Your search keyword '"Adushkina, Viktoria"' showing total 23 results

1. Method for real-time optical brain monitoring in freely moving mice during wakefulness and natural sleep

Author

Blokhina, Inna, Adushkina, Viktoria, Zlatogosrkaya, Daria, Ilyukov, Egor, Telnova, Valeria, Evsyukova, Arina, Terskov, Andrey, Myagkov, Dmitry, Tuktarov, Dmitry, Tzoy, Maria, Dubrovsky, Alexander, Dmitrenko, Alexander, Manzhaeva, Maria, Krupnova, Valeria, Tuzhilkin, Matvey, Elizarova, Inna, and Navolokin, Nikita

Published

2024

2. Task-specific approach in customized design of EEG system for small laboratory animals

Author

Ilyukov, Egor, Myagkov, Dmitry, Tuktarov, Dmitry, Popov, Sergey, Inozemtsev, Timofey, Blokhina, Inna, Terskov, Andrey, Adushkina, Viktoria, and Zlatogorskaya, Daria

Published

2024

3. New insights into phototherapy of glioblastoma: the meningeal lymphatics and sleep

Author

Shirokov, Alexander, Ilukov, Egor, Blokhina, Inna, Terskov, Andrey, Adushkina, Viktoria, Zlatogosrkaya, Daria, and Telnova, Valeria

Published

2024

4. Mechanisms of phototherapy of Alzheimer’s disease during sleep and wakefulness: the role of the meningeal lymphatics

Author

Semyachkina-Glushkovskaya Oxana, Shirokov Alexander, Blokhina Inna, Fedosov Ivan, Terskov Andrey, Dubrovsky Alexander, Tsoy Maria, Elovenko Daria, Adushkina Viktoria, Evsukova Arina, Telnova Valeria, Tzven Anna, Krupnova Valeria, Manzhaeva Maria, Dmitrenko Alexander, Penzel Thomas, and Kurths Jürgen

Subjects

Alzheimer’s disease, Photobiomodulation, Brain lymphatics, Sleep, Mechanisms, Applied optics. Photonics, TA1501-1820

Abstract

Abstract With the increase in the aging population, the global number of people with Alzheimer’s disease (AD) progressively increased worldwide. The situation is aggravated by the fact that there is no the effective pharmacological therapy of AD. Photobiomodulation (PBM) is non-pharmacological approach that has shown very promising results in the therapy of AD in pilot clinical and animal studies. However, the mechanisms of therapeutic effects of PBM for AD are poorly understood. In this study on mice, we demonstrate that photodynamic effects of 5-aminolevulenic acid and laser 635 nm cause reduction of network of the meningeal lymphatic vessels (MLVs) leading to suppression of lymphatic removal of beta-amyloid (Aβ) from the right lateral ventricle and the hippocampus. Using the original protocol of PBM under electroencephalographic monitoring of wakefulness and sleep stages in non-anesthetized mice, we discover that the 7-day course of PBM during deep sleep vs. wakefulness provides better restoration of clearance of Aβ from the ventricular system of the brain and the hippocampus. Our results shed light on the mechanism of PBM and show the stimulating effects of PBM on the brain lymphatic drainage that promotes transport of Aβ via the lymphatic pathway. The effects of PBM on the brain lymphatics in sleeping brain open a new niche in the study of restorative functions of sleep as well as it is an important informative platform for the development of innovative smart sleep technologies for the therapy of AD. Graphical Abstract

Published

2023

5. Mechanisms of Photostimulation of Brain’s Waste Disposal System: The Role of Singlet Oxygen

Author

Semyachkina-Glushkovskaya, Oxana, Bragin, Denis, Fedosov, Ivan, Blokhina, Inna, Khorovodov, Alexander, Terskov, Andrey, Shirokov, Alexander, Dubrovsky, Alexander, Vinnik, Valeria, Evsukova, Arina, Elovenko, Daria, Adushkina, Viktoria, Tzoy, Maria, Dmitrenko, Alexander, Krupnova, Valeria, Manzhaeva, Maria, Agranovich, Ilana, Saranceva, Elena, Iskra, Tatyana, Lykova, Ekaterina, Sokolovski, Sergey, Rafailov, Edik, Kurths, Jürgen, Crusio, Wim E., Series Editor, Dong, Haidong, Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Steinlein, Ortrud, Series Editor, Xiao, Junjie, Series Editor, Scholkmann, Felix, editor, LaManna, Joseph, editor, and Wolf, Ursula, editor

