2016
DOI: 10.1038/ncomms10684
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Intraoperative intravital microscopy permits the study of human tumour vessels

Abstract: Tumour vessels have been studied extensively as they are critical sites for drug delivery, anti-angiogenic therapies and immunotherapy. As a preclinical tool, intravital microscopy (IVM) allows for in vivo real-time direct observation of vessels at the cellular level. However, to date there are no reports of intravital high-resolution imaging of human tumours in the clinical setting. Here we report the feasibility of IVM examinations of human malignant disease with an emphasis on tumour vasculature as the majo… Show more

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Cited by 81 publications
(90 citation statements)
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“…IVM has already been employed in human melanoma patients to image intravenously infused fluorescein to assess tumour vasculature and vascular patency (Fisher et al, 2016). By imaging tumour vessels through an incision into the skin, blood vessels were found to have an enlarged diameter in the in vivo setting compared with previous findings from fixed tumour tissues, further emphasising the importance of imaging cells and tissues in vivo in their native environment.…”
Section: Future Applications and Combined Imaging Modesmentioning
confidence: 79%
“…IVM has already been employed in human melanoma patients to image intravenously infused fluorescein to assess tumour vasculature and vascular patency (Fisher et al, 2016). By imaging tumour vessels through an incision into the skin, blood vessels were found to have an enlarged diameter in the in vivo setting compared with previous findings from fixed tumour tissues, further emphasising the importance of imaging cells and tissues in vivo in their native environment.…”
Section: Future Applications and Combined Imaging Modesmentioning
confidence: 79%
“…Besides PET/CT, near infrared spectroscopy and hyperspectral imaging may enable oxygenation monitoring of the transplanted tissue in vivo early enough to predict functionality (Holmer et al, ; Jarraya, Mohamed, Sofiene, & Kolsi, ; Manley, ). An intravital microscopy that allows real‐time in vivo observation of the vessels at the cellular level can also be adapted to monitor neo‐angiogenesis in the graft (Fisher et al, ; Pang et al, ).…”
Section: Evaluation and Monitoringmentioning
confidence: 99%
“…(Holmer et al, 2016;Jarraya, Mohamed, Sofiene, & Kolsi, 2016;Manley, 2014). An intravital microscopy that allows real-time in vivo observation of the vessels at the cellular level can also be adapted to monitor neo-angiogenesis in the graft (Fisher et al, 2016;Pang et al, 2015). Offspring through natural mating (Carroll & Gosden, 1993) 2008 (Silber et al, 2005;Silber et al, 2008;Silber & Gosden, 2007) (J.…”
Section: When Heterotopic Transplantation Is Conducted Several Factorsmentioning
confidence: 99%
“…Targeted fluorescent molecular probes for instance targeting the cancer markers prostate-specific membrane antigen (PSMA) [132] and cathepsins [133] enable intraoperative fluorescence imaging at the time of tumor resection to identify tumor margins. Bedside IVM systems have also been developed for cutaneous imaging in melanoma, and have been primarily useful for quantifying the tumor vasculature’s structure, permeability, and perfusion [134]. IVM has not been widely used for NP imaging in the clinic; however, the progress in endoscopic and laparoscopic fluorescence imaging [126,132,133] combined with the demonstrated safety and routine use of various NPs and fluorescent dyes in patients suggests that such applications are feasible.…”
Section: Discovering Np Action By High Resolution Ivm Imagingmentioning
confidence: 99%
“…IVM of dyes, particles, and cells in microvasculature, including through THG imaging, also enables direct measurement of fluid flow and single-cell movement along capillary walls. These features can then be mapped to vessel structure information to glean an array of mechanical properties [134,275,276]. Computational studies of vascular perfusion [277] and its effect on tumor growth [278] or thrombosis [279] are all examples of IVM data-driven modeling.…”
Section: The Nuts and Bolts Of Ivm Nanoparticle Imagingmentioning
confidence: 99%