Fiber-optic minimally invasive diffuse diffuser on optical fiber for intratissue laser exposure

Authors

  • O.S. Komarova Igor Sikorsky Kyiv Polytechnic Institute
  • V.V. Kholin Private enterprise "Photonics Plus", Cherkasy
  • M.F. Tereshchenko Igor Sikorsky Kyiv Polytechnic Institute
  • S.V. Pavlov Vinnytsia National Technical University
  • M.F. Bohomolov Igor Sikorsky Kyiv Polytechnic Institute
  • A.K. Zilgaraeva Kazakh National Research Technical University named after K.I.Satbayev
  • O.S. Bezkrevnyi Vinnytsia National Technical University
  • A.V. Reva Private enterprise "Photonics Plus", Cherkasy

DOI:

https://doi.org/10.31649/1681-7893-2021-41-1-39-46

Keywords:

minimally invasive diffuse diffuser, diffuser, intratissue laser exposure, polymer optical fiber

Abstract

The technical parameters of minimally invasive diffuse diffusers are analyzed in the article on the distal part of the polymer optical fiber. Prototypes were made diffuse diffusers made of polymer optical fibers manufactured by Mitsubishi Rayon Corporation (Japan) of different lengths: SC-20 with a diameter of 500 μm and SC-10 with a diameter of 250 μm by machining their reflective shell to apply inhomogeneities and changes in the conditions of total internal reflection. The conducted research created a basis for the introduction of new methods of creation minimally invasive diffuse diffusers in the distal part of the optical polymer fiber.

References

Tuchyn V.V. Lazery y volokonnaia optyka v byomedytsynskykh yssledovanyiakh. 2-oe yzd., yspr. y dop. Moskva: Fyzmatlyt, 2010. – 478 str.

Volkov V. V. Volokonno-optycheskye dyffuznye obluchately byotkanei / V. V. Volkov,

V. B. Loshchenov, V. Y. Konov, V. V. Kononenko / Kvantovaia elektronyka, 2010, tom 40, nomer 8, s. 746–750.

Sakhno T. V. Polymernye optycheskye volokna : monohrafyia / T. V. Sakhno,

H. M. Kozhushko, A. O. Semenov, Yu. E. Sakhno, S. V. Pustovyt. – Poltava : PUET, 2012. – 227 s.),

Mendez A. Spravochnyk po spetsyalyzyrovannym optycheskym voloknam / A. Mendez,

T.F. Morze / Moskva: Tekhnosfera, 2012 – 728 s.,

Buriak V.P. Polymernye optycheskye volokna Polymernye materyaly.-2007.-No05.-S.16-24.

Kholyn V.V. Perspektyvy yspolzovanyia svetovodov na osnove polymernykh volokon dlia FDT / V.V. Kholyn, O.N. Chepurnaia / Eksperymentalnye y klynycheskye aspekty fotodynamycheskoi terapyy : materyaly nauchno-praktycheskoho semynara s mezhdunarodnym uchastyem, h. Cherkassy, 15-16 marta 2013 h. – Cherkassy, Vertykal, 213, s. 110-114.

Wójcik, W., Pavlov, S., Kalimoldayev, M. (2019). Information Technology in Medical Diagnostics II. London: Taylor & Francis Group, CRC Press, Balkema book. – 336 Pages, https://doi.org/10.1201/ 9780429057618. eBook ISBN 9780429057618.

Pavlov S. V. Information Technology in Medical Diagnostics //Waldemar Wójcik, Andrzej Smolarz, July 11, 2017 by CRC Press - 210 Pages. https://doi.org/10.1201/9781315098050. eBook ISBN 9781315098050.

Zh. M. Khomenko, A. K. Zylharaeva, S. V. Pavlov, i O. S. Bezkrevnyi, «Analiz metodiv spektrofotometrii dlia vyiavlennia vlastyvostei biolohichnykh tkanyn», Optyko-elektronni informatsiino-enerhetychni tekhnolohii, 2019, vyp. 38, vyp. 2, S. 45–53, doi.org/10.31649/1681-7893-2019-38-2-45-53.

Zh. M. Khomenko, S.V. Pavlov. Biometric signal processing at radar remote diagnostics of cardio-respiratory human activity, Optyko-elektronni informatsiino-enerhetychni tekhnolohii, 2019, № 1. S. 50-54. doi.org/10.31649/1681-7893-2019-37-1-50-54

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Published

2022-05-02

How to Cite

[1]
O. Komarova, “Fiber-optic minimally invasive diffuse diffuser on optical fiber for intratissue laser exposure”, Опт-ел. інф-енерг. техн., vol. 41, no. 1, pp. 39–46, May 2022.

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Section

Biomedical Optical And Electronic Systems And Devices

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