Published

2023

6. Plasmalogens Improve Lymphatic Clearance of Amyloid Beta from Mouse Brain and Cognitive Functions.

Author

Shirokov, Alexander, Zlatogosrkaya, Daria, Adushkina, Viktoria, Vodovozova, Elena, Kardashevskaya, Kristina, Sultanov, Ruslan, Kasyanov, Sergey, Blokhina, Inna, Terskov, Andrey, Tzoy, Maria, Evsyukova, Arina, Dubrovsky, Alexander, Tuzhilkin, Matvey, Elezarova, Inna, Dmitrenko, Alexander, Manzhaeva, Maria, Krupnova, Valeria, Semiachkina-Glushkovskaia, Anastasiia, Ilyukov, Egor, and Myagkov, Dmitry

Abstract

Amyloid beta (Aβ) is a neuronal metabolic product that plays an important role in maintaining brain homeostasis. Normally, intensive brain Aβ formation is accompanied by its effective lymphatic removal. However, the excessive accumulation of brain Aβ is observed with age and during the development of Alzheimer's disease (AD) leading to cognitive impairment and memory deficits. There is emerging evidence that plasmalogens (Pls), as one of the key brain lipids, may be beneficial for AD and cognitive aging. Here, we studied the effects of Pls on cognitive functions and the lymphatic clearance of Aβ from the brain of AD mice and mice of different ages. The results showed that Pls effectively reduce brain Aβ levels and facilitate learning in aged but not old mice. In AD mice, Pls improve the lymphatic clearance of Aβ that is accompanied by an increase in general motor activity and an improvement of the emotional status and learning ability. Thus, these findings suggest that Pls could be a promising candidate for the alternative or concomitant therapy of AD and age-related brain diseases to enhance the lymphatic clearance of Aβ from the brain and cognitive functions. [ABSTRACT FROM AUTHOR]

Published

2024

7. Different Effects of Phototherapy for Rat Glioma during Sleep and Wakefulness

Author

Shirokov, Alexander, Blokhina, Inna, Fedosov, Ivan, Ilyukov, Egor, Terskov, Andrey, Myagkov, Dmitry, Tuktarov, Dmitry, Tzoy, Maria, Adushkina, Viktoria, Zlatogosrkaya, Daria, Evsyukova, Arina, Telnova, Valeria, Dubrovsky, Alexander, Dmitrenko, Alexander, Manzhaeva, Maria, Krupnova, Valeria, Tuzhilkin, Matvey, Elezarova, Inna, Navolokin, Nikita, Saranceva, Elena, Iskra, Tatyana, Lykova, Ekaterina, Semyachkina-Glushkovskaya, Oxana, Shirokov, Alexander, Blokhina, Inna, Fedosov, Ivan, Ilyukov, Egor, Terskov, Andrey, Myagkov, Dmitry, Tuktarov, Dmitry, Tzoy, Maria, Adushkina, Viktoria, Zlatogosrkaya, Daria, Evsyukova, Arina, Telnova, Valeria, Dubrovsky, Alexander, Dmitrenko, Alexander, Manzhaeva, Maria, Krupnova, Valeria, Tuzhilkin, Matvey, Elezarova, Inna, Navolokin, Nikita, Saranceva, Elena, Iskra, Tatyana, Lykova, Ekaterina, and Semyachkina-Glushkovskaya, Oxana

Abstract

There is an association between sleep quality and glioma-specific outcomes, including survival. The critical role of sleep in survival among subjects with glioma may be due to sleep-induced activation of brain drainage (BD), that is dramatically suppressed in subjects with glioma. Emerging evidence demonstrates that photobiomodulation (PBM) is an effective technology for both the stimulation of BD and as an add-on therapy for glioma. Emerging evidence suggests that PBM during sleep stimulates BD more strongly than when awake. In this study on male Wistar rats, we clearly demonstrate that the PBM course during sleep vs. when awake more effectively suppresses glioma growth and increases survival compared with the control. The study of the mechanisms of this phenomenon revealed stronger effects of the PBM course in sleeping vs. awake rats on the stimulation of BD and an immune response against glioma, including an increase in the number of CD8+ in glioma cells, activation of apoptosis, and blockage of the proliferation of glioma cells. Our new technology for sleep-phototherapy opens a new strategy to improve the quality of medical care for patients with brain cancer, using promising smart-sleep and non-invasive approaches of glioma treatment., Russian Science Foundation, Peer Reviewed

