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Our mission at PI-Lab is to develop state-of-the-art photoacoustic tomography (PAT) technologies and translate PAT advances into diagnostic and therapeutic applications, especially in functional brain imaging and early cancer theranostics. PAT is the most sensitive modality for imaging rich optical absorption contrast over a wide range of spatial scales at high speed, and is one of the fastest growing biomedical imaging technologies. Using numerous endogenous and exogenous contrasts, PAT can provide high-resolution images at scales covering organelles, cells, tissues, organs, small-animal organisms, up to humans, and can reveal tissue’s anatomical, functional, metabolic, and even histologic properties, with molecular and neuronal specificity.
At PI-Lab, we develop PAT technologies with novel and advanced imaging performance, in terms of spatial resolutions, imaging speed, penetration depth, detection sensitivity, and functionality. We are interested with all aspects of PAT technology innovations, including efficient light illumination, high-sensitivity ultrasonic detection, super-resolution PAT, high-speed imaging acquisition, novel PA genetic contrast, and precise image reconstruction. On top of the technological advancements, we are devoted to serve the broad life science and medical communities with matching PAT systems for various research and clinical needs. With its unique contrast mechanism, high scalability, and inherent functional and molecular imaging capabilities, PAT is well suited for a variety of pre-clinical applications, especially for studying tumor angiogenesis, cancer hypoxia, and brain disorders; it is also a promising tool for clinical applications in procedures such as cancer screening, melanoma staging, and endoscopic examination.
At PI-Lab, we develop PAT technologies with novel and advanced imaging performance, in terms of spatial resolutions, imaging speed, penetration depth, detection sensitivity, and functionality. We are interested with all aspects of PAT technology innovations, including efficient light illumination, high-sensitivity ultrasonic detection, super-resolution PAT, high-speed imaging acquisition, novel PA genetic contrast, and precise image reconstruction. On top of the technological advancements, we are devoted to serve the broad life science and medical communities with matching PAT systems for various research and clinical needs. With its unique contrast mechanism, high scalability, and inherent functional and molecular imaging capabilities, PAT is well suited for a variety of pre-clinical applications, especially for studying tumor angiogenesis, cancer hypoxia, and brain disorders; it is also a promising tool for clinical applications in procedures such as cancer screening, melanoma staging, and endoscopic examination.
Research Interests
Papers共 247 篇Author StatisticsCo-AuthorSimilar Experts
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Journal of biomedical opticsno. Suppl 1 (2024): S11521-S11521
Nature Communicationsno. 1 (2024): 1599-1599
Xiaoyi Zhu,Qiang Huang,Laiming Jiang, Van-Tu Nguyen,Tri Vu,Garth Devlin,Jabbar Shaima,Xiaobei Wang,Yong Chen, Lijun Ma,Kun Xiang,Ergang Wang,
Science advancesno. 12 (2024): eadk1278-eadk1278
Xuan Mu,Chenshuo Ma, Xuan Mei,Junlong Liao, Rebecca Bojar, Sizhe Kuang,Qiangzhou Rong,Junjie Yao,Yu Shrike Zhang
2023 IEEE International Ultrasonics Symposium (IUS)pp.1-4, (2023)
PHOTOACOUSTICS (2023): 100574-100574
Photoacoustics (2023): 100541-100541
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