Your search keyword '"Sokolovski S"' showing total 30 results

1. Effects of Low-Level Laser Irradiation on Mammalian Cell Cultures: Comparative Experimental Studies with Different Types of Lasers at 1260-1270 nm

Author

Khokhlova, A, Zolotovskii, I, Sokolovski, S, Saenko, Yu, Rafailov, E, Stoliarov, D, Pogodina, E, Gilmutdinova, A, Svetukhin, V, Fotiadi, A, Khokhlova, A, Zolotovskii, I, Sokolovski, S, Saenko, Yu, Rafailov, E, Stoliarov, D, Pogodina, E, Gilmutdinova, A, Svetukhin, V, and Fotiadi, A

Abstract

The effects observed under near-infrared laser irradiation of mammalian cells have been demonstrated to depend to a large extent on the type of irradiation source. In our experiments, we have measured concentration of reactive oxygen species in cell cultures of different origin (rodent and human, cancerous and non-cancerous) exposed to the radiation of low-level lasers at 1265 nm. Surprisingly, the radiation effects of narrowband laser occur to be more pronounced compared with those provided by the lasers of broader linewidth. Also, we have found that the aggressive types of cancer require a more accurate selection of irradiation parameters and laser operation regime.

Published

2022

2. Effects of Low-Level Laser Irradiation on Mammalian Cell Cultures: Comparative Experimental Studies with Different Types of Lasers at 1260-1270 nm

Author

Khokhlova, A, primary, Zolotovskii, I, additional, Sokolovski, S, additional, Saenko, Yu, additional, Rafailov, E, additional, Stoliarov, D, additional, Pogodina, E, additional, Gilmutdinova, A, additional, Svetukhin, V, additional, and Fotiadi, A, additional

Published

2022

3. Two-photon conversion of a bacterial phytochrome

Author

Sokolovski, S. G. (Serge G.), Zherebtsov, E. A. (Evgeny A.), Kar, R. K. (Rajiv K.), Golonka, D. (David), Stabel, R. (Robert), Chichkov, N. B. (Nikolai B.), Gorodetsky, A. (Andrei), Schapiro, I. (Igor), Möglich, A. (Andreas), and Rafailov, E. U. (Edik U.)

Subjects

Optogenetics, Photoconversion, Ultra-short pulses, Bacterial phytochrome, Sensory photoreceptor, Two photon absorption, Nonlinear activation

Abstract

In nature, sensory photoreceptors underlie diverse spatiotemporally precise and generally reversible biological responses to light. Photoreceptors also serve as genetically encoded agents in optogenetics to control by light organismal state and behavior. Phytochromes represent a superfamily of photoreceptors that transition between states absorbing red light (Pr) and far-red light (Pfr), thus expanding the spectral range of optogenetics to the near-infrared range. Although light of these colors exhibits superior penetration of soft tissue, the transmission through bone and skull is poor. To overcome this fundamental challenge, we explore the activation of a bacterial phytochrome by a femtosecond laser emitting in the 1 μm wavelength range. Quantum chemical calculations predict that bacterial phytochromes possess substantial two-photon absorption cross sections. In line with this notion, we demonstrate that the photoreversible Pr ↔ Pfr conversion is driven by two-photon absorption at wavelengths between 1170 and 1450 nm. The Pfr yield was highest for wavelengths between 1170 and 1280 nm and rapidly plummeted beyond 1300 nm. By combining two-photon activation with bacterial phytochromes, we lay the foundation for enhanced spatial resolution in optogenetics and unprecedented penetration through bone, skull, and soft tissue.

Published

2021

4. Machine Learning aided Fiber-Optical System for Liver Cancer Diagnosis in Minimally Invasive Surgical Interventions

Author

Zherebtsov, E., primary, Zajnulina, M., additional, Kandurova, K., additional, Dremin, V., additional, Mamoshin, A., additional, Potapova, E., additional, Sokolovski, S., additional, Dunaev, A., additional, and Rafailov, E.U., additional

Published

2020

5. Wearable laser Doppler sensors for evaluating the nutritive and shunt blood flow

Author

Loktionova, Y. I. (Yulia I.), Zharkikh, E. V. (Elena V.), Zherebtsov, E. A. (Evgeny A.), Kozlov, I. O. (Igor O.), Sidorov, V. V. (Viktor V.), Zherebtsova, A. I. (Angelina I.), Sokolovski, S. G. (Sergei G.), Dunaev, A. V. (Andrey V.), and Rafailov, E. U. (Edik U.)

