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    Journals >Frontiers of Optoelectronics >Volume 13 >Issue 4 >Page 371 > Article
    • Frontiers of Optoelectronics
    • Vol. 13, Issue 4, 371 (2020)
    Study of possibility of cell recognition in brain tumors
    Yulia S. MAKLYGINA1、*, Alexei S. SKOBELTSIN1, Tatiana A. SAVELIEVA1、2, Galina V. PAVLOVA3、4, Ivan V. CHEKHONIN4、5, Olga I. GURINA5, Anastasiya A. Chernysheva5, Sergey A. Cherepanov5, and Victor B. LOSCHENOV1、2
    Author Affiliations
  • 1Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow 119991, Russia
  • 2National Research Nuclear University MEPhI, Moscow 115409, Russia
  • 3Institute of Gene Biology, Russian Academy of Sciences, Moscow 119334, Russia
  • 4Burdenko Neurosurgical Institute, Moscow 125047, Russia
  • 5Serbsky National Medical Research Centre of Psychiatry and Narcology under the RF Ministry of Public Health, Moscow 119034, Russia
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    DOI: 10.1007/s12200-020-1095-y Cite this Article
    Yulia S. MAKLYGINA, Alexei S. SKOBELTSIN, Tatiana A. SAVELIEVA, Galina V. PAVLOVA, Ivan V. CHEKHONIN, Olga I. GURINA, Anastasiya A. Chernysheva, Sergey A. Cherepanov, Victor B. LOSCHENOV. Study of possibility of cell recognition in brain tumors[J]. Frontiers of Optoelectronics, 2020, 13(4): 371 Copy Citation Text show less
    References

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    [2] McGranahan T, Therkelsen K E, Ahmad S, Nagpal S. Current state of immunotherapy for treatment of glioblastoma. Current Treatment Options in Oncology, 2019, 20(3): 24

    [3] Wolf S A, Boddeke H W G M, Kettenmann H. Microglia in physiology and disease. Annual Review of Physiology, 2017, 79(1): 619-643

    [4] Norris G T, Kipnis J. Immune cells and CNS physiology: microglia and beyond. Journal of Experimental Medicine, 2019, 216(1): 60- 70

    [5] Sampson J H, Gunn M D, Fecci P E, Ashley D M. Brain immunology and immunotherapy in brain tumours. Nature Reviews. Cancer, 2020, 20(1): 12-25

    [6] Salter MW, Stevens B. Microglia emerge as central players in brain disease. Nature Medicine, 2017, 23(9): 1018-1027

    [7] Quail D F, Joyce J A. The microenvironmental landscape of brain tumors. Cancer Cell, 2017, 31(3): 326-341

    [8] Korbelik M, Krosl G. Photofrin accumulation in malignant and host cell populations of various tumours. British Journal of Cancer, 1996, 73(4): 506-513

    [9] z M, Lorke D E, Hasan M, Petroianu G A. Cellular and molecular actions of Methylene Blue in the nervous system. Medicinal Research Reviews, 2011, 31(1): 93-117

    [10] Tucker D, Lu Y, Zhang Q. From mitochondrial function to neuroprotection-an emerging role for methylene blue. Molecular Neurobiology, 2018, 55(6): 5137-5153

    [11] Stepp H, Stummer W. 5-ALA in the management of malignant glioma. Lasers in Surgery and Medicine, 2018, 50(5): 399-419

    [12] Filonenko E V, Kaprin A D, Raszhivina A A, Urlova A N, Nechipai AM. Fluorescence diagnostics of colon malignant and premalignant lesions using 5-aminolevulinic acid. International Journal of Photoenergy, 2014, 2014: 378673

    [13] Spijker S. Dissection of Rodent Brain Regions. In: Li K, ed. Neuroproteomics, vol 57. 2011. Totowa, NJ: Humana Press, 13-26

    [14] Peters S R. A Practical Guide to Frozen Section Technique. New York: Springer, 2010

    [15] Chekhonin V P, Baklaushev V P, Yusubalieva G M, Pavlov K A, Ukhova O V, Gurina O I. Modeling and immunohistochemical analysis of C6 glioma in vivo. Bulletin of Experimental Biology and Medicine, 2007, 143(4): 501-509

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    Yulia S. MAKLYGINA, Alexei S. SKOBELTSIN, Tatiana A. SAVELIEVA, Galina V. PAVLOVA, Ivan V. CHEKHONIN, Olga I. GURINA, Anastasiya A. Chernysheva, Sergey A. Cherepanov, Victor B. LOSCHENOV. Study of possibility of cell recognition in brain tumors[J]. Frontiers of Optoelectronics, 2020, 13(4): 371
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