Персона:
Лощенов, Виктор Борисович

Научные группы

Научная группа

Новые методы лазерно-индуцированного воздействия на биологические ткани для лечения заболеваний опухолевой, воспалительной (артриты), инфекционной (антибиотико-резистентные бактерии, вирусы) природы (Кафедра №87)

Организационные подразделения

Организационная единица

Инженерно-физический институт биомедицины

Цель ИФИБ и стратегия развития – это подготовка высококвалифицированных кадров на базе передовых исследований и разработок новых перспективных методов и материалов в области инженерно-физической биомедицины. Занятие лидерских позиций в биомедицинских технологиях XXI века и внедрение их в образовательный процесс, что отвечает решению практикоориентированной задачи мирового уровня – диагностике и терапии на клеточном уровне социально-значимых заболеваний человека.

Фамилия

Лощенов

Имя

Виктор Борисович

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Теперь показываю 1 - 10 из 27

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Fluorescence Diagnosis in Neurooncology: Retrospective Analysis of 653 Cases
(2019) Goryaynov, Sergey A.; Okhlopkov, Vladimir A.; Golbin, Denis A.; Chernyshov, Konstantin A.; Loschenov, Victor B.; Лощенов, Виктор Борисович
Objective: This study is to analyze fluorescence sensitivity in the diagnosis of brain and spinal cord tumors. Material and methods: The authors conducted a multicenter retrospective analysis of data on 653 cases in 641 patients: 553 of them had brain tumors and 88 spinal cord tumors. Brain tumor resection was performed in 523 patients, of whom 484 were adults and 39 children. The analyzed series was presented by 320 gliomas, 101 meningiomas, and 72 metastases. A stereotactic biopsy was performed in 20 patients and endoscopic surgery in 10 patients. In all cases, 20 mg/kg of 5-Aminolaevulinic acid was administered orally 2-h before surgery. All surgical interventions were performed with a microscope BLUE 400 to visualize fluorescence, while endoscopic surgery-with an endoscope equipped with a fluorescent module. Fluorescence spectroscopy was conducted in 20 cases of stereotactic biopsies and in 88 cases of spinal cord tumors. Results: Among adult brain tumors operated by microsurgical techniques, meningiomas showed the highest 5-ALA fluorescence sensitivity 94% (n = 95/101), brain metastases 84.7% (n = 61/72), low-grade gliomas 46.4% (n = 26/56), and high-grade gliomas 90.2% (n = 238/264). In children the highest 5-ALA visible fluorescence was observed in anaplastic astrocytomas 100% (n = 4/4) and in anaplastic ependymomas 100% (n = 4/4); in low-grade gliomas it made up 31.8% (n = 7/22). As for the spinal cord tumors in adults, the highest sensitivity was demonstrated by glioblastomas 100% (n = 4/4) and by meningiomas 100% (n = 4/4); Fluorescence was not found in gemangioblastomas (n = 0/6) and neurinomas (n = 0/4). Fluorescence intensity reached 60% (n = 6/10) in endoscopic surgery and 90% (n = 18/20) in stereotactic biopsy. Conclusion: 5-ALA fluorescence diagnosis proved to be most sensitive in surgery of HGG and meningioma (90.2 and 94.1%, respectively). Sensitivity in surgery of intracranial metastases and spinal cord tumors was slightly lower (84.7 and 63.6%, correspondingly). The lowest fluorescence sensitivity was marked in pediatric tumors and LGG (50 and 46.4%, correspondingly). Fluorescence diagnosis can also be used in transnasal endoscopic surgery of skull base tumors and in stereotactic biopsy.
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New cationic photosensitizers: Photophysical properties and results of preliminary studies of antibacterial efficacy
(2019) Tiganova, I. G.; Makarova, E. A.; Philipova, N. I.; Romanishkin, I. D.; Akhlyustina, E. V.; Meerovich, G. A.; Loschenov, V. B.; Ахлюстина, Екатерина Витальевна; Меерович, Геннадий Александрович; Лощенов, Виктор Борисович