Subjects

ageing, laser Doppler owmetry, bypass index, diabetes mellitus, microcirculation, nutritive and shunt blood flow

Abstract

This study is devoted to the trials of wearable diagnostic system that implements the laser Doppler flowmetry technique to analyse the blood microcirculation. We do preliminary test with involvement of limited group of healthy volunteers of different age and in patients with type 2 diabetes. During the series of measurements, the microcirculation parameters was measured for 10 minutes in the palmar surfaces of the big toes and in the inner sides of the upper thirds of the shins. A statistically significant differences was found in bypass index, nutritive and shunt blood ow in shins between older group of volunteers and patients’ group as well as in shunt blood flow in fingers between younger and older groups of volunteers.

Published

2020

6. Machine learning aided photonic diagnostic system for minimally invasive optically guided surgery in the hepatoduodenal area

Author

Zherebtsov, E. (Evgeny), Zajnulina, M. (Marina), Kandurova, K. (Ksenia), Potapova, E. (Elena), Dremin, V. (Viktor), Mamoshin, A. (Andrian), Sokolovski, S. (Sergei), Dunaev, A. (Andrey), Rafailov, E. U. (Edik U.), Zherebtsov, E. (Evgeny), Zajnulina, M. (Marina), Kandurova, K. (Ksenia), Potapova, E. (Elena), Dremin, V. (Viktor), Mamoshin, A. (Andrian), Sokolovski, S. (Sergei), Dunaev, A. (Andrey), and Rafailov, E. U. (Edik U.)

Abstract

Abdominal cancer is a widely prevalent group of tumours with a high level of mortality if diagnosed at a late stage. Although the cancer death rates have in general declined over the past few decades, the mortality from tumours in the hepatoduodenal area has significantly increased in recent years. The broader use of minimal access surgery (MAS) for diagnostics and treatment can significantly improve the survival rate and quality of life of patients after surgery. This work aims to develop and characterise an appropriate technical implementation for tissue endogenous fluorescence (TEF) and assess the efficiency of machine learning methods for the real-time diagnosis of tumours in the hepatoduodenal area. In this paper, we present the results of the machine learning approach applied to the optically guided MAS. We have elaborated tissue fluorescence approach with a fibre-optic probe to record the TEF and blood perfusion parameters during MAS in patients with cancers in the hepatoduodenal area. The measurements from the laser Doppler flowmetry (LDF) channel were used as a sensor of the tissue vitality to reduce variability in TEF data. Also, we evaluated how the blood perfusion oscillations are changed in the tumour tissue. The evaluated amplitudes of the cardiac (0.6–1.6 Hz) and respiratory (0.2–0.6 Hz) oscillations was significantly higher in intact tissues (p %lt; 0.001) compared to the cancerous ones, while the myogenic (0.2–0.06 Hz) oscillation did not demonstrate any statistically significant difference. Our results demonstrate that a fibre-optic TEF probe accompanied with ML algorithms such as k-Nearest Neighbours or AdaBoost is highly promising for the real-time in situ differentiation between cancerous and healthy tissues by detecting the information about the tissue type that is encoded in the fluorescence spectrum. Also, we show that the detection can be supplemented and enhanced by parallel collection and classification of blood perfusion oscillat

Published

2020

7. Machine learning aided fiber-optical system for liver cancer diagnosis in minimally invasive surgical interventions

Author

Zherebtsov, E. (E.), Zajnulina, M. (M.), Kandurova, K. (K.), Dremin, V. (V.), Mamoshin, A. (A.), Potapova, E. (E.), Sokolovski, S. (S.), Dunaev, A. (A.), Rafailov, E. (E.U.), Zherebtsov, E. (E.), Zajnulina, M. (M.), Kandurova, K. (K.), Dremin, V. (V.), Mamoshin, A. (A.), Potapova, E. (E.), Sokolovski, S. (S.), Dunaev, A. (A.), and Rafailov, E. (E.U.)

Abstract

A flexible fibre optical probe is implemented to record the parameters of the endogenous fluorescence during minimally invasive interventions in patients with cancers of hepatoduodenal area. Using machine learning techniques, the obtained spectra are classified to indicate cancerous or healthy tissue. For this, a set of different binary classifiers has been trained and tested. The classifiers showing best performance for this task are identified.

Published

2020

8. Wearable sensor system for multipoint measurements of blood perfusion:pilot studies in patients with diabetes mellitus

Author

Zherebtsov, E. A. (Evgeny A.), Zharkikh, E. V. (Elena V.), Kozlov, I. O. (Igor O.), Loktionova, Y. I. (Yulia I.), Zherebtsova, A. I. (Angelina I.), Rafailov, I. E. (Ilya E.), Sokolovski, S. G. (Sergei G.), Sidorov, V. V. (Victor V.), Dunaev, A. V. (Andrey V.), and Rafailov, E. U. (Edik U.)