Published

2024

8. Different Effects of Phototherapy for Rat Glioma during Sleep and Wakefulness

Author

Shirokov, Alexander, primary, Blokhina, Inna, additional, Fedosov, Ivan, additional, Ilyukov, Egor, additional, Terskov, Andrey, additional, Myagkov, Dmitry, additional, Tuktarov, Dmitry, additional, Tzoy, Maria, additional, Adushkina, Viktoria, additional, Zlatogosrkaya, Daria, additional, Evsyukova, Arina, additional, Telnova, Valeria, additional, Dubrovsky, Alexander, additional, Dmitrenko, Alexander, additional, Manzhaeva, Maria, additional, Krupnova, Valeria, additional, Tuzhilkin, Matvey, additional, Elezarova, Inna, additional, Navolokin, Nikita, additional, Saranceva, Elena, additional, Iskra, Tatyana, additional, Lykova, Ekaterina, additional, and Semyachkina-Glushkovskaya, Oxana, additional

Published

2024

9. Promising Strategies to Reduce the SARS-CoV-2 Amyloid Deposition in the Brain and Prevent COVID-19-Exacerbated Dementia and Alzheimer's Disease.

Author

Navolokin, Nikita, Adushkina, Viktoria, Zlatogorskaya, Daria, Telnova, Valeria, Evsiukova, Arina, Vodovozova, Elena, Eroshova, Anna, Dosadina, Elina, Diduk, Sergey, and Semyachkina-Glushkovskaya, Oxana

Subjects

*ALZHEIMER'S disease, *AMYLOID beta-protein, *SARS-CoV-2, *AMYLOID, *COVID-19, *VIRUS diseases

Abstract

The COVID-19 pandemic, caused by infection with the SARS-CoV-2 virus, is associated with cognitive impairment and Alzheimer's disease (AD) progression. Once it enters the brain, the SARS-CoV-2 virus stimulates accumulation of amyloids in the brain that are highly toxic to neural cells. These amyloids may trigger neurological symptoms in COVID-19. The meningeal lymphatic vessels (MLVs) play an important role in removal of toxins and mediate viral drainage from the brain. MLVs are considered a promising target to prevent COVID-19-exacerbated dementia. However, there are limited methods for augmentation of MLV function. This review highlights new discoveries in the field of COVID-19-mediated amyloid accumulation in the brain associated with the neurological symptoms and the development of promising strategies to stimulate clearance of amyloids from the brain through lymphatic and other pathways. These strategies are based on innovative methods of treating brain dysfunction induced by COVID-19 infection, including the use of photobiomodulation, plasmalogens, and medicinal herbs, which offer hope for addressing the challenges posed by the SARS-CoV-2 virus. [ABSTRACT FROM AUTHOR]

Published

2024

10. Technology of photobiostimulation of brain’s drainage system during sleep for improvement of learning and memory in male mice

Author

Semyachkina-Glushkovskaya, Oxana, primary, Fedosov, Ivan, additional, Zaikin, Alexey, additional, Ageev, Vasily, additional, Ilyukov, Egor, additional, Myagkov, Dmitry, additional, Tuktarov, Dmitry, additional, BLOKHINA, INNA, additional, Shirokov, Alexander, additional, Terskov, Andrey, additional, Zlatogorskaya, Daria, additional, Adushkina, Viktoria, additional, Evsukova, Arina, additional, Dubrovsky, Alexander, additional, Tsoy, Maria, additional, Vinnik, Valeria, additional, Manzhaeva, Maria, additional, Dmitrenko, Alexander, additional, Krupnova, Valeria, additional, and Kurths, Jürgen, additional

Published

2023

11. Machine Learning Technology for EEG-Forecast of the Blood–Brain Barrier Leakage and the Activation of the Brain’s Drainage System during Isoflurane Anesthesia

Author

Semyachkina-Glushkovskaya, Oxana, primary, Sergeev, Konstantin, additional, Semenova, Nadezhda, additional, Slepnev, Andrey, additional, Karavaev, Anatoly, additional, Hramkov, Alexey, additional, Prokhorov, Mikhail, additional, Borovkova, Ekaterina, additional, Blokhina, Inna, additional, Fedosov, Ivan, additional, Shirokov, Alexander, additional, Dubrovsky, Alexander, additional, Terskov, Andrey, additional, Manzhaeva, Maria, additional, Krupnova, Valeria, additional, Dmitrenko, Alexander, additional, Zlatogorskaya, Daria, additional, Adushkina, Viktoria, additional, Evsukova, Arina, additional, Tuzhilkin, Matvey, additional, Elizarova, Inna, additional, Ilyukov, Egor, additional, Myagkov, Dmitry, additional, Tuktarov, Dmitry, additional, and Kurths, Jürgen, additional

