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2020 Conference Publication Multiphoton and FLIM imaging in quantifying ex vivo and in vivo body organ kinetics of solutesRoberts, Michael S., Barkauskas, Deborah, Wang, Haolu, Liu, Xin, Studier, Hauke, Pastore, Michael, Zhang, Run, Holmes, Amy, Grice, Jeffrey E., Xu, Zhiping, Mohammed, Yousuf S. and Liang, Xiaowen (2020). Multiphoton and FLIM imaging in quantifying ex vivo and in vivo body organ kinetics of solutes. Multiphoton Microscopy in the Biomedical Sciences, San Francisco, CA United States, 2-4 February 2020. Bellingham, WA United States: SPIE. doi: 10.1117/12.2546058 |
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2017 Conference Publication Quantitative optical imaging of paracetamol-induced metabolism changes in the liverLiang, Xiaowen, Wang, Haolu, Liu, Xin and Roberts, Michael (2017). Quantitative optical imaging of paracetamol-induced metabolism changes in the liver. SPIE BioPhotonics Australasia, Adelaide, SA, Australia, 17 - 19 October 2016. Bellingham, WA, United States: International Society for Optical Engineering. doi: 10.1117/12.2242962 |
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2017 Conference Publication In vivo quantitative visualization of hypochlorous acid in the liver using a novel selective two-photon fluorescent probeWang, Haolu, Jayachandran, Aparna, Gravot, Germain, Liang, Xiaowen, Thorling, Camilla A., Zhang, Run, Liu, Xin and Roberts, Michael S. (2017). In vivo quantitative visualization of hypochlorous acid in the liver using a novel selective two-photon fluorescent probe. SPIE BioPhotonics Australasia Conference, Adelaide,SA, Australia, 17 - 19 October 2016. Bellingham, WA, United States: S P I E - International Society for Optical Engineering. doi: 10.1117/12.2242978 |
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2017 Conference Publication Non-invasive assessment of the liver using imagingThorling (Thompson), Camilla, Wang, Haolu, Liu, Xin, Liang, Xiaowen, Crawford, Darrell H. G. and Roberts, Michael S. (2017). Non-invasive assessment of the liver using imaging. SPIE BioPhotonics Australasia Conference, Adelaide, SA, Australia, 17 - 19 October 2016. Bellingham, WA, United States: International Society for Optical Engineering. doi: 10.1117/12.2242883 |