Subjects

Ageing, Diabetes mellitus, Laser Doppler owmetry, Wearable blood perfusion sensor, Blood flow

Abstract

The growing interest in the development of new wearable electronic devices for mobile healthcare provides great opportunities for the development of methods for assessing blood perfusion in this direction. Laser Doppler flowmetry (LDF) is one of the promising methods. A fine analysis of capillary blood ow structure and rhythm in the time and frequency domains, coupled with a new possibility of round-the-clock monitoring can provide valuable diagnostic information about the state of microvascular blood ow. In this study, wearable implementation of laser Doppler flowmetry was utilised for microcirculatory function assessment in patients with diabetes and healthy controls of two distinct age groups. Four wearable laser Doppler flowmetry monitors were used for the analysis of blood microcirculation. Thirty-seven healthy volunteers and 18 patients with type 2 diabetes mellitus participated in the study. The results of the studies have shown that the average perfusion differs between healthy volunteers of distinct age groups and between healthy volunteers of the younger age group and patients with diabetes mellitus. It was noted that the average level of perfusion measured on the wrist in the two groups of healthy volunteers has no statistically significant differences found in similar measurements on the fingertips. The wearable implementation of LDF can become a truly new diagnostic interface to monitor cardiovascular parameters, which could be of interest for diagnostics of conditions associated with microvascular disorders.

Published

2019

9. Multimodal optical diagnostics of the microhaemodynamics in upper and lower limbs

Author

Zherebtsova, A. I. (Angelina I.), Dremin, V. V. (Viktor V.), Makovik, I. N. (Irina N.), Zherebtsov, E. A. (Evgeny A.), Dunaev, A. V. (Andrey V.), Goltsov, A. (Alexey), Sokolovski, S. G. (Sergei G.), and Rafailov, E. U. (Edik U.)

Subjects

tissue reflectance oximetry, diabetes mellitus, rheumatic diseases, fluorescence spectroscopy, laser Doppler flowmetry, skin thermometry, pulse oximetry

Abstract

The introduction of optical non-invasive diagnostic methods into clinical practice can substantially advance in the detection of early microcirculatory disorders in patients with different diseases. This paper is devoted to the development and application of the optical non-invasive diagnostic approach for the detection and evaluation of the severity of microcirculatory and metabolic disorders in rheumatic diseases and diabetes mellitus. The proposed methods include the joint use of laser Doppler flowmetry, absorption spectroscopy and fluorescence spectroscopy in combination with functional tests. This technique showed the high diagnostic importance for the detection of disturbances in peripheral microhaemodynamics. These methods have been successfully tested as additional diagnostic techniques in the field of rheumatology and endocrinology. The sensitivity and specificity of the proposed diagnostic procedures have been evaluated.

Published

2019

10. Novel wearable VCSEL-based sensors for multipoint measurements of blood perfusion

Author

Zherebtsov, E. A. (Evgeny A.), Zharkikh, E. V. (Elena V.), Kozlov, I. O. (Igor O.), Zherebtsova, A. I. (Angelina I.), Loktionova, Y. I. (Yulia I.), Chichkov, N. B. (Nikolai B.), Rafailov, I. E. (Ilya E.), Sidorov, V. V. (Victor V.), Sokolovski, S. G. (Sergei G.), Dunaev, A. V. (Andrey V.), and Rafailov, E. U. (Edik U.)

Subjects

VCSEL lasers, Laser Doppler owmetry, wearable sensors, blood perfusion

Abstract

A novel non-invasive, wearable VCSEL-based system for multipoint in − vivo measurements of blood perfusion was introduced. The system operates on the basis of the laser Doppler flowmetry (LDF) method and allows for microcirculation studies. The sensors developed were used to analyse the skin blood flow synchronization in homologous regions of the contralateral limbs, both in the basal state and during various functional tests. A high synchronisation of blood flow rhythms in the contralateral limbs of healthy volunteers was shown in the studies presented.