Published

2023

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

Author

Semyachkina-Glushkovskaya, Oxana, primary, Sokolovski, Sergey, additional, Fedosov, Ivan, additional, Shirokov, Alexander, additional, Navolokin, Nikita, additional, Bucharskaya, Alla, additional, Blokhina, Inna, additional, Terskov, Andrey, additional, Dubrovski, Alexander, additional, Telnova, Valeria, additional, Tzven, Anna, additional, Tzoy, Maria, additional, Evsukova, Arina, additional, Zhlatogosrkaya, Daria, additional, Adushkina, Viktoria, additional, Dmitrenko, Alexander, additional, Manzhaeva, Maria, additional, Krupnova, Valeria, additional, Noghero, Alessio, additional, Bragin, Denis, additional, Bragina, Olga, additional, Borisova, Ekaterina, additional, Kurths, Jürgen, additional, and Rafailov, Edik, additional

Published

2023

13. Machine Learning Technology for EEG-Forecast of the Blood–Brain Barrier Leakage and the Activation of the Brain’s Drainage System during Isoflurane Anesthesia

Author

Semyachkina-Glushkovskaya, Oxana, Sergeev, Konstantin, Semenova, Nadezhda, Slepnev, Andrey, Karavaev, Anatoly, Hramkov, Alexey, Prokhorov, Mikhail, Borovkova, Ekaterina, Blokhina, Inna, Fedosov, Ivan, Shirokov, Alexander, Dubrovsky, Alexander, Terskov, Andrey, Manzhaeva, Maria, Krupnova, Valeria, Dmitrenko, Alexander, Zlatogorskaya, Daria, Adushkina, Viktoria, Evsukova, Arina, Tuzhilkin, Matvey, Elizarova, Inna, Ilyukov, Egor, Myagkov, Dmitry, Tuktarov, Dmitry, Kurths, Jürgen, Semyachkina-Glushkovskaya, Oxana, Sergeev, Konstantin, Semenova, Nadezhda, Slepnev, Andrey, Karavaev, Anatoly, Hramkov, Alexey, Prokhorov, Mikhail, Borovkova, Ekaterina, Blokhina, Inna, Fedosov, Ivan, Shirokov, Alexander, Dubrovsky, Alexander, Terskov, Andrey, Manzhaeva, Maria, Krupnova, Valeria, Dmitrenko, Alexander, Zlatogorskaya, Daria, Adushkina, Viktoria, Evsukova, Arina, Tuzhilkin, Matvey, Elizarova, Inna, Ilyukov, Egor, Myagkov, Dmitry, Tuktarov, Dmitry, and Kurths, Jürgen

Abstract

Anesthesia enables the painless performance of complex surgical procedures. However, the effects of anesthesia on the brain may not be limited only by its duration. Also, anesthetic agents may cause long-lasting changes in the brain. There is growing evidence that anesthesia can disrupt the integrity of the blood–brain barrier (BBB), leading to neuroinflammation and neurotoxicity. However, there are no widely used methods for real-time BBB monitoring during surgery. The development of technologies for an express diagnosis of the opening of the BBB (OBBB) is a challenge for reducing post-surgical/anesthesia consequences. In this study on male rats, we demonstrate a successful application of machine learning technology, such as artificial neural networks (ANNs), to recognize the OBBB induced by isoflurane, which is widely used in surgery. The ANNs were trained on our previously presented data obtained on the sound-induced OBBB with an 85% testing accuracy. Using an optical and nonlinear analysis of the OBBB, we found that 1% isoflurane does not induce any changes in the BBB, while 4% isoflurane caused significant BBB leakage in all tested rats. Both 1% and 4% isoflurane stimulate the brain’s drainage system (BDS) in a dose-related manner. We show that ANNs can recognize the OBBB induced by 4% isoflurane in 57% of rats and BDS activation induced by 1% isoflurane in 81% of rats. These results open new perspectives for the development of clinically significant bedside technologies for EEG-monitoring of OBBB and BDS., Russian Science Foundation, Russian Ministry of Science and High Education, First Moscow State Medical University of the Ministry of Health of the Russian Federation (Sechenov University), research center “SYMBIOSIS”, Peer Reviewed

