Publication
DOI: https://doi.org/10.18500/CSFTN-26
Saratov State University
COMPLEX SYSTEM
AND FUTURE TECHNOLOGIES
IN NEUROSCIENCE
Collection of abstracts
Issue 3
Materials of the International Summer School
on “Complex System and Future Technologies in Neuroscience – CSFTN’26”
Moscow, June 09–10, 2026
Saratov
2026
Reviewers:
Alla B. Slamina (Moscow, Russia), https://orcid.org/0000-0003-4012-6348, SPIN: 6504-7657
Edik U. Rafailov (Birmingham, GB), https://orcid.org/0000-0002-4152-0120
Editor Board
Editor in Chief
Oxana Semyachkina-Glushkovskaya (Saratov,Russia),
Saratov State University, Scientific Medical Center, Laboratory «Smart Sleep»,
glushkovskaya@mail.ru, https://orcid.org/0000-0001-6753-7513, SPIN: 4024-0915, AuthorID: 667773
Vladimir B. Dorokhov (Moscow, Russia),
Head of laboratory «Sleep/Wake Neurobilogy» Institute of Higher Nervous Activity &Neurophysiology RAS, Vise-President Russian Somnological Society (ANSS/ESRS member), Moscow State University,
https://orcid.org/0000-0003-3533-9496, SPIN: 6689-4538, AuthorID: 89361
Executive Secretary
Elmira I. Kaybeleva (Saratov,Russia),
Saratov State University
kaybeleva-elmira@mail.ru, https://orcid.org/0000-0002-4986-5449, SPIN: 7985-0160, AuthorID: 788909
The collection was published with the support of the Russian Science Foundation (project No. 23-75-30001).
The work was published in the author's edition
All articles in the collection are published under a Creative Commons Attribution 4.0 International (CC-BY 4.0)
CSFTN’26 conference collection of abstracts are on the conference website
https://lymphacomplex.com/en/publication
UDC: [[612.82:577.25]+616.831-08](082)
BBK: 28.70+56.12:53.5я43
eISSN: 3034-2864
Contents
Lectures
| Brsikian L. Sleep disorders in neurodegenerative diseases | CSFTN-26-L1 | |
| Dobrovolskaya V. Sleep and dreams in folk culture | CSFTN-26-L2 | |
| Dorokhov V. Behavioral and neurobiological analysis of rhythmic diaphragmatic breathing during falling asleep | CSFTN-26-L3 | |
| Ever A. Functioning of the olfactory system during sleep: The effects of odors on sleep and sleep-related processes | CSFTN-26-L4 | |
| Golovatyuk A. Transcranial magnetic stimulation for insomnia treatment: placebo controlled trial | CSFTN-26-L5 | |
| Gorbachev N. Afferent therapy for restless legs syndrome | CSFTN-26-L6 | |
| Kalinkin A. The effect of intermittent hypoxia during sleep on survival and the development of major non-communicable diseases in patients with sleep disorders | CSFTN-26-L7 | |
| Katyshev A. Cardiorespiratory monitoring in the practice of a somnologist: Problems and solutions | CSFTN-26-L8 | |
| Kolotyeva N. The role of metabolites in the development of sleep-associated pathologies | CSFTN-26-L9 | |
| Komleva Yu. Frailty and sleep: An analysis of potential mechanisms of interaction | CSFTN-26-L10 | |
| Kovalzon V., Adrianov M., Vyssokikh M. The naked mole rat in the spotlight of modern science | CSFTN-26-L11 | |
| Madaeva I., Pytkina A., Berdina O., Sholohov L., Kolesnikova L. Sleep apnea and aging | CSFTN-26-L12 | |
| Semyachkina-Glushkovskaya O. Clinically promising wearable and safe technologies for maintain active longevity | CSFTN-26-L13 | |
| Poluektov M. Narcolepsy as a natural experiment in disabling the orexin system in humans | CSFTN-26-L14 | |
| Rychkova L. Sleep apnea in adolescents: Sleep pattern and cognition | CSFTN-26-L15 | |
| Salmina A. Mechanisms of plasticity and brain metabolism in sleep | CSFTN-26-L16 | |
| Sursaev V. Photobiostimulation of the brain of patients with Alzheimer’s disease | CSFTN-26-L17 | |
| Tardov M. Classification of insomnia forms based on analysis of brain electrical activity and sleep structure – impact on clinical outcomes | CSFTN-26-L18 | |
