Your search keyword '"Bocharov KV"' showing total 8 results

1. Determining optimal ambient ionization mass spectrometry data pre-processing parameters in neurosurgery

Author

Zavorotnyuk, DS, primary, Sorokin, AA, additional, Bormotov, DS, additional, Eliferov, VA, additional, Bocharov, KV, additional, Pekov, SI, additional, and Popov, IA, additional

Published

2024

2. Incorporation of a Disposable ESI Emitter into Inline Cartridge Extraction Mass Spectrometry Improves Throughput and Spectra Stability.

Author

Bormotov DS, Eliferov VA, Peregudova OV, Zavorotnyuk DS, Bocharov KV, Pekov SI, Sorokin AA, Nikolaev EN, and Popov IA

Subjects

Humans, Reproducibility of Results, Spectrometry, Mass, Electrospray Ionization methods

Abstract

Rapid and reliable methods for detecting tumor margins are crucial for neuro-oncology. Several mass spectrometry-based methods have been recently proposed to address this problem. Inline Cartridge Extraction (ICE) demonstrates the potential for clinical application, based on ex-vivo analysis of dissected tissues, but requires time-consuming steps to avoid cross-contamination. In this work, a method of incorporating a disposable electrospray emitter into the ICE cartridge by PEEK sleeves melting is developed. It reduces total analysis time and improves throughput. The proposed setup also improves the robustness of the ICE molecular profiling as demonstrated with human glial tumor samples in that stability and reproducibility of the spectra were increased.

Published

2023

3. Spherical Sampler Probes Enhance the Robustness of Ambient Ionization Mass Spectrometry for Rapid Drugs Screening.

Author

Shamraeva MA, Bormotov DS, Shamarina EV, Bocharov KV, Peregudova OV, Pekov SI, Nikolaev EN, and Popov IA

Subjects

Humans, High-Throughput Screening Assays methods, Pharmaceutical Preparations analysis, Specimen Handling methods, Spectrometry, Mass, Electrospray Ionization methods

Abstract

Ambient ionization mass spectrometry has become one of the most promising approaches for rapid and high-throughput screening of small molecules in complex biological matrices for emergency medicine, forensics, and food and agriculture applications. The simple procedures for sample collection and ionization without additional pretreatment are vital in these fields. Many efforts have been devoted to modifying various ambient ionization techniques to simplify the procedures and improve the robustness and sensitivity of the methods. Here, we demonstrate the implementation of rigid spherical sampler probes to improve the robustness of touch spray ionization mass spectrometry. The sphericity of the probes increases the stability of the cone-jet mode of electrospray, reduces the requirements for fine positioning of a sampler in the ion source, and decreases the possibility of corona discharge occurrence. The utilization of spherical sampler probes allows fast, non-invasive sampling, followed by rapid analysis for various drugs of different chemical classes in complex biological matrices, such as the whole blood or sebum collected from the skin surface. The linearity of the analytical signal response from drug concentration confirms the possibility of creating a simple semiquantitative method for small molecules monitoring using spherical sampler probes.

Published

2022

4. The software for interactive evaluation of mass spectra stability and reproducibility.

Author

Zhvansky ES, Sorokin AA, Bormotov DS, Bocharov KV, Zavorotnyuk DS, Ivanov DG, Nikolaev EN, and Popov IA

Abstract

Summary: Mass spectrometry (MS) methods are widely used for the analysis of biological and medical samples. Recently developed methods, such as DESI, REIMS and NESI allow fast analyses without sample preparation at the cost of higher variability of spectra. In biology and medicine, MS profiles are often used with machine learning (classification, regression, etc.) algorithms and statistical analysis, which are sensitive to outliers and intraclass variability. Here, we present spectra similarity matrix (SSM) Display software, a tool for fast visual outlier detection and variance estimation in mass spectrometric profiles. The tool speeds up the process of manual spectra inspection, improves accuracy and explainability of outlier detection, and decreases the requirements to the operator experience. It was shown that the batch effect could be revealed through SSM analysis and that the SSM calculation can also be used for tuning novel ion sources concerning the quality of obtained mass spectra., Availability and Implementation: Source code, example datasets, binaries and other information are available at https://github.com/EvgenyZhvansky/R_matrix., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

5. Assessment of variation of inline cartridge extraction mass spectra.

Author

Zhvansky ES, Eliferov VA, Sorokin AA, Shurkhay VA, Pekov SI, Bormotov DS, Ivanov DG, Zavorotnyuk DS, Bocharov KV, Khaliullin IG, Belenikin MS, Potapov AA, Nikolaev EN, and Popov IA

Subjects

Algorithms, Astrocytes cytology, Humans, Reproducibility of Results, Risk Assessment, Brain Neoplasms diagnosis, Cell Extracts analysis, Mass Spectrometry methods

Abstract

Recently, mass-spectrometry methods show its utility in tumor boundary location. The effect of differences between research and clinical protocols such as low- and high-resolution measurements and sample storage have to be understood and taken into account to transfer methods from bench to bedside. In this study, we demonstrate a simple way to compare mass spectra obtained by different experimental protocols, assess its quality, and check for the presence of outliers and batch effect in the dataset. We compare the mass spectra of both fresh and frozen-thawed astrocytic brain tumor samples obtained with the inline cartridge extraction prior to electrospray ionization. Our results reveal the importance of both positive and negative ion mode mass spectrometry for getting reliable information about sample diversity. We show that positive mode highlights the difference between protocols of mass spectra measurement, such as fresh and frozen-thawed samples, whereas negative mode better characterizes the histological difference between samples. We also show how the use of similarity spectrum matrix helps to identify the proper choice of the measurement parameters, so data collection would be kept reliable, and analysis would be correct and meaningful., (© 2020 John Wiley & Sons, Ltd.)