Published

2023

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

Author

Semyachkina-Glushkovskaya, Oxana, Sokolovski, Sergey, Fedosov, Ivan, Shirokov, Alexander, Navolokin, Nikita, Bucharskaya, Alla, Blokhina, Inna, Terskov, Andrey, Dubrovski, Alexander, Telnova, Valeria, Tzven, Anna, Tzoy, Maria, Evsukova, Arina, Zhlatogosrkaya, Daria, Adushkina, Viktoria, Dmitrenko, Alexander, Manzhaeva, Maria, Krupnova, Valeria, Noghero, Alessio, Bragin, Denis, Bragina, Olga, Borisova, Ekaterina, Kurths, Jürgen, Rafailov, Edik, Semyachkina-Glushkovskaya, Oxana, Sokolovski, Sergey, Fedosov, Ivan, Shirokov, Alexander, Navolokin, Nikita, Bucharskaya, Alla, Blokhina, Inna, Terskov, Andrey, Dubrovski, Alexander, Telnova, Valeria, Tzven, Anna, Tzoy, Maria, Evsukova, Arina, Zhlatogosrkaya, Daria, Adushkina, Viktoria, Dmitrenko, Alexander, Manzhaeva, Maria, Krupnova, Valeria, Noghero, Alessio, Bragin, Denis, Bragina, Olga, Borisova, Ekaterina, Kurths, Jürgen, and Rafailov, Edik

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/cm2 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., Russian Science Foundation, Russian Ministry of Science and Higher Education, NIH, HE Pathfinder GlioLight project, IBPPM RAS, Peer Reviewed

Published

2023

15. Intranasal Delivery of Liposomes to Glioblastoma by Photostimulation of the Lymphatic System

Author

Semyachkina-Glushkovskaya, Oxana, primary, Shirokov, Alexander, additional, Blokhina, Inna, additional, Telnova, Valeria, additional, Vodovozova, Elena, additional, Alekseeva, Anna, additional, Boldyrev, Ivan, additional, Fedosov, Ivan, additional, Dubrovsky, Alexander, additional, Khorovodov, Alexandr, additional, Terskov, Andrey, additional, Evsukova, Arina, additional, Elovenko, Daria, additional, Adushkina, Viktoria, additional, Tzoy, Maria, additional, Agranovich, Ilana, additional, Kurths, Jürgen, additional, and Rafailov, Edik, additional

Published

2022

16. Music improves the therapeutic effects of bevacizumab in rats with glioblastoma: Modulation of drug distribution to the brain

Author

Semyachkina-Glushkovskaya, Oxana, Diduk, Sergey, Anna, Eroshova, Elina, Dosadina, Artem, Kruglov, Khorovodov, Alexander, Shirokov, Alexander, Fedosov, Ivan, Dubrovsky, Alexander, Blokhina, Inna, Terskov, Andrey, Navolokin, Nikita, Evsukova, Arina, Elovenko, Daria, Adushkina, Viktoria, and Kurths, Jürgen

Subjects

brain drug delivery, Cancer Research, Oncology, music, ddc:610, blood-brain barrier, bevacizumab, 610 Medizin und Gesundheit, rat glioblastoma

Abstract

BackgroundThe development of new methods for modulation of drug distribution across to the brain is a crucial step in the effective therapies for glioblastoma (GBM). In our previous work, we discovered the phenomenon of music-induced opening of the blood-brain barrier (OBBB) in healthy rodents. In this pilot study on rats, we clearly demonstrate that music-induced BBB opening improves the therapeutic effects of bevacizumab (BZM) in rats with GBM via increasing BZM distribution to the brain along the cerebral vessels.MethodsThe experiments were performed on Wistar male rats (200–250 g, n=161) using transfected C6-TagRFP cell line and the loud rock music for OBBB. The OBBB was assessed by spectrofluorometric assay of Evans Blue (EB) extravasation and confocal imaging of fluorescent BZM (fBZM) delivery into the brain. Additionally, distribution of fBZM and Omniscan in the brain was studied using fluorescent and magnetic resonance imaging (MRI), respectively. To analyze the therapeutic effects of BZM on the GBM growth in rats without and with OBBB, the GBM volume (MRI scans), as well as immunohistochemistry assay of proliferation (Ki67 marker) and apoptosis (Bax marker) in the GBM cells were studied. The Mann–Whitney–Wilcoxon test was used for all analysis, the significance level was p < 0.05, n=7 in each group.ResultsOur finding clearly demonstrates that music-induced OBBB increases the delivery of EB into the brain tissues and the extravasation of BZM into the brain around the cerebral vessels of rats with GBM. Music significantly increases distribution of tracers (fBZM and Omniscan) in the rat brain through the pathways of brain drainage system (perivascular and lymphatic), which are an important route of drug delivery into the brain. The music-induced OBBB improves the suppressive effects of BZM on the GBM volume and the cellular mechanisms of tumor progression that was accompanied by higher survival among rats in the GBM+BZM+Music group vs. other groups.ConclusionWe hypothesized that music improves the therapeutic effects of BZM via OBBB in the normal cerebral vessels and lymphatic drainage of the brain tissues. This contributes better distribution of BZM in the brain fluids and among the normal cerebral vessels, which are used by GBM for invasion and co-opt existing vessels as a satellite tumor form. These results open the new perspectives for an improvement of therapeutic effects of BZM via the music-induced OBBB for BZM in the normal cerebral vessels, which are used by GBM for migration and progression.

