Anna Rassadina scite author profile

The analysis of exhaled breath is drawing a high degree of interest in the diagnostics of various diseases, including lung cancer. Electronic nose (E-nose) technology is one of the perspective approaches in the field due to its relative simplicity and cost efficiency. The use of an E-nose together with pattern recognition algorithms allow 'breath-prints' to be discriminated. The aim of this study was to develop an efficient online E-nose-based lung cancer diagnostic method via exhaled breath analysis with the use of some statistical classification methods. A developed multisensory system consisting of six metal oxide chemoresistance gas sensors was employed in three temperature regimes. This study involved 118 individuals: 65 in the lung cancer group (cytologically verified) and 53 in the healthy control group. The exhaled breath samples of the volunteers were analysed using the developed E-nose system. The dataset obtained, consisting of the sensor responses, was pre-processed and split into training (70%) and test (30%) subsets. The training data was used to fit the classification models; the test data was used for the estimation of prediction possibility. Logistic regression was found to be an adequate data-processing approach. The performance of the developed method was promising for the screening purposes (sensitivity-95.0%, specificity-100.0%, accuracy-97.2%). This shows the applicability of the gas-sensitive sensor array for the exhaled breath diagnostics. Metal oxide sensors are highly sensitive, low-cost and stable, and their poor sensitivity can be enhanced by integrating them with machine learning algorithms, as can be seen in this study. All experiments were carried out with the permission of the N.N. Petrov Research Institute of Oncology ethics committee no. 15/83 dated

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Analysis of exhaled air for early-stage diagnosis of lung cancer: opportunities and challenges

Ганеев

Gubal

Lukyanov

et al. 2018

Russ. Chem. Rev.

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Early detection of lung cancer usually markedly increases the efficiency of therapy. However, the currently employed diagnostic approaches are not sufficiently effective, resulting in late detection of the disease and high patient mortality. Therefore, development of a high-throughput and reliable diagnostic method is a priority task requiring fast solution. Analysis of exhaled air for a number of organic compounds recognized as lung cancer biomarkers seems to be a promising approach for early diagnosis of the disease. This issue attracts growing interest, as indicated by increasing number of publications on this topic. This review surveys contemporary analytical techniques for analysis of exhaled air, including various spectroscopic and mass spectral methods and also gas sensor-based methods. The key benefits and shortcomings of the techniques, sample injection and pre-concentration methods, and the potential applicability of the methods for lung cancer detection are discussed. The prospects of simultaneous application of several analytical techniques and approaches for the early diagnosis are demonstrated. The bibliography includes 147 references.

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Studies of the human breathing

Neronov¹,

Luk'yanov

Rassadina

et al. 2017

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Comparison and the analysis of the processes of the movement of air through the human breathing system and its natural model

Lukyanov

Rassadina

Usachev

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In the report are represented the results of an experimental study of the movement of air both through the human respiratory system and through the natural model. The model copies the structure of nasopharynx and human nose. The velocity and temperature were measured in to the human nose and in different parts of the model. The dimensionality and entropy for the patient and for the model were calculated on the basis of these measurements. The results of comparison helped to better understand nonlinear phenomena with the movement of air on the nasal passages. Control of the process of treating some illnesses of respiratory system was accomplished on this base.

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Anna Rassadina

Online breath analysis using metal oxide semiconductor sensors (electronic nose) for diagnosis of lung cancer

Analysis of exhaled air for early-stage diagnosis of lung cancer: opportunities and challenges

Studies of the human breathing

Comparison and the analysis of the processes of the movement of air through the human breathing system and its natural model

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