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      In Vivo Longitudinal Tracking of Lymphangiogenesis and Angiogenesis in Cutaneous Melanoma Mouse Model Using Multifunctional Optical Coherence Tomography

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          Abstract

          Melanoma is a high-risk skin cancer because it tends to metastasize early and ultimately leads to death. In this study, we introduced a noninvasive multifunctional optical coherence tomography (MFOCT) for the early detection of premetastatic pathogenesis in cutaneous melanoma by label-free imaging of microstructures (i.e., providing the thickness and the scattering information) and microcirculation (i.e., providing depth-resolved angiography and lymphangiography). Using MFOCT-based approaches, we presented an in vivo longitudinal observation of the tumor microenvironment in Braf V600E/V600E ; Pten −/− mice with inducible melanoma monitored for 42 days. Quantitative analysis of MFOCT images identified an increased number of lymphatic and vascular vessels during tumor progression and faster lymphangiogenesis (beginning on day 21) than angiogenesis (beginning on day 28) in the melanoma microenvironment. We further observed lymphatic vessel enlargement from the first week of melanoma development, implying tumor cells interacting with the vessels and increased likelihood of metastasis. MFOCT identified cutaneous melanoma‒associated angiogenesis and lymphangiogenesis before the possible visual perception of the tumor (≥42 days) and before metastasis could be diagnosed using micropositron emission tomography (35 days). Thus, the proposed quantitative analysis using MFOCT has the potential for early detection of cutaneous melanoma progression or prediction of metastatic melanoma in a mouse model. However, retrospective and extensive experiments still need to be performed in the future to confirm the value of MFOCT in clinical application.

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          Ultrahigh-resolution, high-speed, Fourier domain optical coherence tomography and methods for dispersion compensation.

          Ultrahigh-resolution optical coherence tomography uses broadband light sources to achieve axial image resolutions on the few micron scale. Fourier domain detection methods enable more than an order of magnitude increase in imaging speed and sensitivity, thus overcoming the sensitivity limitations inherent in ultrahigh-resolution OCT using standard time domain detection. Fourier domain methods also provide direct access to the spectrum of the optical signal. This enables automatic numerical dispersion compensation, a key factor in achieving ultrahigh image resolutions. We present ultrahigh-resolution, high-speed Fourier domain OCT imaging with an axial resolution of 2.1 ìm in tissue and 16,000 axial scans per second at 1024 pixels per axial scan. Ultrahigh-resolution spectral domain OCT is shown to provide a ~100x increase in imaging speed when compared to ultrahigh-resolution time domain OCT. In vivo imaging of the human retina is demonstrated. We also present a general technique for automatic numerical dispersion compensation, which is applicable to spectral domain as well as swept source embodiments of Fourier domain OCT.
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            BRafV600E cooperates with Pten silencing to elicit metastatic melanoma

            Mutational activation of BRAF is the earliest and most common genetic alteration in human melanoma. Hence, to build a model of human melanoma, we generated mice with conditional melanocyte-specific expression of BRafV600E . Upon induction of BRafV600E expression, mice developed benign melanocytic hyperplasias that failed to progress to melanoma over 15-20 months. By contrast, expression of BRafV600E combined with Pten tumor suppressor gene silencing elicited development of melanoma with 100% penetrance, short latency and with metastases observed in lymph nodes and lungs. Melanoma was prevented by inhibitors of mTorc1 (Rapamycin) or MEK1/2 (PD325901) but, upon cessation of drug administration, mice developed melanoma indicating the presence of long-lived melanoma-initiating cells in this system. Importantly, combined treatment with Rapamycin and PD325901 led to shrinkage of established melanomas. These mice, engineered with a common genetic profile to human melanoma, provide an excellent system to study melanoma’s cardinal feature of metastasis and for pre-clinical evaluation of agents designed to prevent or treat metastatic disease.
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              To provide primary care clinicians with an up-to-date and practical overview of the diagnosis and management of psoriasis.
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                Author and article information

                Contributors
                Journal
                JID Innov
                JID Innov
                JID Innovations
                Elsevier
                2667-0267
                18 March 2021
                June 2021
                18 March 2021
                : 1
                : 2
                : 100010
                Affiliations
                [1 ]Institute of Biophotonics, National Yang Ming Chiao Tung University, Taipei, Taiwan
                [2 ]Institute of Biophotonics, National Yang-Ming University, Taipei, Taiwan
                [3 ]Skin Institute, Hualien Tzu Chi Hospital, Hualien, Taiwan
                [4 ]Regenerative Medicine and Cell Therapy Research Center, Kaohsiung Medical University, Kaohsiung, Taiwan
                [5 ]Institute of Medical Sciences, Tzu Chi University, Hualien, Taiwan
                [6 ]Research Center for Applied Sciences, Academia Sinica, Taipei, Taiwan
                Author notes
                []Correspondence: Wen-Chuan Kuo, Institute of Biophotonics, National Yang-Ming University, Taipei 112, Taiwan. wckuo@ 123456ym.edu.tw kuo@ 123456nycu.edu.tw
                Article
                S2667-0267(21)00010-2 100010
                10.1016/j.xjidi.2021.100010
                8659800
                d779205f-21a5-4d06-91d1-48145075ee18
                © 2021 The Authors

                This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

                History
                : 2 November 2020
                : 12 February 2021
                : 15 February 2021
                Categories
                Original Article

                3d, three-dimensional,4-ht, (z)-4-hydroxytamoxifen,ct, computed tomography,ln, lymph node,mfoct, multifunctional optical coherence tomography,oct, optical coherence tomography,pet, positron emission tomography

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