© 2019 Published under licence by IOP Publishing Ltd. Polycationic derivatives of synthetic bacteriochlorin with absorption in the near infrared range are promising for the creation of photosensitizers (PS) for antimicrobial photodynamic therapy. In the present work, the photophysical and antibacterial properties of PS based on tetracationic derivatives of synthetic bacteriochlorins: hydrophilic 3-Py 4 BC(EtBr) 4 Br4 in aqueous solution and amphiphilic 3-Py 4 BCHP 4 Br 4 in the dispersion of Kolliphor ELP were studied. Analysis of absorption and fluorescence in a wide range of concentrations has demonstrated low aggregation of the PS over the entire range. A high efficiency of photodynamic inactivation of Gram-positive Staphylococcus aureus and Gramnegative Pseudomonas aeruginosa, Klebsiella pneumoniae and Acinetobacter baumannii bacteria was observed.
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The engraftment dynamics evaluation of skin grafts via aluminium phthalocyanine nanoparticles using spectroscopic methods
(2019) Makarov, V. I.; Farrakhova, D. S.; Loschenov, V. B.; Лощенов, Виктор Борисович
© Published under licence by IOP Publishing Ltd.The research and comparison of spectroscopic methods for assessment of skin grafts engraftment/rejection after the back cross skin transplantation of laboratory mice were carried out. The spectral analysis was performed via inflammatory reaction evaluation of the studied area. The inflammatory reaction intensity correlates with the fluorescence intensity of the aluminum phthalocyanine nanoparticles. The photodynamic therapy was carried out to improve the skin engraftment and reduce the inflammatory reaction.
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Photodynamic Therapy under Diagnostic Control of Wounds with Antibiotic-Resistant Microflora
(2024) Shiryaev, A.; Kalyagina, N.; Ivankov, M.; Efendiev, K.; Loschenov, V.; Калягина, Нина Анатольевна; Эфендиев, Канамат Темботович; Лощенов, Виктор Борисович
Background: Difficulties in the treatment of purulent wounds are caused by bacterial biofilms, which results in decontamination limitations. Infected wounds are not sufficiently susceptible to existing antibiotics, necessitating the search for alternative approaches to reduce the concentration of pathogenic microflora. Methods: This study describes an approach to the effective treatment of wounds by photodynamic inactivation or therapy (PDI/PDT) of antibiotic-resistant microflora under fluorescence control. For this purpose, laser and LED light (660ў??680 nm) and different groups of photosensitizers (PS) (1% solutions of methylene blue, aluminum phthalocyanine, chlorine e6 and nanocomposites containing these groups of PS) were used. The study included 90 patients with various wounds. Some patients were subjected to fluorescence diagnosis by laser spectral analysis before the PDT. Results: Positive results were achieved in 76 patients (84%, p andlt; 0.05). After the first PDT session, a decrease in the concentration of microflora was noticeable. By the third and seventh days, a significant to complete inactivation of bacteria was obtained. In all patients who were photo-diagnosed before PDT, a significant PS concentration decrease of more than 75% after PDT was obtained. Conclusion: PDT is an effective method for the inactivation of antibiotic-resistant pathogens, including in long non-healing wounds, contributing also to early tissue regeneration.
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Effect of Photodynamic Therapy with the Photosensitizer Methylene Blue on Cerebral Endotheliocytes In Vitro
(2024) Makarov, V. I.; Skobeltsin, A. S.; Averchuk, A. S.; Loschenov, V. B.; Макаров, Владимир Игоревич; Скобельцин, Алексей Сергеевич; Лощенов, Виктор Борисович
Background: Microvessels in tumor tissue play a crucial role in meeting the metabolic needs of transformed cells, controlling the entry of xenobiotics into tumor tissue, and regulating local inflammation that promotes metastasis. Methylene blue has photosensitizing properties and can also affect dysfunctional mitochondria. Methods: The study was performed on the primary culture of CECs. The cells underwent photodynamic treatment through 660 nm laser irradiation at a power density of 300 mW/cm2. The MTT, TMRE, and TUNEL assays were used to assess the survival, redox metabolism, mitochondrial activity, and apoptosis of CECs. Additionally, the metabolic