ozeki, Yasuyuki

AU - Goda, Keisuke

N1 - Funding Information: This work was funded by the ImPACT program of the Council for Science, Technology, and Innovation (Cabinet Office, Government of Japan) . We thank M. Kanematsu, M. Urakawa, and A. Komiya for assistance. N.N. is an ISAC Marylou Ingram Scholar. Funding Information: This work was funded by the ImPACT program of the Council for Science, Technology, and Innovation (Cabinet Office, Government of Japan). We thank M. Kanematsu, M. Urakawa, and A. Komiya for assistance. N.N. is an ISAC Marylou Ingram Scholar. Publisher Copyright: © 2018 Elsevier Inc.

PY - 2018/9/20

Y1 - 2018/9/20

N2 - A fundamental challenge of biology is to understand the vast heterogeneity of cells, particularly how cellular composition, structure, and morphology are linked to cellular physiology. Unfortunately, conventional technologies are limited in uncovering these relations. We present a machine-intelligence technology based on a radically different architecture that realizes real-time image-based intelligent cell sorting at an unprecedented rate. This technology, which we refer to as intelligent image-activated cell sorting, integrates high-throughput cell microscopy, focusing, and sorting on a hybrid software-hardware data-management infrastructure, enabling real-time automated operation for data acquisition, data processing, decision-making, and actuation. We use it to demonstrate real-time sorting of microalgal and blood cells based on intracellular protein localization and cell-cell interaction from large heterogeneous populations for studying photosynthesis and atherothrombosis, respectively. The technology is highly versatile and expected to enable machine-based scientific discovery in biological, pharmaceutical, and medical sciences. Artificial-intelligence-assisted, image-based flow cytometry in real-time enables rapid cell sorting based on unique chemical and morphological features.

AB - A fundamental challenge of biology is to understand the vast heterogeneity of cells, particularly how cellular composition, structure, and morphology are linked to cellular physiology. Unfortunately, conventional technologies are limited in uncovering these relations. We present a machine-intelligence technology based on a radically different architecture that realizes real-time image-based intelligent cell sorting at an unprecedented rate. This technology, which we refer to as intelligent image-activated cell sorting, integrates high-throughput cell microscopy, focusing, and sorting on a hybrid software-hardware data-management infrastructure, enabling real-time automated operation for data acquisition, data processing, decision-making, and actuation. We use it to demonstrate real-time sorting of microalgal and blood cells based on intracellular protein localization and cell-cell interaction from large heterogeneous populations for studying photosynthesis and atherothrombosis, respectively. The technology is highly versatile and expected to enable machine-based scientific discovery in biological, pharmaceutical, and medical sciences. Artificial-intelligence-assisted, image-based flow cytometry in real-time enables rapid cell sorting based on unique chemical and morphological features.

KW - cellular heterogeneity

KW - cellular morphology

KW - convolutional neural network

KW - deep learning

KW - high-throughput microscopy

KW - high-throughput screening

KW - image-activated cell sorting

KW - machine intelligence

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UR - http://www.scopus.com/inward/citedby.url?scp=85054484004&partnerID=8YFLogxK

U2 - 10.1016/j.cell.2018.08.028

DO - 10.1016/j.cell.2018.08.028

M3 - Article

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AN - SCOPUS:85054484004

SN - 0092-8674

VL - 175

SP - 266-276.e13

JO - Cell

JF - Cell

IS - 1

ER -

Intelligent Image-Activated Cell Sorting

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