Standard

Экспресс-анализ ацетона в выдыхаемом воздухе при диагностике сахарного диабета. / Платонов, Игорь Артемьевич; Платонов , Владимир Игоревич ; Колесниченко , Ирина Николаевна; Родинков, Олег Васильевич; Брыскин, Александр Сергеевич; Маргарян, Астхик Эдиковна ; Колесниченко, Дмитрий Леонидович .

в: СОРБЦИОННЫЕ И ХРОМАТОГРАФИЧЕСКИЕ ПРОЦЕССЫ, Том 24, № 2, 28.05.2024, стр. 180-196.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Платонов, ИА, Платонов , ВИ, Колесниченко , ИН, Родинков, ОВ, Брыскин, АС, Маргарян, АЭ & Колесниченко, ДЛ 2024, 'Экспресс-анализ ацетона в выдыхаемом воздухе при диагностике сахарного диабета', СОРБЦИОННЫЕ И ХРОМАТОГРАФИЧЕСКИЕ ПРОЦЕССЫ, Том. 24, № 2, стр. 180-196. https://doi.org/10.17308/sorpchrom.2024.24/12124

APA

Платонов, И. А., Платонов , В. И., Колесниченко , И. Н., Родинков, О. В., Брыскин, А. С., Маргарян, А. Э., & Колесниченко, Д. Л. (2024). Экспресс-анализ ацетона в выдыхаемом воздухе при диагностике сахарного диабета. СОРБЦИОННЫЕ И ХРОМАТОГРАФИЧЕСКИЕ ПРОЦЕССЫ, 24(2), 180-196. https://doi.org/10.17308/sorpchrom.2024.24/12124

Vancouver

Платонов ИА, Платонов ВИ, Колесниченко ИН, Родинков ОВ, Брыскин АС, Маргарян АЭ и пр. Экспресс-анализ ацетона в выдыхаемом воздухе при диагностике сахарного диабета. СОРБЦИОННЫЕ И ХРОМАТОГРАФИЧЕСКИЕ ПРОЦЕССЫ. 2024 Май 28;24(2):180-196. https://doi.org/10.17308/sorpchrom.2024.24/12124

Author

Платонов, Игорь Артемьевич ; Платонов , Владимир Игоревич ; Колесниченко , Ирина Николаевна ; Родинков, Олег Васильевич ; Брыскин, Александр Сергеевич ; Маргарян, Астхик Эдиковна ; Колесниченко, Дмитрий Леонидович . / Экспресс-анализ ацетона в выдыхаемом воздухе при диагностике сахарного диабета. в: СОРБЦИОННЫЕ И ХРОМАТОГРАФИЧЕСКИЕ ПРОЦЕССЫ. 2024 ; Том 24, № 2. стр. 180-196.

BibTeX

@article{a488a2b1297d4b139e5a5b553e8bb26d,
title = "Экспресс-анализ ацетона в выдыхаемом воздухе при диагностике сахарного диабета",
abstract = "Exhaled air analysis is an actively developing area of medical non-invasive diagnostics, as it does not involve invasive interventions and can be performed repeatedly. It is known that acetone in exhaled air correlates with blood glucose and is a biomarker of diabetes. The use of analytical systems to analyse acetone in exhaled air in medical institutions will allow for the timely diagnosis of pathological changes in blood glucose levels, the early diagnosis of diabetes, and the monitoring of the effectiveness of treatments. In this study, we described the express analysis of acetone in exhaled air using a mobile diagnostic complex based on microfluidic systems including a PIA gas microchromatograph with a thermochemical detector, a planar chromatographic column, a thermostatically controlled system for the sampling and selective capture of interfering components, operated by electric microvalves, and an automatic dosing system with adjustable blowdown from 0.1 to 5 sec and specialised software. We proposed using a diagnostically significant range of concentrations: from 0.5 ppm to 20 ppm of acetone in exhaled air in the diagnosis of diabetes. The total analysis time is 3 min, retention time for acetone is 60 sec. Testing of the complex confirmed that it allows for the direct determination of acetone in exhaled air. The use of the capture and drying system prevents the loss of the target substance and ensures good convergence of the results. The deviation from the reference value does not exceed 10%. Field testing confirmed the data obtained on model mixtures. The developed mobile diagnostic complex with automatic programmed dosing and the technique for the quantitative determination of acetone in exhaled air (0.5-20 ppm) can be recommended for use in clinical studies in medical institutions.",
keywords = "acetone, biomarkers, diabetes, exhaled air, gas chromatography, microfluidic systems, mobile diagnostic complex, non-invasive diagnostics",
author = "Платонов, {Игорь Артемьевич} and Платонов, {Владимир Игоревич} and Колесниченко, {Ирина Николаевна} and Родинков, {Олег Васильевич} and Брыскин, {Александр Сергеевич} and Маргарян, {Астхик Эдиковна} and Колесниченко, {Дмитрий Леонидович}",
year = "2024",
month = may,
day = "28",
doi = "10.17308/sorpchrom.2024.24/12124",
language = "русский",
volume = "24",
pages = "180--196",
journal = "Sorbtsionnye i Khromatograficheskie Protsessy",
issn = "1680-0613",
publisher = "Издательство Воронежского государственного университета",
number = "2",