Published

2019

11. Pilot studies of age-related changes in blood perfusion in two different types of skin

Author

Loktionova, Y. I. (Yulia I.), Zharkikh, E. V. (Elena V.), Kozlov, I. O. (Igor O.), Zherebtsov, E. A. (Evgeny A.), Bryanskaya, S. A. (Svetlana A.), Zherebtsova, A. I. (Angelina I.), Sidorov, V. V. (Victor V.), Sokolovski, S. G. (Sergei G.), Dunaev, A. V. (Andrey V.), Rafailov, E. U. (Edik U.), Loktionova, Y. I. (Yulia I.), Zharkikh, E. V. (Elena V.), Kozlov, I. O. (Igor O.), Zherebtsov, E. A. (Evgeny A.), Bryanskaya, S. A. (Svetlana A.), Zherebtsova, A. I. (Angelina I.), Sidorov, V. V. (Victor V.), Sokolovski, S. G. (Sergei G.), Dunaev, A. V. (Andrey V.), and Rafailov, E. U. (Edik U.)

Abstract

Laser Doppler flowmetry (LDF) was utilized to assess age-related changes in the blood microcirculation at the skin sites with different morphology and regulation. The LDF signals obtained from the glabrous skin of the middle finger pad and nonglabrous skin on the dorsal wrist surface were analyzed. Statistically higher baseline perfusion was observed in the zone with glabrous skin in the older group of volunteers compared to younger participants. Observed site-specific and age-related differences in perfusion can be used in the future experimental design for the studies of the blood microcirculation system in patients with different pathologies.

Published

2019

12. Studies of age-related changes in blood perfusion coherence using wearable blood perfusion sensor system

Author

Loktionova, Y. I. (Yulia I.), Zherebtsov, E. A. (Evgeny A.), Zharkikh, E. V. (Elena V.), Kozlov, I. O. (Igor O.), Zherebtsova, A. I. (Angelina I.), Sidorov, V. V. (Victor V.), Sokolovski, S. G. (Sergei G.), Rafailov, I. E. (Ilya E.), Dunaev, A. V. (Andrey V.), Rafailov, E. U. (Edik U.), Loktionova, Y. I. (Yulia I.), Zherebtsov, E. A. (Evgeny A.), Zharkikh, E. V. (Elena V.), Kozlov, I. O. (Igor O.), Zherebtsova, A. I. (Angelina I.), Sidorov, V. V. (Victor V.), Sokolovski, S. G. (Sergei G.), Rafailov, I. E. (Ilya E.), Dunaev, A. V. (Andrey V.), and Rafailov, E. U. (Edik U.)

Abstract

Laser Doppler flowmetry (LDF) was used for detection of age-related changes in the blood microcirculation. The LDF signal was simultaneously recorded from the 3rd fingers’ pads of both hands. Amplitudes of the blood flow oscillations and wavelet coherence of the signals were used for the data analysis. A statistical difference in the synchronisation of myogenic oscillations was found between the two studied age groups. Myogenic oscillations of blood perfusion in the younger group had a higher wavelet coherence parameter than in the older group. Observed site-specific and age-related differences in blood perfusion can be used in the future in the design of experimental studies of the blood microcirculation system in patients with different pathologies.

Published

2019

13. Novel wearable VCSEL-based blood perfusion sensor

Author

Zherebtsov, E., primary, Sokolovski, S., additional, Sidorov, V., additional, Rafailov, I., additional, Dunaev, A., additional, and Rafailov, E.U., additional

Published

2018

14. Novel wearable VCSEL-based blood perfusion sensor

Author

Zherebtsov, E., Sokolovski, S., Sidorov, V., Rafailov, I., Dunaev, A., Rafailov, E.u., Zherebtsov, E., Sokolovski, S., Sidorov, V., Rafailov, I., Dunaev, A., and Rafailov, E.u.

Abstract

A wearable 850 nm VCSEL-based blood perfusion sensor operating on the principles of laser Doppler flowmetry (LDF) and Dynamic Light Scattering (DLS) has been developed and tested. The sensitivity of the sensor to changes in skin blood perfusion has been demonstrated.

Published

2018

15. Multimodal optical measurement for study of lower limb tissue viability in patients with diabetes mellitus

Author

Dremin, V. V. (Viktor V.), Zherebtsov, E. A. (Evgeny A.), Sidorov, V. V. (Victor V.), Krupatkin, A. I. (Alexander I.), Makovik, I. N. (Irina N.), Zherebtsova, A. I. (Angelina I.), Zharkikh, E. V. (Elena V.), Potapova, E. V. (Elena V.), Dunaev, A. V. (Andrey V.), Doronin, A. A. (Alexander A.), Bykov, A. V. (Alexander V.), Rafailov, I. E. (Ilya E.), Litvinova, K. S. (Karina S.), Sokolovski, S. G. (Sergei G.), and Rafailov, E. U. (Edik U.)

