CMOS-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain

Protons have been discovered to play a role in neuronal signaling, but current methods to measure pH in the brain of animal models are limited. Here the authors develop a miniaturized proton image sensor that fits into a living mouse brain and can measure pH changes at micrometer and millisecond res...

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Autores principales: Hiroshi Horiuchi, Masakazu Agetsuma, Junko Ishida, Yusuke Nakamura, Dennis Lawrence Cheung, Shin Nanasaki, Yasuyuki Kimura, Tatsuya Iwata, Kazuhiro Takahashi, Kazuaki Sawada, Junichi Nabekura
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/59a36f71f0184c4192ca29170b222301
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spelling oai:doaj.org-article:59a36f71f0184c4192ca29170b2223012021-12-02T14:43:01ZCMOS-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain10.1038/s41467-020-14571-y2041-1723https://doaj.org/article/59a36f71f0184c4192ca29170b2223012020-02-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-14571-yhttps://doaj.org/toc/2041-1723Protons have been discovered to play a role in neuronal signaling, but current methods to measure pH in the brain of animal models are limited. Here the authors develop a miniaturized proton image sensor that fits into a living mouse brain and can measure pH changes at micrometer and millisecond resolution scales.Hiroshi HoriuchiMasakazu AgetsumaJunko IshidaYusuke NakamuraDennis Lawrence CheungShin NanasakiYasuyuki KimuraTatsuya IwataKazuhiro TakahashiKazuaki SawadaJunichi NabekuraNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-9 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Hiroshi Horiuchi
Masakazu Agetsuma
Junko Ishida
Yusuke Nakamura
Dennis Lawrence Cheung
Shin Nanasaki
Yasuyuki Kimura
Tatsuya Iwata
Kazuhiro Takahashi
Kazuaki Sawada
Junichi Nabekura
CMOS-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain
description Protons have been discovered to play a role in neuronal signaling, but current methods to measure pH in the brain of animal models are limited. Here the authors develop a miniaturized proton image sensor that fits into a living mouse brain and can measure pH changes at micrometer and millisecond resolution scales.
format article
author Hiroshi Horiuchi
Masakazu Agetsuma
Junko Ishida
Yusuke Nakamura
Dennis Lawrence Cheung
Shin Nanasaki
Yasuyuki Kimura
Tatsuya Iwata
Kazuhiro Takahashi
Kazuaki Sawada
Junichi Nabekura
author_facet Hiroshi Horiuchi
Masakazu Agetsuma
Junko Ishida
Yusuke Nakamura
Dennis Lawrence Cheung
Shin Nanasaki
Yasuyuki Kimura
Tatsuya Iwata
Kazuhiro Takahashi
Kazuaki Sawada
Junichi Nabekura
author_sort Hiroshi Horiuchi
title CMOS-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain
title_short CMOS-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain
title_full CMOS-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain
title_fullStr CMOS-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain
title_full_unstemmed CMOS-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain
title_sort cmos-based bio-image sensor spatially resolves neural activity-dependent proton dynamics in the living brain
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/59a36f71f0184c4192ca29170b222301
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