Published

2022

17. Intranasal Delivery of Liposomes to Glioblastoma by Photostimulation of the Lymphatic System

Author

Gao, Huile, Lopes, Carla M., Catita, José, Semyachkina-Glushkovskaya, Oxana, Shirokov, Alexander, Blokhina, Inna, Telnova, Valeria, Vodovozova, Elena, Alekseeva, Anna, Boldyrev, Ivan, Fedosov, Ivan, Dubrovsky, Alexander, Khorovodov, Alexandr, Terskov, Andrey, Evsukova, Arina, Elovenko, Daria, Adushkina, Viktoria, Tzoy, Maria, Agranovich, Ilana, Kurths, Jürgen, Rafailov, Edik, Gao, Huile, Lopes, Carla M., Catita, José, Semyachkina-Glushkovskaya, Oxana, Shirokov, Alexander, Blokhina, Inna, Telnova, Valeria, Vodovozova, Elena, Alekseeva, Anna, Boldyrev, Ivan, Fedosov, Ivan, Dubrovsky, Alexander, Khorovodov, Alexandr, Terskov, Andrey, Evsukova, Arina, Elovenko, Daria, Adushkina, Viktoria, Tzoy, Maria, Agranovich, Ilana, Kurths, Jürgen, and Rafailov, Edik

Abstract

The blood–brain barrier (BBB) limits the delivery of majority of cancer drugs and thereby complicates brain tumor treatment. The nasal-brain-lymphatic system is discussed as a pathway for brain drug delivery overcoming the BBB. However, in most cases, this method is not sufficient to achieve a therapeutic effect due to brain drug delivery in a short distance. Therefore, it is necessary to develop technologies to overcome the obstacles facing nose-to-brain delivery of promising pharmaceuticals. In this study, we clearly demonstrate intranasal delivery of liposomes to the mouse brain reaching glioblastoma (GBM). In the experiments with ablation of the meningeal lymphatic network, we report an important role of meningeal pathway for intranasal delivery of liposomes to the brain. Our data revealed that GBM is characterized by a dramatic reduction of intranasal delivery of liposomes to the brain that was significantly improved by near-infrared (1267 nm) photostimulation of the lymphatic vessels in the area of the cribriform plate and the meninges. These results open new perspectives for non-invasive improvement of efficiency of intranasal delivery of cancer drugs to the brain tissues using nanocarriers and near-infrared laser-based therapeutic devices, which are commercially available and widely used in clinical practice.

Published

2022

18. Intranasal Delivery of Liposomes to Glioblastoma by Photostimulation of the Lymphatic System

Author

Semyachkina-Glushkovskaya, Oxana, Shirokov, Alexander, Blokhina, Inna, Telnova, Valeria, Vodovozova, Elena, Alekseeva, Anna, Boldyrev, Ivan, Fedosov, Ivan, Dubrovsky, Alexander, Khorovodov, Alexandr, Terskov, Andrey, Evsukova, Arina, Elovenko, Daria, Adushkina, Viktoria, Tzoy, Maria, Agranovich, Ilana, Kurths, Jürgen, Rafailov, Edik, Semyachkina-Glushkovskaya, Oxana, Shirokov, Alexander, Blokhina, Inna, Telnova, Valeria, Vodovozova, Elena, Alekseeva, Anna, Boldyrev, Ivan, Fedosov, Ivan, Dubrovsky, Alexander, Khorovodov, Alexandr, Terskov, Andrey, Evsukova, Arina, Elovenko, Daria, Adushkina, Viktoria, Tzoy, Maria, Agranovich, Ilana, Kurths, Jürgen, and Rafailov, Edik