| Trofimov A. Changes in visual perception in healthy volunteers after transcranial photobiomodulation | CSFTN-26-L19 | |
| Yakubova L. Stress whirlwind: Arterial hypertension, insomnia and lymphatic drainage | CSFTN-26-L20 | |
| Dan Zhu. Introduction for advanced biomedical imaging facility | CSFTN-26-L21 | |
| Wei Chen. High-throughput volumetric mapping of synaptic transmission and microcirculations in the brain in vivo | CSFTN-26-L22 | |
| Peng Xiao. PET instrument for freely behaving animals | CSFTN-26-L23 | |
| Lin Wan. From detecting to imaging: Computing architecture based on plug-n-image | CSFTN-26-L24 | |
| Tingting Yu. Tissue optical clearing for deep imaging in neuroscience | CSFTN-26-L25 | |
| Lei Fang. All-digital brain PET system: Design and performance evaluation | CSFTN-26-L26 | |
| Bo Zhang. All-digital brain PET: A new paradigm in neuroimaging | CSFTN-26-L27 | |
| Fenghe Zhong. High-speed hemodynamic imaging with low fluence photoacoustic microscopy | CSFTN-26-L28 | |
| Xiangwei Zhao. Ultrafast photothermal PCR for POCT | CSFTN-26-L29 | |
| Quanguo He. Research on flexible conductive hydrogel semi-dry electrodes for noninvasive brain-computer interfaces | CSFTN-26-L30 | |
| Subochev P. Ultrawideband photoacoustic cerebrovascular imaging of rodents: From scanning angiography to real-time tomography | CSFTN-26-L31 | |
| Goring D. Multimodal imaging devices work together with nano- and microstructure materials for biomedical applications | CSFTN-26-L32 |
Abstracts
| Adushkina V., Terskov A., Zlatogorskaya D., Evsyukova A., Navolokin N., Shirokov A. Sleep deficiency exacerbates age-related decline in brain drainage and clearance in mice | CSFTN-26-1 | |
| Blokhina I., Kolabukhova A., Shirokov A. Technology of optical in vivo visualization of the functions of cervical lymphatic vessels in real time | CSFTN-26-2 | |
| Dmitrenko A., Mohammad Reza Rashidian Vaziri, Ameneh Sazgarnia, Armin Imanparast, Shirokov A. Transcranial laser treatment of rat brain glioblastoma without photosensitizers | CSFTN-26-3 | |
| Elizarova I., Semyachkina-Glushkovskaya O., Shirokov A.Effect of photobiomodulation during sleep and wakefulness on glioma growth and cerebral drainage in rats | CSFTN-26-4 | |
| Evsyukova A., Zlatogorskaya D., Adushkina V., Shirokov A. Differences in brain drainage and cognitive function between BALB/c and C57Bl/6 mice | CSFTN-26-5 | |
| Fedosov I. Cerebrospinal fluid circulation and cerebral waste management | CSFTN-26-6 | |
| Inozemtsev T., Fedosov I., Semyachkina-Glushkovskaya O. Study of blood flow velocity in blood vessels using laser scanning microscopy | CSFTN-26-7 | |
| Kolabukhova A., Blokhina I., Shirokov A. Age differences in the effectiveness of phototherapy of glioblastoma | CSFTN-26-8 | |
| Kranova D., Blokhina I., Semyachkina-Glushkovskaya O. Technology of photobiomodulation of the mouse brain and its meninges during sleep | CSFTN-26-9 | |
| Malysheva M., Blokhina I., Semyachkina-Glushkovskaya O. Photobiomodulation of the mouse brain under EEG-control | CSFTN-26-10 | |
| Manisheva Zh. New strategies in stimulation of brain drainage clearance | CSFTN-26-11 | |
| Merkulova K., Postnov D., Postnikov E. Voxel-based approach in the modeling of parenchymal flows and molecular transport | CSFTN-26-12 | |
| Myagkov D., Tuktarov D., Evsiukova A., Fedosov I., Semyachkina-Glushkovskaya O. An Arduino-based device for grip strength measurement in mice to assess phototherapy of traumatic brain injury | CSFTN-26-13 | |
| Navolokin N., Shirokov A., Terskov A., Adushkina V., Semyachkina-Glushkovskaya O. Using a dual system of dual immunohistochemical staining to identify Lyve-1-positive structures in the human brain | CSFTN-26-14 | |
| Popov S., Ilukov E., Fedosov I., Semyachkina-Glushkovskaya O. Photo-therapy of Alzheimer’s disease during sleep under EEG control | CSFTN-26-15 | |