Published

2021

6. [Analysis of phosphatidylcholines alterations in human glioblastoma multiform tissues ex vivo].

Author

Pekov SI, Sorokin AA, Kuzin AA, Bocharov KV, Bormotov DS, Shivalin AS, Shurkhay VA, Potapov AA, Nikolaev EN, and Popov IA

Subjects

Animals, Humans, Lipid Metabolism, Phosphatidylcholines, Astrocytoma, Brain Neoplasms, Glioblastoma

Abstract

Significant metabolism alteration is accompanying the cell malignization process. Energy metabolism disturbance leads to the activation of de novo synthesis and beta-oxidation processes of lipids and fatty acids in a cancer cell, which becomes an indicator of pathological processes inside the cell. The majority of studies dealing with lipid metabolism alterations in glial tumors are performed using the cell lines in vitro or animal models. However, such conditions do not entirely represent the physiological conditions of cell growth or possible cells natural variability. This work presents the results of the data obtained by applying ambient mass spectrometry to human glioblastoma multiform tissues. By analyzing a relatively large cohort of primary and secondary glioblastoma samples, we identify the alterations in cells lipid composition, which accompanied the development of grade IV brain tumors. We demonstrate that primary glioblastomas, as well as ones developed from astrocytomas, are enriched with mono- and diunsaturated phosphatidylcholines (PC 26:1, 30:2, 32:1, 32:2, 34:1, 34:2). Simultaneously, the saturated and polyunsaturated phosphatidylcholines and phosphatidylethanolamines decrease. These alterations are obviously linked to the availability of the polyunsaturated fatty acids and activation of the de novo lipid synthesis and beta-oxidation pathways under the anaerobic conditions in the tumor core.

Published

2021

7. Unified representation of high- and low-resolution spectra to facilitate application of mass spectrometric techniques in clinical practice.

Author

Zhvansky ES, Sorokin AA, Pekov SI, Indeykina MI, Ivanov DG, Shurkhay VA, Eliferov VA, Zavorotnyuk DS, Levin NG, Bocharov KV, Tkachenko SI, Belenikin MS, Potapov AA, Nikolaev EN, and Popov IA

Abstract

The majority of research in the biomedical sciences is carried out with the highest resolution accessible to the scientist, but, in the clinic, cost constraints necessitate the use of low-resolution devices. Here, we compare high- and low-resolution direct mass spectrometry profiling data and propose a simple pre-processing technique that makes high-resolution data suitable for the development of classification and regression techniques applicable to low-resolution data, while retaining high accuracy of analysis. This work demonstrates an approach to de-noising spectra to make the same representation for both high- and low-resolution spectra. This approach uses noise threshold detection based on the Tversky index, which compares spectra with different resolutions, and minimizes the percentage of resolution-specific peaks. The presented method provides an avenue for the development of analytical algorithms using high-resolution mass spectrometry data, while applying these algorithms in the clinic using low-resolution mass spectrometers., (© 2019 Published by Elsevier B.V. on behalf of The Association for Mass Spectrometry: Applications to the Clinical Lab (MSACL).)

Published

2019

8. [Secondary Structure of Aβ(1-16) Complexes with Zinc: A Study in the Gas Phase Using Deuterium/Hydrogen Exchange and Ultra-High-Resolution Mass Spectrometry].

Author

Kostyukevich YI, Kononikhin AS, Indeykina MI, Popov IA, Bocharov KV, Spassky AI, Kozin SA, Makarov AA, and Nikolaev EN

Subjects

Deuterium Exchange Measurement, Models, Molecular, Protein Binding, Protein Structure, Secondary, Spectrometry, Mass, Electrospray Ionization, Temperature, Amyloid beta-Peptides chemistry, Peptide Fragments chemistry, Zinc Acetate chemistry

Abstract

Complexes of peptide fragment 1-16 of beta-amyloid with transition metals play an important role in the development of a broad class of neurodegenerative diseases, which determines the interest in investigating the structures of these complexes. In this work, we have applied the method of the deuterium/hydrogen exchange in combination with ultra-high-resolution mass spectrometry to study conformational changes in (1-16) beta-amyloid peptide induced by binding of zinc(II) atoms. The efficiency of the deuterium/hydrogen exchange depended on the number of zinc atoms bound to the peptide and on the temperature of the ionization source region. Deuterium/hydrogen exchange reactions have been performed directly in the ionization source. The number of exchanges decreased considerably with an increasing numbers of zinc atoms. The relationship has been described with a damped exponential curve, which indicated that the binding of zinc atoms altered the conformation of the peptide ion by making it less open, which limits the access to inner areas of the molecule.

Published

2017