Development and clinical translation of photoacoustic mammography

Tsuyoshi Shiina; Masakazu Toi; Takayuki Yagi

doi:10.1007/s13534-018-0070-7

Development and clinical translation of photoacoustic mammography

Tsuyoshi Shiina, Masakazu Toi, Takayuki Yagi

Research output: Contribution to journal › Review article › peer-review

18 Citations (Scopus)

Abstract

To practically apply photoacoustic (PA) imaging technology in medicine, we have developed prototypes of a photoacoustic mammography (PAM) device to acquire images for diagnosing breast cancer in the Kyoto University/Canon joint research project (CK project supported by MEXT, Japan). First, the basic ability of the PAM system to visualize the network of blood vessels and the Hb saturation index was evaluated using a prototype of PAM that has a flat scanning detector and is capable of simultaneously acquiring photoacoustic (PA) and ultrasound images. Next, another prototype of a PAM device with hemispherical sensors was developed to improve the visibility of the 3D structure of vessels by reducing the limited view effect. In clinical examination of breast cancer cases, the PAM system allowed 3D visualization of fine vessel networks with a spatial resolution of a half-millimeter and enabled us to determine the features of tumor-related vascular structures in human breast cancer. In addition, the oxygen saturation status of Hb was visualized using two different wavelengths, enabling more precise characterization of the tumor microenvironment. Results of clinical evaluation using our developed prototype of a PAM device confirmed that PA imaging technology has the potential to promote early detection of breast cancer, and realization of its practical use is expected in the near future.

Original language	English
Pages (from-to)	157-165
Number of pages	9
Journal	Biomedical Engineering Letters
Volume	8
Issue number	2
DOIs	https://doi.org/10.1007/s13534-018-0070-7
Publication status	Published - 2018 May 1
Externally published	Yes

Keywords

Mammography
Optoacoustic
Oxygen saturation
Photoacoustic imaging
Ultrasound
Vascularity

ASJC Scopus subject areas

Biomedical Engineering

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10.1007/s13534-018-0070-7

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title = "Development and clinical translation of photoacoustic mammography",

abstract = "To practically apply photoacoustic (PA) imaging technology in medicine, we have developed prototypes of a photoacoustic mammography (PAM) device to acquire images for diagnosing breast cancer in the Kyoto University/Canon joint research project (CK project supported by MEXT, Japan). First, the basic ability of the PAM system to visualize the network of blood vessels and the Hb saturation index was evaluated using a prototype of PAM that has a flat scanning detector and is capable of simultaneously acquiring photoacoustic (PA) and ultrasound images. Next, another prototype of a PAM device with hemispherical sensors was developed to improve the visibility of the 3D structure of vessels by reducing the limited view effect. In clinical examination of breast cancer cases, the PAM system allowed 3D visualization of fine vessel networks with a spatial resolution of a half-millimeter and enabled us to determine the features of tumor-related vascular structures in human breast cancer. In addition, the oxygen saturation status of Hb was visualized using two different wavelengths, enabling more precise characterization of the tumor microenvironment. Results of clinical evaluation using our developed prototype of a PAM device confirmed that PA imaging technology has the potential to promote early detection of breast cancer, and realization of its practical use is expected in the near future.",

keywords = "Mammography, Optoacoustic, Oxygen saturation, Photoacoustic imaging, Ultrasound, Vascularity",

author = "Tsuyoshi Shiina and Masakazu Toi and Takayuki Yagi",

note = "Funding Information: The authors thank all members of the CK project at Kyoto University Hospital and Canon, Inc., for collaboration of PAM research and analyzing clinical data. Takayuki Yagi is an employee of Canon Inc., Japan and temporarily transferred to the Japan Science and Technology Agency. Canon Inc. designed and invented the photoacoustic mammography system used in this study. The other authors have no conflict of interest. Funding Information: Funding This study was funded by the CK project {\textquoteleft}{\textquoteleft}Innovative Techno-hub for Integrated Medical Bio-imaging{\textquoteright}{\textquoteright} supported by the Ministry of Education, Culture, Sports, Science, and Technology, Japan, and the ImPACT Program {\textquoteleft}{\textquoteleft}Innovative visualization technology to create a new growth industry{\textquoteright}{\textquoteright} supported by the Council for Science, Technology and Innovation, Cabinet Office, Japan. Publisher Copyright: {\textcopyright} 2018, Korean Society of Medical and Biological Engineering and Springer-Verlag GmbH Germany, part of Springer Nature.",

year = "2018",

month = may,

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doi = "10.1007/s13534-018-0070-7",

language = "English",

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T1 - Development and clinical translation of photoacoustic mammography

