A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation
Objective: A photoacoustic signal is proportional to the product of the optical absorption coefficient and the local light fluence; quantitative photoacoustic measurements of the optical absorption coefficients, therefore, require an accurate compensation of optical fluence variation. Usually, an ad...
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sg-ntu-dr.10356-1432832020-08-19T02:40:51Z A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation Jin, Haoran Zhang, Ruochong Liu, Siyu Zheng, Zesheng Zheng, Yuanjin School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Photoacoustic Imaging Reflectometry Objective: A photoacoustic signal is proportional to the product of the optical absorption coefficient and the local light fluence; quantitative photoacoustic measurements of the optical absorption coefficients, therefore, require an accurate compensation of optical fluence variation. Usually, an additional diffuse optical tomography is incorporated to estimate the light fluence variation, but it is often troubled with the bulky measurement system. On this note, we present a dual-modality photoacoustic fusion imaging method that is implemented with a normal photoacoustic imaging (PAI) device. Methods: A single piezoelectric transducer is employed to receive the photoacoustic waves and passive ultrasound (PU) waves simultaneously. Since the PU wave is generated by the backscattering and diffuse reflection photons, it has the capacity to facilitate diffuse reflectance (DR) imaging. We merged photoacoustic and DR imaging based on their dual-modality with a compensation of the optical fluence variation. Results: The absorption coefficient differences caused by the light fluence variation are reduced more than half with the proposed method, when comparing to the pure photoacoustic imaging. Conclusion: The dual-modality photoacoustic fusion imaging is able to correct the PAI errors caused by the optical fluence variation. Significance: The proposed method can be widely accepted by different PAI applications to compensate the light fluence variations without any additional required element. Accepted version 2020-08-19T02:40:51Z 2020-08-19T02:40:51Z 2019 Journal Article Jin, H., Zhang, R., Liu, S., Zheng, Z., & Zheng, Y. (2019). A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation. IEEE Transactions on Biomedical Engineering, 66(6), 1810-1813. doi:10.1109/TBME.2019.2904502 0018-9294 https://hdl.handle.net/10356/143283 10.1109/TBME.2019.2904502 30872219 2-s2.0-85065972670 6 66 1810 1813 en IEEE Transactions on Biomedical Engineering © 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. The published version is available at: https://doi.org/10.1109/TBME.2019.2904502. application/pdf |
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Engineering::Electrical and electronic engineering Photoacoustic Imaging Reflectometry Jin, Haoran Zhang, Ruochong Liu, Siyu Zheng, Zesheng Zheng, Yuanjin A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation |
| description |
Objective: A photoacoustic signal is proportional to the product of the optical absorption coefficient and the local light fluence; quantitative photoacoustic measurements of the optical absorption coefficients, therefore, require an accurate compensation of optical fluence variation. Usually, an additional diffuse optical tomography is incorporated to estimate the light fluence variation, but it is often troubled with the bulky measurement system. On this note, we present a dual-modality photoacoustic fusion imaging method that is implemented with a normal photoacoustic imaging (PAI) device. Methods: A single piezoelectric transducer is employed to receive the photoacoustic waves and passive ultrasound (PU) waves simultaneously. Since the PU wave is generated by the backscattering and diffuse reflection photons, it has the capacity to facilitate diffuse reflectance (DR) imaging. We merged photoacoustic and DR imaging based on their dual-modality with a compensation of the optical fluence variation. Results: The absorption coefficient differences caused by the light fluence variation are reduced more than half with the proposed method, when comparing to the pure photoacoustic imaging. Conclusion: The dual-modality photoacoustic fusion imaging is able to correct the PAI errors caused by the optical fluence variation. Significance: The proposed method can be widely accepted by different PAI applications to compensate the light fluence variations without any additional required element. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Jin, Haoran Zhang, Ruochong Liu, Siyu Zheng, Zesheng Zheng, Yuanjin |
| format |
Article |
| author |
Jin, Haoran Zhang, Ruochong Liu, Siyu Zheng, Zesheng Zheng, Yuanjin |
| author_sort |
Jin, Haoran |
| title |
A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation |
| title_short |
A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation |
| title_full |
A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation |
| title_fullStr |
A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation |
| title_full_unstemmed |
A single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation |
| title_sort |
single sensor dual-modality photoacoustic fusion imaging for compensation of light fluence variation |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143283 |
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1681059084538740736 |