| Semiachkina-Glushkovskaia A. Automated computer vision technologies for quantitative analysis of sperm motility | CSFTN-26-16 | |
| Shirokov A., Terskov A., Fedosov I., Navolokin N., Bucharskaya A., Maslyakova G. Immunofluorescence identification of Lyve-1/Prox-1 expressing lymphatic elements in the unaffected and affected human brain | CSFTN-26-17 | |
| Sonina K. Targeting meningeal lymphatic vessels: Novel strategies for enhancing brain clearance in Alzheimer’s disease | CSFTN-26-18 | |
| Terskov A., Semyichkina-Glushkovskaia A., Semyachkina-Glushkovskaya O. NO-ergic mechanisms of age-related changes in the sensitivity of lymphatic vessels to photobiomodulation | CSFTN-26-19 | |
| Terskov A., Shirokov A., Evsyukova A., Blokhina I., M. R. Rashidian Vaziri, Armin Imanparast, Ameneh Sazgarnia, Navolokin N., Bucharskaya A., Maslyakova G. Non-invasive phototherapy of glioblastoma in rats | CSFTN-26-20 | |
| Tsoy M., Sidorov V., Semyachkina-Glushkovskaya O. Non-invasive monitoring of hemodynamic response to photobiomodulation of the brain and its meninges | CSFTN-26-21 | |
| Tuktarov D., Myagkov D., Zlatogorskaya D., Adushkina V., Semyachkina-Glushkovskaya O. Development of controlled brain concussion technology in laboratory animals | CSFTN-26-22 | |
| Zlatogorskaya D., Navolokin N., Shirokov A. Histological changes and brain drainage in a mouse model of obstructive sleep apnea | CSFTN-26-23 | |
| Yuening He, Hao Lin, Kunxing Liu, Xizhi Meng, Tingting Yu, Dan Zhu. Photobiomodulation preserves motor function and attenuates neuronal and muscular injury in ALS mice | CSFTN-26-24 | |
| Qihang Yang, Yuening He, Shuo Wang, Zengting Li, Jiaxuan Wang, Zehao Sun, Wenbo Yang, Xiang Zhong, Bo Peng, Zaozao Chen, Zhongze Gu, Dan Zhu, Tingting Yu. Multidirectional interstitial flow promotes microvascular network formation: Insights from a square chip-based platform | CSFTN-26-25 | |
| Weicheng Yan, Yun Wu, Mingyue Ding, Wu Qiu, Ming Yuchi. Full-waveform inversion for transcranial sound speed reconstruction based on optimal transport distance | CSFTN-26-26 | |
| Hui Zhang, Lei Chen, Weicheng Yan, Yining Li, Ming Yuchi. Non-invasive deep brain ultrasonic neuromodulation for brain function exploration: A 7.5-cm transcranial focusing solution using Fresnel lenses | CSFTN-26-27 | |
| Wentao Hu, Jingmin Zhu, Yubo Hu, Weirui Zhang, Peng Xiao, Qingguo Xie. Rapid quantitative assessment of brain glucose metabolism in small animals using 18F-FDG PET/CT | CSFTN-26-28 | |
| Weirui Zhang, Ruining Li, Bingxuan Li, Qingguo Xie. A novel quantitative method for meningeal lymphatic drainage via coincidence event detection in all-digital brain PET | CSFTN-26-29 | |
| Yang Wenbo. High-throughput and standardized tissue processing: The integrated automated platform for tissue optical clearing | CSFTN-26-30 | |
| Ruining Li, Wirui Zhang, Bingxuan Li, Qingguo Xie. Modeling stroke recovery as a complex system: PET-guided cross-modal conditional learning via latent variables | CSFTN-26-31 | |
| Shirokov A., Morgun A., Khilazheva E., Boytsova E., Blokhina I., Fedosov I., Semyachkina-Glushkovskaya O. Photobiostimulation of motor activity of macrophages: New strategies for therapy of brain tumor | CSFTN-26-32 | |
| Vyzhelevskaya E. N. Science news on the media resources of Saratov University and in other media outlets (based on the research supported by RSF grants) | CSFTN-26-33 | |
| Kurnikov A., Loginova M., Subochev P. Intracranial ultrasonic detectors for photoacoustic microscopy: Modeling and ex vivo validation | CSFTN-26-34 | |
| Kurnikov A., Loginova M., Lei Xi, Subochev P. Optoacoustic imaging of mouse cortical vessels using skull-implanted miniature ultrasound hydrophones | CSFTN-26-35 |