Abstract

The blood–brain barrier (BBB) limits the delivery of majority of cancer drugs and thereby complicates brain tumor treatment. The nasal-brain-lymphatic system is discussed as a pathway for brain drug delivery overcoming the BBB. However, in most cases, this method is not sufficient to achieve a therapeutic effect due to brain drug delivery in a short distance. Therefore, it is necessary to develop technologies to overcome the obstacles facing nose-to-brain delivery of promising pharmaceuticals. In this study, we clearly demonstrate intranasal delivery of liposomes to the mouse brain reaching glioblastoma (GBM). In the experiments with ablation of the meningeal lymphatic network, we report an important role of meningeal pathway for intranasal delivery of liposomes to the brain. Our data revealed that GBM is characterized by a dramatic reduction of intranasal delivery of liposomes to the brain that was significantly improved by near-infrared (1267 nm) photostimulation of the lymphatic vessels in the area of the cribriform plate and the meninges. These results open new perspectives for non-invasive improvement of efficiency of intranasal delivery of cancer drugs to the brain tissues using nanocarriers and near-infrared laser-based therapeutic devices, which are commercially available and widely used in clinical practice., RSF, RFBR, RF Governmental Grant, Peer Reviewed

Published

2022

19. Night Photostimulation of Clearance of Beta-Amyloid from Mouse Brain: New Strategies in Preventing Alzheimer’s Disease

Author

Semyachkina-Glushkovskaya, Oxana, primary, Penzel, Thomas, additional, Blokhina, Inna, additional, Khorovodov, Alexander, additional, Fedosov, Ivan, additional, Yu, Tingting, additional, Karandin, Georgy, additional, Evsukova, Arina, additional, Elovenko, Dariya, additional, Adushkina, Viktoria, additional, Shirokov, Alexander, additional, Dubrovskii, Alexander, additional, Terskov, Andrey, additional, Navolokin, Nikita, additional, Tzoy, Maria, additional, Ageev, Vasily, additional, Agranovich, Ilana, additional, Telnova, Valeria, additional, Tsven, Anna, additional, and Kurths, Jürgen, additional

Published

2021

20. Intranasal Delivery of Liposomes to Glioblastoma by Photostimulation of the Lymphatic System.

Author

Semyachkina-Glushkovskaya, Oxana, Shirokov, Alexander, Blokhina, Inna, Telnova, Valeria, Vodovozova, Elena, Alekseeva, Anna, Boldyrev, Ivan, Fedosov, Ivan, Dubrovsky, Alexander, Khorovodov, Alexandr, Terskov, Andrey, Evsukova, Arina, Elovenko, Daria, Adushkina, Viktoria, Tzoy, Maria, Agranovich, Ilana, Kurths, Jürgen, and Rafailov, Edik

Subjects

INTRANASAL administration, BLOOD-brain barrier, LYMPHATICS, LIPOSOMES, CRIBRIFORM plate, GLIOBLASTOMA multiforme

Abstract

The blood–brain barrier (BBB) limits the delivery of majority of cancer drugs and thereby complicates brain tumor treatment. The nasal-brain-lymphatic system is discussed as a pathway for brain drug delivery overcoming the BBB. However, in most cases, this method is not sufficient to achieve a therapeutic effect due to brain drug delivery in a short distance. Therefore, it is necessary to develop technologies to overcome the obstacles facing nose-to-brain delivery of promising pharmaceuticals. In this study, we clearly demonstrate intranasal delivery of liposomes to the mouse brain reaching glioblastoma (GBM). In the experiments with ablation of the meningeal lymphatic network, we report an important role of meningeal pathway for intranasal delivery of liposomes to the brain. Our data revealed that GBM is characterized by a dramatic reduction of intranasal delivery of liposomes to the brain that was significantly improved by near-infrared (1267 nm) photostimulation of the lymphatic vessels in the area of the cribriform plate and the meninges. These results open new perspectives for non-invasive improvement of efficiency of intranasal delivery of cancer drugs to the brain tissues using nanocarriers and near-infrared laser-based therapeutic devices, which are commercially available and widely used in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2023

21. Photodynamic opening of the blood-brain barrier affects meningeal lymphatics and the brain's drainage in healthy male mice.

Author

Blokhina I, Terskov A, Evsiukova A, Dubrovsky A, Adushkina V, Zlatogorskaya D, Dmitrenko A, Tuzhilkin M, Manzhaeva M, Krupnova V, Ilyukov E, Myagkov D, Tuktarov D, Popov S, Tzoy M, Shirokov A, Fedosov I, and Semyachkina-Glushkovskaya O

Abstract

Here, we present the new vascular effects of photodynamic therapy (PDT) with 5-aminolevulinic acid (5-ALA). PDT with 5-ALA induces a leakage of both the meningeal and cerebral blood vessels. The extravasation of photo-excited 5-ALA from the leaky blood vessels into the meninges causes photo-damage of the meningeal lymphatics (MLVs) leading to a dramatic reducing the MLV network and brain's drainage. The PDT-induced impairment of lymphatic regulation of brain's drainage can lead to excessive accumulation of fluids in brain tissues, which is important to consider in the PDT therapy for brain diseases as s possible side effect of PDT with 5-ALA., Competing Interests: The authors declare no conflict of interest., (© 2024 Optica Publishing Group.)

