Features two-photon microscopy for analysis fluorescent properties of elastin fibers rats in vivo
This paper presents the results of in vivo visualization of elastin fibers of the papillary layer of rat skin obtained using two-photon microscopy. It is shown that, when approximating the fluorescence decay curve by a two-exponential model, the obtained parameters for rat dermis elastin and human elastin fibers have similar distributions.
Download file
Counter downloads: 41
Keywords
two-photon microscopy, fluorescence lifetime, elastin, time-correlated single photon countingAuthors
| Name | Organization | |
| Knyazkova A.I. | V.E. Zuev Institute of Atmospheric Optics of SB RAS; National Research Tomsk State University | a_knyazkova@bk.ru |
| Samarinova A.A. | National Research Tomsk State University | alisasamarinova@gmail.com |
| Nikolaev V.V. | National Research Tomsk State University | vik-nikol@bk.ru |
| Kistenev Y.V. | National Research Tomsk State University | yuk@iao.ru |
| Borisov A.V. | National Research Tomsk State University | borisov@phys.tsu.ru |
References
Nakanishi T., Kobayashi H., Sugiyama S., Kitano M. // J. Phys. Soc. Jpn. - 2009. - V. 78. - No. 10. - P. 104401-1-104401-5.
Shirshin E.A., Yakimov B.P., Darvin M.E., et al. // Biochemistry (Moscow). - 2019. - V. 84. - P. 69-88.
Huang S., Heikal A.A., Webb W.W. // Biophys. J. - 2002. - V. 82. - No. 5. - P. 2811-2825.
Kröger M., Scheffel J., Nikolaev V.V., et al. // Sci. Rep. - 2020. - V. 10. - No. 1. - P.14930-1-14930-16.
Kistenev Yu.V., Nikolaev V.V., Kurochkina O.S., et al. // Biomed. Opt. Express. - 2019. - V. 10. - P. 3353-3368.
Kistenev Yu.V., Vrazhnov D.A., Nikolaev V.V., et al. // Biochemistry (Moscow). - 2019. - V. 84. - P. 108-123.
Ericson M.B., Paoli J., Ljungblad C., et al.// Proc. SPIE. - 2007. - V. 6630. - P. 66300U-1-66300U-8.
Wang S., Li L., Zhu X., et al. // Laser Phys. - 2018. - V. 28. - No. 6. - P. 063001-1-06300-7.
Li L., Kang D., Huang Z., et al. // BMC Cancer. - 2019. - V. 19. - No. 295. - P. 1-8.
König K., Riemann I., Ehlers A., et al. // Proc. SPIE. - 2006. - V. 6089. - P. 60890R-1-60890R-7.
Копицын Д.С., Бескоровайный А.В., Котелев М.С. и др. // Башкирский хим. журн. - 2013. - Т. 20, - № 4. - С. 64-71.
Беккер В., Желзов А., Чеславский В.// Фотоника. - 2015. - Т. 5. - С. 52-67.
Becker W. // J. Microscopy. - 2012. - V. 247. - No. 2. - P. 119-136.
Wang Z., Zheng Y., Zhao D., et al. // J. Innovative Optical Health Sci. - 2018. - V. 11. - No. 1830001. - P. 1-17.
Galkina E.M., Utz S.R. // Saratov J. Med. Sci. Res. - 2013. - V. 9. - No. 3. - P. 566-572.
Pena A., Strupler M., Boulesteix T., Schanne-Klein M. // Opt. Express. - 2006. - V. 13. - No. 16. - P. 6268-6274.
Szpirer C. // J. Biomed. Sci. - 2020. - V. 27. - No. 84. - P. 1-52.
Zhuo G., Spandana K.U., Sindhoora K.M., et al. // J. Appl. Phys. - 2021. - V. 129. - No. 21. - P. 214901-1-214901-15.
Deka G., Wu W.-W., Kao F.-J. // J. Biomed. Opt. - 2012. - V. 18. - No. 6. - P. 0612221-0612228.
Lukina M., Yashin K., Kiseleva E.E., et al. // Frontiers in Oncology. - 2021. - V. 11. - No. 666059. - P. 1-11.
Shirshin E.A., Gurfinkel Y.I., Priezzhev A.V., et al. // Sci. Rep. - 2017. - V. 7. - No. 1171. - P. 1-11.
Kistenev Y.V., Nikolaev V.V., Kurochkina O.S., et al. // Opt. Spectrosc. - 2019. - V. 126. - P. 523-529.
Palero J.A., de Bruijn H.S., van der Ploeg, et al. // Biophys. J. - 2007. - V. 93. - No. 3. - P. 992-1007.
Ardeshirpour Y., Chernomordik V., Zielinski R., et al. // PloS one. - 2012. - V. 7. - No. 2. - P. 1-14.
Suarez-Ibarrola R., Braun L., Pohlmann P.F., et al. // Clinical Genitourinary Cancer. - 2021. - V. 19. - No. 1. - P. e31-e36.
Gaar J., Naffa R., Brimble M. // Organic Chem. Frontiers. - 2020. - V. 7. - P. 2789-2814.