}

RIS

TY - JOUR

T1 - Экспресс-анализ ацетона в выдыхаемом воздухе при диагностике сахарного диабета

AU - Платонов, Игорь Артемьевич

AU - Платонов , Владимир Игоревич

AU - Колесниченко , Ирина Николаевна

AU - Родинков, Олег Васильевич

AU - Брыскин, Александр Сергеевич

AU - Маргарян, Астхик Эдиковна

AU - Колесниченко, Дмитрий Леонидович

PY - 2024/5/28

Y1 - 2024/5/28

N2 - Exhaled air analysis is an actively developing area of medical non-invasive diagnostics, as it does not involve invasive interventions and can be performed repeatedly. It is known that acetone in exhaled air correlates with blood glucose and is a biomarker of diabetes. The use of analytical systems to analyse acetone in exhaled air in medical institutions will allow for the timely diagnosis of pathological changes in blood glucose levels, the early diagnosis of diabetes, and the monitoring of the effectiveness of treatments. In this study, we described the express analysis of acetone in exhaled air using a mobile diagnostic complex based on microfluidic systems including a PIA gas microchromatograph with a thermochemical detector, a planar chromatographic column, a thermostatically controlled system for the sampling and selective capture of interfering components, operated by electric microvalves, and an automatic dosing system with adjustable blowdown from 0.1 to 5 sec and specialised software. We proposed using a diagnostically significant range of concentrations: from 0.5 ppm to 20 ppm of acetone in exhaled air in the diagnosis of diabetes. The total analysis time is 3 min, retention time for acetone is 60 sec. Testing of the complex confirmed that it allows for the direct determination of acetone in exhaled air. The use of the capture and drying system prevents the loss of the target substance and ensures good convergence of the results. The deviation from the reference value does not exceed 10%. Field testing confirmed the data obtained on model mixtures. The developed mobile diagnostic complex with automatic programmed dosing and the technique for the quantitative determination of acetone in exhaled air (0.5-20 ppm) can be recommended for use in clinical studies in medical institutions.

AB - Exhaled air analysis is an actively developing area of medical non-invasive diagnostics, as it does not involve invasive interventions and can be performed repeatedly. It is known that acetone in exhaled air correlates with blood glucose and is a biomarker of diabetes. The use of analytical systems to analyse acetone in exhaled air in medical institutions will allow for the timely diagnosis of pathological changes in blood glucose levels, the early diagnosis of diabetes, and the monitoring of the effectiveness of treatments. In this study, we described the express analysis of acetone in exhaled air using a mobile diagnostic complex based on microfluidic systems including a PIA gas microchromatograph with a thermochemical detector, a planar chromatographic column, a thermostatically controlled system for the sampling and selective capture of interfering components, operated by electric microvalves, and an automatic dosing system with adjustable blowdown from 0.1 to 5 sec and specialised software. We proposed using a diagnostically significant range of concentrations: from 0.5 ppm to 20 ppm of acetone in exhaled air in the diagnosis of diabetes. The total analysis time is 3 min, retention time for acetone is 60 sec. Testing of the complex confirmed that it allows for the direct determination of acetone in exhaled air. The use of the capture and drying system prevents the loss of the target substance and ensures good convergence of the results. The deviation from the reference value does not exceed 10%. Field testing confirmed the data obtained on model mixtures. The developed mobile diagnostic complex with automatic programmed dosing and the technique for the quantitative determination of acetone in exhaled air (0.5-20 ppm) can be recommended for use in clinical studies in medical institutions.

KW - acetone

KW - biomarkers

KW - diabetes

KW - exhaled air

KW - gas chromatography

KW - microfluidic systems

KW - mobile diagnostic complex

KW - non-invasive diagnostics

UR - http://elibrary.ru/item.asp?id=67233960

UR - https://www.mendeley.com/catalogue/51cd6439-646c-338b-a470-d09038e4e2dc/

U2 - 10.17308/sorpchrom.2024.24/12124

DO - 10.17308/sorpchrom.2024.24/12124

M3 - статья

VL - 24

SP - 180

EP - 196

JO - Sorbtsionnye i Khromatograficheskie Protsessy

JF - Sorbtsionnye i Khromatograficheskie Protsessy

SN - 1680-0613

IS - 2

ER -

ID: 120937139