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Cross-regional real-time visualization of systemic physiology and dynamics with 3D panoramic photoacoustic computed tomography (3D-PanoPACT)

Author

Listed:
  • Xuanhao Wang

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing)

  • Yuqian Meng

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing)

  • Mingli Sun

    (Zhejiang Lab)

  • Xiali Gao

    (Zhejiang Lab
    Zhejiang University)

  • Yuqi Wang

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing)

  • Shaobo Wang

    (Zhejiang Lab)

  • Kaiyue Wang

    (Zhejiang Lab)

  • Ruofan Wang

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing)

  • Danyang Ren

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing)

  • Yonggang Yin

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing)

  • Chiye Li

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing)

  • Ruimin Chen

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing)

  • Lihong V. Wang

    (California Institute of Technology
    California Institute of Technology)

  • Junhui Shi

    (Zhejiang Lab
    State Key Laboratory of Ocean Sensing
    Zhejiang University)

Abstract

Non-invasive systemic visualization is crucial in biomedical research. Photoacoustic imaging transcends the optical scattering limitations, capturing optical absorption from deep tissue at high resolution. Nevertheless, the full exploitation of its physical advantages faces challenges due to unsatisfactory field of view (FOV), spatiotemporal resolution, and imaging quality. Here, we demonstrate that 3D panoramic photoacoustic computed tomography (3D-PanoPACT) mitigates these limitations by combining dynamical and functional contrasts, high spatiotemporal resolution, and broad three-dimensional FOV, allowing for visualizing cross-regional dynamics from organ to whole-body level. Leveraging its single-pulse-volumetric imaging capability, 3D-PanoPACT imaged the whole liver at 25 Hz, facilitating the extraction of arterial networks. Real-time monitoring of whole-brain vasculatures and functional hemodynamics induced by pharmacological action and physical stimulation was demonstrated, especially in the Circle of Willis. The dynamic visualization of the whole trunk at 10 Hz further substantiates its capacity for systemic imaging. We tracked the metabolic pathways of a small-molecule probe across multiple organs using 3D-PanoPACT, highlighting its value in whole-body, cross-regional dynamic studies. 3D-PanoPACT, being a potent novel imaging tool, exhibits substantial potential for advancing biotechnology.

Suggested Citation

  • Xuanhao Wang & Yuqian Meng & Mingli Sun & Xiali Gao & Yuqi Wang & Shaobo Wang & Kaiyue Wang & Ruofan Wang & Danyang Ren & Yonggang Yin & Chiye Li & Ruimin Chen & Lihong V. Wang & Junhui Shi, 2025. "Cross-regional real-time visualization of systemic physiology and dynamics with 3D panoramic photoacoustic computed tomography (3D-PanoPACT)," Nature Communications, Nature, vol. 16(1), pages 1-23, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-65054-x
    DOI: 10.1038/s41467-025-65054-x
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    References listed on IDEAS

    as
    1. Li Lin & Peng Hu & Xin Tong & Shuai Na & Rui Cao & Xiaoyun Yuan & David C. Garrett & Junhui Shi & Konstantin Maslov & Lihong V. Wang, 2021. "High-speed three-dimensional photoacoustic computed tomography for preclinical research and clinical translation," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    2. Ying Jiang & Hyeon Jeong Lee & Lu Lan & Hua-an Tseng & Chen Yang & Heng-Ye Man & Xue Han & Ji-Xin Cheng, 2020. "Optoacoustic brain stimulation at submillimeter spatial precision," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
    3. Jiamiao Yang & Lei Gong & Xiao Xu & Pengfei Hai & Yuecheng Shen & Yuta Suzuki & Lihong V. Wang, 2017. "Motionless volumetric photoacoustic microscopy with spatially invariant resolution," Nature Communications, Nature, vol. 8(1), pages 1-7, December.
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