Subjects

mitochondrial function, advanced glycation end products, diabetes mellitus, diagnostic volume, fluorescence spectroscopy, laser Doppler flowmetry, metabolism

Abstract

According to the International Diabetes Federation, the challenge of early stage diagnosis and treatment effectiveness monitoring in diabetes is currently one of the highest priorities in modern healthcare. The potential of combined measurements of skin fluorescence and blood perfusion by the laser Doppler flowmetry method in diagnostics of low limb diabetes complications was evaluated. Using Monte Carlo probabilistic modeling, the diagnostic volume and depth of the diagnosis were evaluated. The experimental study involved 76 patients with type 2 diabetes mellitus. These patients were divided into two groups depending on the degree of complications. The control group consisted of 48 healthy volunteers. The local thermal stimulation was selected as a stimulus on the blood microcirculation system. The experimental studies have shown that diabetic patients have elevated values of normalized fluorescence amplitudes, as well as a lower perfusion response to local heating. In the group of people with diabetes with trophic ulcers, these parameters also significantly differ from the control and diabetes only groups. Thus, the intensity of skin fluorescence and level of tissue blood perfusion can act as markers for various degrees of complications from the beginning of diabetes to the formation of trophic ulcers.

Published

2017

16. Non-resonant operation of microcavity Brillouin lasers.

Author

Korobko, Dmitry A., Zolotovskii, Igor O., Sokolovski, S. G., and Fotiadi, Andrei A.

Published

2018

17. Cost-effective solution for phase-OTDR distributed acoustic/vibration sensing.

Author

Spirin, V. V., López-Mercado, C. A., Jason, J., Escobedo, J. L. Bueno, Mégret, P., Wuilpart, M., Korobko, D. A., Zolotovskii, I. O., Sokolovski, S. G., and Fotiadi, A. A.

Published

2018

18. New generation of compact laser sources for biomedical applications

Author

Rafailov, E.U., primary, Litvinova, K.S., additional, and Sokolovski, S. G., additional

Published

2016

19. Photomodulation of lymphatic delivery of liposomes to the brain bypassing the blood-brain barrier: new perspectives for glioma therapy

Author

Semyachkina-Glushkovskaya Oxana, Fedosov Ivan, Shirokov Alexander, Vodovozova Elena, Alekseeva Anna, Khorovodov Alexandr, Blokhina Inna, Terskov Andrey, Mamedova Aysel, Klimova Maria, Dubrovsky Alexander, Ageev Vasily, Agranovich Ilana, Vinnik Valeria, Tsven Anna, Sokolovski Sergey, Rafailov Edik, Penzel Thomas, and Kurths Jürgen

Subjects

glioma, liposomes, lymphatic backroad to the brain, photostimulation, rats, Physics, QC1-999

Abstract

The blood-brain barrier (BBB) has a significant contribution to the protection of the central nervous system (CNS). However, it also limits the brain drug delivery and thereby complicates the treatment of CNS diseases. The development of safe methods for an effective delivery of medications and nanocarriers to the brain can be a revolutionary step in the overcoming this limitation. Here, we report the unique properties of the lymphatic system to deliver tracers and liposomes to the brain meninges, brain tissues, and glioma in rats. Using a quantum-dot-based 1267 nm laser (for photosensitizer-free generation of singlet oxygen), we clearly demonstrate photostimulation of lymphatic delivery of liposomes to glioma as well as lymphatic clearance of liposomes from the brain. These pilot findings open promising perspectives for photomodulation of lymphatic delivery of drugs and nanocarriers to the brain pathology bypassing the BBB. The lymphatic “smart” delivery of liposomes with antitumor drugs in the new brain tumor branches might be a breakthrough strategy for the therapy of gliomas.

Published

2021

20. Verification of NADH content measurements by portable optical diagnostic system in living brain tissue

Author

Popp, Jürgen, Tuchin, Valery V., Pavone, Francesco S., Zherebtsov, E., Angelova, P., Sokolovski, S., Abramov, A., and Rafailov, E.

Published

2018

21. Dual-mode OCT/fluorescence system for monitoring the morphology and metabolism of laser-printed 3D full-thickness skin equivalents.