Published

2024

22. Photobiomodulation under Electroencephalographic Controls of Sleep for Stimulation of Lymphatic Removal of Toxins from Mouse Brain.

Author

Blokina I, Iluykov E, Myagkov D, Tuktarov D, Popov S, Inozemzev T, Fedosov I, Shirokov A, Terskov A, Dmitrenko A, Evsyukova A, Zlatogorskaya D, Adushkina V, Tuzhilkin M, Manzhaeva M, Krupnova V, Dubrovsky A, Elizarova I, Tzoy M, and Semyachkina-Glushkovskaya O

Subjects

Animals, Mice, Low-Level Light Therapy methods, Amyloid beta-Peptides metabolism, Lymphatic Vessels radiation effects, Lymphatic Vessels physiology, Brain radiation effects, Mice, Inbred BALB C, Electroencephalography methods, Sleep physiology, Sleep radiation effects

Abstract

The meningeal lymphatic vessels (MLVs) play an important role in the removal of toxins from the brain. The development of innovative technologies for the stimulation of MLV functions is a promising direction in the progress of the treatment of various brain diseases associated with MLV abnormalities, including Alzheimer's and Parkinson's diseases, brain tumors, traumatic brain injuries, and intracranial hemorrhages. Sleep is a natural state when the brain's drainage processes are most active. Therefore, stimulation of the brain's drainage and MLVs during sleep may have the most pronounced therapeutic effects. However, such commercial technologies do not currently exist. This study presents a new portable technology of transcranial photobiomodulation (tPBM) under electroencephalographic (EEG) control of sleep designed to photo-stimulate removal of toxins (e.g., soluble amyloid beta (Aβ)) from the brain of aged BALB/c mice with the ability to compare the therapeutic effectiveness of different optical resources. The technology can be used in the natural condition of a home cage without anesthesia, maintaining the motor activity of mice. These data open up new prospects for developing non-invasive and clinically promising photo-technologies for the correction of age-related changes in the MLV functions and brain's drainage processes and for effectively cleansing brain tissues from metabolites and toxins. This technology is intended both for preclinical studies of the functions of the sleeping brain and for developing clinically relevant treatments for sleep-related brain diseases.

Published

2024

23. Technology of the photobiostimulation of the brain's drainage system during sleep for improvement of learning and memory in male mice.

Author

Semyachkina-Glushkovskaya O, Fedosov I, Zaikin A, Ageev V, Ilyukov E, Myagkov D, Tuktarov D, Blokhina I, Shirokov A, Terskov A, Zlatogorskaya D, Adushkina V, Evsukova A, Dubrovsky A, Tsoy M, Telnova V, Manzhaeva M, Dmitrenko A, Krupnova V, and Kurths J

Abstract

In this study on healthy male mice using confocal imaging of dye spreading in the brain and its further accumulation in the peripheral lymphatics, we demonstrate stronger effects of photobiomodulation (PBM) on the brain's drainage system in sleeping vs. awake animals. Using the Pavlovian instrumental transfer probe and the 2-objects-location test, we found that the 10-day course of PBM during sleep vs. wakefulness promotes improved learning and spatial memory in mice. For the first time, we present the technology for PBM under electroencephalographic (EEG) control that incorporates modern state of the art facilities of optoelectronics and biopotential detection and that can be built of relatively cheap and commercially available components. These findings open a new niche in the development of smart technologies for phototherapy of brain diseases during sleep., Competing Interests: The authors declare no conflict of interest. Author Contributions. O.S.-G. initiated and supervised this work. I.F., V.A., E.I., D.M. D.T. carried out technological work to create method for PBM under EEG control; A.S., A.T., I.B. and A.D. performed the confocal analysis; M.Z. made the statistical analysis; D.Z., V.A., A.E., M.M., A.D., V.K., V.T. performed most of the experiments. O.S-G., A.Z., J.K. reviewed all results and wrote the manuscript. All authors have read and agreed to the published version of the manuscript., (Published by Optica Publishing Group under the terms of the Creative Commons Attribution 4.0 License. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI.)

Published

2023