Portable immunosensor directly and rapidly detects Mycobacterium tuberculosis in sputum

Portable immunosensor directly and rapidly detects Mycobacterium tuberculosis in sputum

Tuberculosis (TB) remains a public health problem that cannot be ignored. The portable and efficient detection of (MTB) is important for the effective control of this disease. However, current detection techniques do not meet the requirements for MTB detection in the actual environment and often req...

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Veröffentlicht in:Analytical methods 2022-01, Vol.14 (4), p.438-448
Hauptverfasser: Ma, Jinbiao, Jiang, Guanyu, Ma, Qingqing, Du, Manman, Wang, Hao, Wu, Jianguo, Wang, Can, Xie, Xinwu, Li, Tie, Chen, Shixing, Zhang, Lixia, Wu, Min
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Sprache:eng
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Biosensing Techniques
Dilution
Double-Blind Method
Electric potential
Fluorescence
Humans
Immunoassay
Immunosensors
Mycobacterium tuberculosis
Photoresponse
Portability
Preconditioning
Proteins
Public health
Saliva
Scanning electron microscopy
Sensitivity and Specificity
Sputum
Sputum - microbiology
Tuberculosis
Tuberculosis, Lymph Node
Tuberculosis, Pulmonary - diagnosis
Tuberculosis, Pulmonary - microbiology
Voltage
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container_end_page 448
container_issue 4
container_start_page 438
container_title Analytical methods
container_volume 14
creator Ma, Jinbiao
Jiang, Guanyu
Ma, Qingqing
Du, Manman
Wang, Hao
Wu, Jianguo
Wang, Can
Xie, Xinwu
Li, Tie
Chen, Shixing
Zhang, Lixia
Wu, Min
description Tuberculosis (TB) remains a public health problem that cannot be ignored. The portable and efficient detection of (MTB) is important for the effective control of this disease. However, current detection techniques do not meet the requirements for MTB detection in the actual environment and often require cumbersome detection steps that are time consuming and inflexible. In this study, a portable immunosensor to detect MTB in sputum was prepared and then subjected to interface characterizations, such as scanning electron microscopy, hydrophilic angle test, and fluorescence characterization. The source and gate voltage of the device were optimized and tested using a non-contact photoresponse. The results showed that the sensitivity of the sensor to luminance increases with the decrease in source voltage. The gate voltage can substantially improve the response of the immunosensor to the normalized current of protein and amplify the signal at least 1.6 times. The optimal voltage detection conditions of source voltage (0.3 V) and gate voltage (0.1 V) were also determined. Several common proteins present in simulated saliva were used for anti-interference tests, and the sensor exhibited good specificity. Finally, the dilution gradient of an actual TB sputum sample was optimized. In the absence of preconditioning, a double-blind experiment was used to distinguish between the sputum from patients with TB and healthy individuals to shorten the TB detection time to a few minutes. Compared with the hospital's conventional detection method using cultures, the proposed method can complete the detection in a shorter time. This study provides a new strategy for the portable diagnosis of TB.
doi_str_mv 10.1039/d1ay01561c
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The portable and efficient detection of (MTB) is important for the effective control of this disease. However, current detection techniques do not meet the requirements for MTB detection in the actual environment and often require cumbersome detection steps that are time consuming and inflexible. In this study, a portable immunosensor to detect MTB in sputum was prepared and then subjected to interface characterizations, such as scanning electron microscopy, hydrophilic angle test, and fluorescence characterization. The source and gate voltage of the device were optimized and tested using a non-contact photoresponse. The results showed that the sensitivity of the sensor to luminance increases with the decrease in source voltage. The gate voltage can substantially improve the response of the immunosensor to the normalized current of protein and amplify the signal at least 1.6 times. 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The optimal voltage detection conditions of source voltage (0.3 V) and gate voltage (0.1 V) were also determined. Several common proteins present in simulated saliva were used for anti-interference tests, and the sensor exhibited good specificity. Finally, the dilution gradient of an actual TB sputum sample was optimized. In the absence of preconditioning, a double-blind experiment was used to distinguish between the sputum from patients with TB and healthy individuals to shorten the TB detection time to a few minutes. Compared with the hospital's conventional detection method using cultures, the proposed method can complete the detection in a shorter time. 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source MEDLINE; Royal Society Of Chemistry Journals 2008-
subjects Biosensing Techniques
Dilution
Double-Blind Method
Electric potential
Fluorescence
Humans
Immunoassay
Immunosensors
Mycobacterium tuberculosis
Photoresponse
Portability
Preconditioning
Proteins
Public health
Saliva
Scanning electron microscopy
Sensitivity and Specificity
Sputum
Sputum - microbiology
Tuberculosis
Tuberculosis, Lymph Node
Tuberculosis, Pulmonary - diagnosis
Tuberculosis, Pulmonary - microbiology
Voltage
title Portable immunosensor directly and rapidly detects Mycobacterium tuberculosis in sputum
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