Author

Khalid A, Dremin V, El-Tamer A, Surnina M, Lancelot C, Rafailov E, and Sokolovski S

Abstract

The 3D structure of native human skin is fundamental for studying skin health, diseases, wound healing, and for testing the safety of skin care products, as well as personalized treatments for skin conditions. Tissue regeneration, driven by tissue engineering, often involves creating full-thickness skin equivalents (FSE), which are widely used for developing both healthy and diseased skin models. In this study, we utilized human skin cell lines to create FSE. We designed high-resolution 3D scaffolds to support the growth and maturation of these skin models. Additionally, we developed and validated a cost-effective, custom-built system combining fluorescence spectroscopy (FS) and optical coherence tomography (OCT) for non-destructive analysis of the metabolism and morphology of 3D FSEs. This system proved highly sensitive in detecting fluorescence from key metabolic co-enzymes (NADH and FAD) in solutions and cell suspensions, while OCT provided adequate resolution to observe the morphology of FSEs. As a result, both the 3D FSE model and the dual-mode optical system hold significant potential for use in 3D bioprinting of biological tissues, as well as in the development of cosmetics, drugs, and in monitoring their maturation over time., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Author(s).)

Published

2024

22. Transcranial Photosensitizer-Free Laser Treatment of Glioblastoma in Rat Brain.

Author

Semyachkina-Glushkovskaya O, Sokolovski S, Fedosov I, Shirokov A, Navolokin N, Bucharskaya A, Blokhina I, Terskov A, Dubrovski A, Telnova V, Tzven A, Tzoy M, Evsukova A, Zhlatogosrkaya D, Adushkina V, Dmitrenko A, Manzhaeva M, Krupnova V, Noghero A, Bragin D, Bragina O, Borisova E, Kurths J, and Rafailov E

Subjects

Animals, Rats, Photosensitizing Agents pharmacology, Photosensitizing Agents therapeutic use, Cell Line, Tumor, Male, Apoptosis radiation effects, Humans, Laser Therapy methods, Brain radiation effects, Brain pathology, Brain metabolism, Quantum Dots, Cell Proliferation, Glioblastoma radiotherapy, Glioblastoma pathology, Brain Neoplasms radiotherapy, Brain Neoplasms pathology

Abstract

Over sixty years, laser technologies have undergone a technological revolution and become one of the main tools in biomedicine, particularly in neuroscience, neurodegenerative diseases and brain tumors. Glioblastoma is the most lethal form of brain cancer, with very limited treatment options and a poor prognosis. In this study on rats, we demonstrate that glioblastoma (GBM) growth can be suppressed by photosensitizer-free laser treatment (PS-free-LT) using a quantum-dot-based 1267 nm laser diode. This wavelength, highly absorbed by oxygen, is capable of turning triplet oxygen to singlet form. Applying 1267 nm laser irradiation for a 4 week course with a total dose of 12.7 kJ/cm 2 firmly suppresses GBM growth and increases survival rate from 34% to 64%, presumably via LT-activated apoptosis, inhibition of the proliferation of tumor cells, a reduction in intracranial pressure and stimulation of the lymphatic drainage and clearing functions. PS-free-LT is a promising breakthrough technology in non- or minimally invasive therapy for superficial GBMs in infants as well as in adult patients with high photosensitivity or an allergic reaction to PSs.

Published

2023

23. Mechanisms of Photostimulation of Brain's Waste Disposal System: The Role of Singlet Oxygen.

Author

Semyachkina-Glushkovskaya O, Bragin D, Fedosov I, Blokhina I, Khorovodov A, Terskov A, Shirokov A, Dubrovsky A, Vinnik V, Evsukova A, Elovenko D, Adushkina V, Tzoy M, Dmitrenko A, Krupnova V, Manzhaeva M, Agranovich I, Saranceva E, Iskra T, Lykova E, Sokolovski S, Rafailov E, and Kurths J

Subjects

Meninges, Nitric Oxide, Reactive Oxygen Species, Brain physiology, Singlet Oxygen

Abstract

There is strong evidence that augmentation of the brain's waste disposal system via stimulation of the meningeal lymphatics might be a promising therapeutic target for preventing neurological diseases. In our previous studies, we demonstrated activation of the brain's waste disposal system using transcranial photostimulation (PS) with a laser 1267 nm, which stimulates the direct generation of singlet oxygen in the brain tissues. Here we investigate the mechanisms underlying this phenomenon. Our results clearly demonstrate that PS-mediated stimulation of the brain's waste disposal system is accompanied by activation of lymphatic contractility associated with subsequent intracellular production of the reactive oxygen species and the nitric oxide underlying lymphatic relaxation. Thus, PS stimulates the brain's waste disposal system by influencing the mechanisms of regulation of lymphatic pumping., (© 2023. The Author(s), under exclusive license to Springer Nature Switzerland AG.)

