Gas Sensor Based on Biohydroxyapatite to Study the Volatile Compounds of Nasal Secretion
Sensors & Transducers
; 253(6):9-17, 2021.
Article
in English
| ProQuest Central | ID: covidwho-1668506
ABSTRACT
The paper investigates the properties of gas sensors based on biohydroxyapatite for diagnostic the state of the upper respiratory tract of calves and humans. The process of synthesis of biohydroxyapatite of different mass is described. The peculiarities of sorption of volatile compounds on this sorbent depending on mass are considered for two modes of measurement (injection and frontal). The effectiveness and selectiveness of organic vapor microweighting using biohydroxyapatite phases of different mass are estimated. Possibilities of volatile organic compounds vapors identification in a mixture without separation are considered. For this task, the new parameters are calculated by the signals of one or two piezoelectric sensors with biohydroxyapatite of different masses. Results of analysis and identification of substances in the gas phase over nasal secretions of calves and humans with various respiratory diseases are presented. The intervals of the values of the calculated parameters are determined for reliable selection of samples into the "inflammation" group. The first and second order errors have been estimated in binary classification into groups "healthy" and "inflammation". The minimum number of false-positive responses in the classification of samples is achieved using the parameters of two sensors with a biohydroxyapatite of different masses.
Computers; Nanostructured materials; Volatile organic compounds--VOCs; Volatile compounds; Classification; Mathematical analysis; Gases; Piezoelectricity; Electrodes; Severe acute respiratory syndrome coronavirus 2; Animals; Gas sensors; Hydroxyapatite; Sensors; Inflammation; Calves; Respiratory diseases; Parameters; Secretions; Vapor phases; Nose; Sorbents; Russia
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Collection:
Databases of international organizations
Database:
ProQuest Central
Language:
English
Journal:
Sensors & Transducers
Year:
2021
Document Type:
Article
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