AU - Shiina, Tsuyoshi

AU - Toi, Masakazu

AU - Yagi, Takayuki

N1 - Funding Information: The authors thank all members of the CK project at Kyoto University Hospital and Canon, Inc., for collaboration of PAM research and analyzing clinical data. Takayuki Yagi is an employee of Canon Inc., Japan and temporarily transferred to the Japan Science and Technology Agency. Canon Inc. designed and invented the photoacoustic mammography system used in this study. The other authors have no conflict of interest. Funding Information: Funding This study was funded by the CK project ‘‘Innovative Techno-hub for Integrated Medical Bio-imaging’’ supported by the Ministry of Education, Culture, Sports, Science, and Technology, Japan, and the ImPACT Program ‘‘Innovative visualization technology to create a new growth industry’’ supported by the Council for Science, Technology and Innovation, Cabinet Office, Japan. Publisher Copyright: © 2018, Korean Society of Medical and Biological Engineering and Springer-Verlag GmbH Germany, part of Springer Nature.

PY - 2018/5/1

Y1 - 2018/5/1

N2 - To practically apply photoacoustic (PA) imaging technology in medicine, we have developed prototypes of a photoacoustic mammography (PAM) device to acquire images for diagnosing breast cancer in the Kyoto University/Canon joint research project (CK project supported by MEXT, Japan). First, the basic ability of the PAM system to visualize the network of blood vessels and the Hb saturation index was evaluated using a prototype of PAM that has a flat scanning detector and is capable of simultaneously acquiring photoacoustic (PA) and ultrasound images. Next, another prototype of a PAM device with hemispherical sensors was developed to improve the visibility of the 3D structure of vessels by reducing the limited view effect. In clinical examination of breast cancer cases, the PAM system allowed 3D visualization of fine vessel networks with a spatial resolution of a half-millimeter and enabled us to determine the features of tumor-related vascular structures in human breast cancer. In addition, the oxygen saturation status of Hb was visualized using two different wavelengths, enabling more precise characterization of the tumor microenvironment. Results of clinical evaluation using our developed prototype of a PAM device confirmed that PA imaging technology has the potential to promote early detection of breast cancer, and realization of its practical use is expected in the near future.

AB - To practically apply photoacoustic (PA) imaging technology in medicine, we have developed prototypes of a photoacoustic mammography (PAM) device to acquire images for diagnosing breast cancer in the Kyoto University/Canon joint research project (CK project supported by MEXT, Japan). First, the basic ability of the PAM system to visualize the network of blood vessels and the Hb saturation index was evaluated using a prototype of PAM that has a flat scanning detector and is capable of simultaneously acquiring photoacoustic (PA) and ultrasound images. Next, another prototype of a PAM device with hemispherical sensors was developed to improve the visibility of the 3D structure of vessels by reducing the limited view effect. In clinical examination of breast cancer cases, the PAM system allowed 3D visualization of fine vessel networks with a spatial resolution of a half-millimeter and enabled us to determine the features of tumor-related vascular structures in human breast cancer. In addition, the oxygen saturation status of Hb was visualized using two different wavelengths, enabling more precise characterization of the tumor microenvironment. Results of clinical evaluation using our developed prototype of a PAM device confirmed that PA imaging technology has the potential to promote early detection of breast cancer, and realization of its practical use is expected in the near future.

KW - Mammography

KW - Optoacoustic

KW - Oxygen saturation

KW - Photoacoustic imaging

KW - Ultrasound

KW - Vascularity

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JO - Biomedical Engineering Letters

JF - Biomedical Engineering Letters

IS - 2

ER -

Development and clinical translation of photoacoustic mammography

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