Published

2023

24. Photomodulation of Lymphatic Delivery of Bevacizumab to the Brain: The Role of Singlet Oxygen.

Author

Semyachkina-Glushkovskaya O, Diduk S, Anna E, Elina D, Artem K, Khorovodov A, Shirokov A, Fedosov I, Dubrovsky A, Blokhina I, Terskov A, Karandin G, Evsukova A, Tsven A, Telnova V, Afranovich I, Sokolovski S, Rafailov E, and Kurths J

Subjects

Bevacizumab, Brain, Blood-Brain Barrier, Drug Delivery Systems, Singlet Oxygen, Lymphatic Vessels

Abstract

The blood-brain barrier (BBB) poses a significant challenge for drug delivery to the brain. Therefore, the development of safe methods for an effective delivery of medications to the brain can be a revolutionary step in overcoming this limitation. Using a quantum-dot-based 1267 nm laser (photosensitiser-free generation of singlet oxygen), we clearly show the photostimulation of lymphatic delivery of bevacizumab (BMZ) to the brain tissues and the meninges. These pilot findings open promising perspectives for photomodulation of a lymphatic brain drug delivery bypassing the BBB, and potentially enabling a breakthrough strategy in therapy of glioma using BMZ and other chemotherapy drugs., (© 2022. Springer Nature Switzerland AG.)

Published

2022

25. Wearable Laser Doppler Flowmetry Sensor: A Feasibility Study with Smoker and Non-Smoker Volunteers.

Author

Saha M, Dremin V, Rafailov I, Dunaev A, Sokolovski S, and Rafailov E

Subjects

Adult, Feasibility Studies, Female, Humans, Male, Microcirculation, Pilot Projects, Skin, Volunteers, Wavelet Analysis, Young Adult, Laser-Doppler Flowmetry, Non-Smokers, Smokers, Wearable Electronic Devices

Abstract

Novel, non-invasive wearable laser Doppler flowmetry (LDF) devices measure real-time blood circulation of the left middle fingertip and the topside of the wrist of the left hand. The LDF signals are simultaneously recorded for fingertip and wrist. The amplitude of blood flow signals and wavelet analysis of the signal are used for the analysis of blood perfusion parameters. The aim of this pilot study is to validate the accuracy of blood circulation measurements recorded by one such non-invasive wearable LDF device for healthy young non-smokers and smokers. This study reveals a higher level of blood perfusion in the non-smoker group compared to the smoker group and vice-versa for the variation of pulse frequency. This result can be useful to assess the sensitivity of the wearable LDF sensor in determining the effect of nicotine for smokers as compared to non-smokers and also the blood microcirculation in smokers with different pathologies.

Published

2020

26. Machine Learning Aided Photonic Diagnostic System for Minimally Invasive Optically Guided Surgery in the Hepatoduodenal Area.

Author

Zherebtsov E, Zajnulina M, Kandurova K, Potapova E, Dremin V, Mamoshin A, Sokolovski S, Dunaev A, and Rafailov EU

Abstract

Abdominal cancer is a widely prevalent group of tumours with a high level of mortality if diagnosed at a late stage. Although the cancer death rates have in general declined over the past few decades, the mortality from tumours in the hepatoduodenal area has significantly increased in recent years. The broader use of minimal access surgery (MAS) for diagnostics and treatment can significantly improve the survival rate and quality of life of patients after surgery. This work aims to develop and characterise an appropriate technical implementation for tissue endogenous fluorescence (TEF) and assess the efficiency of machine learning methods for the real-time diagnosis of tumours in the hepatoduodenal area. In this paper, we present the results of the machine learning approach applied to the optically guided MAS. We have elaborated tissue fluorescence approach with a fibre-optic probe to record the TEF and blood perfusion parameters during MAS in patients with cancers in the hepatoduodenal area. The measurements from the laser Doppler flowmetry (LDF) channel were used as a sensor of the tissue vitality to reduce variability in TEF data. Also, we evaluated how the blood perfusion oscillations are changed in the tumour tissue. The evaluated amplitudes of the cardiac (0.6-1.6 Hz) and respiratory (0.2-0.6 Hz) oscillations was significantly higher in intact tissues ( p < 0.001) compared to the cancerous ones, while the myogenic (0.2-0.06 Hz) oscillation did not demonstrate any statistically significant difference. Our results demonstrate that a fibre-optic TEF probe accompanied with ML algorithms such as k-Nearest Neighbours or AdaBoost is highly promising for the real-time in situ differentiation between cancerous and healthy tissues by detecting the information about the tissue type that is encoded in the fluorescence spectrum. Also, we show that the detection can be supplemented and enhanced by parallel collection and classification of blood perfusion oscillations.