activity of cells was evaluated using FLIM by measuring the fluorescence lifetime of NADH and FAD. Results: When CECs were incubated with MB, there was an increase in mitochondrial activity that was dependent on the concentration of MB. Additionally, mitochondrial activity increased when the CECs were exposed to 660 nm laser irradiation at an energy dose of up to 5 J/cm2. Following PDT, a slight shift towards oxidative phosphorylation was observed. Conclusions: In vitro application of MB accumulation or laser irradiation causes a shift in the redox status of CECs towards increased reducing activity, without causing any cell damage. However, the combined action of PS and laser radiation has the opposite effect on the redox status of cells, resulting in an increase in the oxidized form of FAD.
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Polycationic Photosensitizers as Effective Anticancer Agents That Destroy Cancer Stem Cells, Cancer Vascularization and Induce Protective Desmoplastic Reaction around Lung Cancers
(2024) Kogan, E.; Meerovich, G.; Karshieva, S.; Akhlyustina, E.; Loschenov, V.; Меерович, Геннадий Александрович; Ахлюстина, Екатерина Витальевна; Лощенов, Виктор Борисович
PDT using PSs based on polycationic derivatives of synthetic bacteriochlorin against Lewis lung carcinoma provides effective inhibition of tumor growth with an increase in the lifespan and survival of mice in the group. PDT with polycationic photosensitizers destroys CSCs and tumor neovascularization, and activates the desmoplastic reaction. These results open up new opportunities for increasing the effectiveness of treatment and reducing the incidence of relapses and metastases after PDT.
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Optimization of upconversion luminescence excitation mode for deeper in vivo bioimaging without contrast loss or overheating
(2020) Pominova, D. V.; Romanishkin, I. D.; Proydakova, V. Y.; Grachev, P. V.; Ryabova, A. V.; Loschenov, V. B.; Рябова, Анастасия Владимировна; Лощенов, Виктор Борисович
Upconversion nanoparticles have attracted considerable attention as luminescent markers for bioimaging and sensing due to their capability to convert near-infrared (NIR) excitation into visible or NIR luminescence. However, the wavelength of about 970 nm is commonly used for the upconversion luminescence excitation, where the strong absorption of water is observed, which can lead to laser-induced overheating effects. One of the strategies for avoiding such laser-induced heating involves shifting the excitation into shorter wavelengths region. However, the influence of wavelength change on luminescent images quality has not been investigated yet. In this work, we compare wavelengths of 920, 940 and 970 nm for upconversion luminescence excitation in the thickness of biological tissues in terms of detected signal intensity and obtained image quality (contrast and signal-to-background ratio). Studies on biological tissue phantoms with various scattering and absorbing properties were performed to analyze the influence of optical parameters on the depth and contrast of the images obtained under 920-970 nm excitation. It was shown that at the same power the excitation wavelength shift reduces the detected signal intensity and the resulting image contrast. Visualization of biological tissue samples using shorter excitation wavelengths 920 and 940 nm also reduces signal-to-background ratio (S/B) of the obtained images. The S/B of the obtained images amounted to 2, 6 and 8 for 920, 940 and 970 nm, respectively. It was demonstrated that pulse-periodic excitation mode is preferable for obtaining high quality luminescent images of biological tissues deep layers and minimize overheating. Short pulse durations (duty cycle 20%) don't result in heating even for 1 W cm(-2) pumping power density and allow obtaining high luminescence intensity, which provides good images quality.
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New approaches to diagnostics and treatment of cholangiocellular cancer based on photonics methods