Published

2020

27. Author Correction: The light-oxygen effect in biological cells enhanced by highly localized surface plasmon-polaritons.

Author

Khokhlova A, Zolotovskii I, Sokolovski S, Saenko Y, Rafailov E, Stoliarov D, Pogodina E, Svetukhin V, Sibirny V, and Fotiadi A

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

28. The light-oxygen effect in biological cells enhanced by highly localized surface plasmon-polaritons.

Author

Khokhlova A, Zolotovskii I, Sokolovski S, Saenko Y, Rafailov E, Stoliarov D, Pogodina E, Svetukhin V, Sibirny V, and Fotiadi A

Subjects

Animals, CHO Cells, Cricetulus, HCT116 Cells, Humans, Mitochondria metabolism, Oxidation-Reduction radiation effects, Reactive Oxygen Species metabolism, Surface Plasmon Resonance, Lasers adverse effects, Light adverse effects, Mitochondria radiation effects, Oxidative Stress radiation effects, Oxygen metabolism

Abstract

Here at the first time we suggested that the surface plasmon-polariton phenomenon which it is well described in metallic nanostructures could also be used for explanation of the unexpectedly strong oxidative effects of the low-intensity laser irradiation in living matters (cells, tissues, organism). We demonstrated that the narrow-band laser emitting at 1265 nm could generate significant amount of the reactive oxygen species (ROS) in both HCT116 and CHO-K1 cell cultures. Such cellular ROS effects could be explained through the generation of highly localized plasmon-polaritons on the surface of mitochondrial crista. Our experimental conditions, the low-intensity irradiation, the narrow spectrum band (<4 nm) of the laser and comparably small size bio-structures (~10 μm) were shown to be sufficient for the plasmon-polariton generation and strong laser field confinement enabling the oxidative stress observed.

Published

2019

29. Anti-inflammatory and cell proliferative effect of the 1270 nm laser irradiation on the BALB/c nude mouse model involves activation of the cell antioxidant system.

Author

Dolgova D, Abakumova T, Gening T, Poludnyakova L, Zolotovskii I, Stoliarov D, Fotiadi A, Khokhlova A, Rafailov E, and Sokolovski S

Abstract

Recently, many interdisciplinary community researchers have focused their efforts on study of the low-level light irradiation effects (photobiomodulation, PBM) as a promising therapeutic technology. Among the priorities, a search of new wavelength ranges of laser radiation to enhance the laser prospects in treatment of autoimmune and cancer diseases commonly accompanied by disorders in the antioxidant system of the body. The laser wavelengths within 1265-1270 nm corresponds to the maximum oxygen absorption band. Therefore, PBM effects on a model organism within this spectrum range are of particular interest for preclinical research. Here, we report comprehensive biomolecular studies of the changes in the BALB/c nude mice skin after an exposure to the continuous laser radiation at the 1270 nm wavelength and energy densities of 0.12 and 1.2 J/cm 2 . Such regime induces both local and systemic PBM effects, presumably due to the short-term increase in ROS levels, which in turn activate the cell antioxidative system., Competing Interests: The authors declare that there are no conflicts of interest related to this article.

Published

2019

30. Photodynamic opening of blood-brain barrier.

Author

Semyachkina-Glushkovskaya O, Kurths J, Borisova E, Sokolovski S, Mantareva V, Angelov I, Shirokov A, Navolokin N, Shushunova N, Khorovodov A, Ulanova M, Sagatova M, Agranivich I, Sindeeva O, Gekalyuk A, Bodrova A, and Rafailov E

Abstract

Photodynamic treatment (PDT) causes a significant increase in the permeability of the blood-brain barrier (BBB) in healthy mice. Using different doses of laser radiation (635 nm, 10-40 J/cm 2 ) and photosensitizer (5-aminolevulinic acid - 5-ALA, 20 and 80 mg/kg, i.v.), we found that the optimal PDT for the reversible opening of the BBB is 15 J/cm 2 and 5-ALA, 20 mg/kg, exhibiting brain tissues recovery 3 days after PDT. Further increases in the laser radiation or 5-ALA doses have no amplifying effect on the BBB permeability, but are associated with severe damage of brain tissues. These results can be an informative platform for further studies of new strategies in brain drug delivery and for better understanding of mechanisms underlying cerebrovascular effects of PDT-related fluorescence guided resection of brain tumor., Competing Interests: The authors declare that there are no conflicts of interest related to this article.

Published

2017