(2020) Yakovlev, D. V.; Farrakhova, D. S.; Shiryaev, A. A.; Loschenov, M. V.; Efendiev, K. T.; Loschenov, V. B.; Эфендиев, Канамат Темботович; Лощенов, Виктор Борисович
© 2020, Higher Education Press.Cholangiocellular cancer (CCC) is an oncological disease of the bile ducts characterized by a high mortality rate. To date, the use of standard methods for the diagnosis and treatment of CCC has not been able to reduce mortality from this disease. This work presents the results of fluorescence diagnostics (FD), which consists in using a modified optical fiber and photodynamic therapy (PDT) using a therapeutic laser instead of a low-intensity laser. This technique was tested on 43 patients in a clinical setting. The results obtained indicate a direct correlation between spectroscopic and video FD methods. Furthermore, a direct correlation was found between the photobleaching of a chlorin e6-based photosensitizer, with the commercial names of Photolon Radachlorin and Photoran and stricture regression. Our findings demonstrate the possibility of using a therapeutic laser with a wavelength of 660 nm for both diagnosis and treatment of bile ducts cancer, which results in a significant reduction of the operation time without decreasing its effectiveness. [Figure not available: see fulltext.].
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3D spheroid cultures for evaluation of nanophotosensitizers accumulation
(2020) Skobeltsin, A.; Farrakhova, D.; Maklygina, Y.; Romanishkin, I.; Loschenov, V.; Лощенов, Виктор Борисович
© Published under licence by IOP Publishing Ltd.Current paper presents the results of the usage of indocyanine green and pheophorbide nanoform on 2D and 3D models of FaDu cells culture. The 2D model or monolayer was used for investigation of nanoparticles distribution within individual cells and their organelles. The 3D model or multicellular tumor spheroids were used for estimation of cells' metabolic processes by the investigation of the nanophotosensitizers fluorescence distribution within spheroid's layers. It was shown that pheophorbide nanoparticles are accumulated in the external cell layers of spheroids, indocyanine green nanoparticles distribution demonstrates completely opposite status - in the central part of the spheroid.
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Study of possibility of cell recognition in brain tumors
(2020) Maklygina, Y. S.; Skobeltsin, A. S.; Savelieva, T. A.; Pavlova, G. V.; Loschenov, V. B.; Савельева, Татьяна Александровна; Лощенов, Виктор Борисович
The brain has an exceptionally high requirement for energy metabolism, with glucose serving as the exclusive energy source. Cancers, including glioblastoma, have a high glucose uptake and rely on aerobic glycolysis for energy metabolism. The alternation of high-efficiency oxidative phosphorylation to a low-efficiency aerobic glycolysis pathway (Warburg effect) provides macromolecules for biosynthesis and proliferation. Current research indicates that the specific metabolism in the tumor tissue and normal brain tissue in the glioma allows the use of 5-aminolevulinic acid (5 ALA)-induced protoporphyrin IX (PpIX) and methylene blue (MB) to monitor and correct the development of the tumor. The focus is on the detection of the differences between tumor cells and tumor-associated macrophages/microglia using spectroscopic and microscopic methods, based on the fluorescent signals and the difference in the drug accumulation of photosensitizers (PSs). Since 5 ALA has long been used effectively in the clinic for fluorescent surgical navigation, it was employed as an agent to identify the localization of tumor tissue and study its composition, particularly tumor and immune cells (macrophages), which have also been shown to actively accumulate PpIX. However, since PpIX is photodynamically active, it can be considered effective as the main target of tumor tissue for further successful photodynamic therapy. MB was employed to visualize resident microglia, which is important for their activation/deactivation to prevent the reprogramming of the immune cells by the tumor. Thus, using two drugs, it is possible to prevent crosstalk between tumor cells and the immune cells of different geneses.