A Smartphone Camera Colorimetric Assay of Acetylcholinesterase and Butyrylcholinesterase Activity

Pohanka, Miroslav; Zakova, Jitka

doi:10.3390/s21051796

Cited by 10 publications

(7 citation statements)

References 34 publications

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“…RGB measurements using digital images acquired by a smartphone camera were carried out to evaluate the device’s functionality with regard to the detection of these analytes in the water samples. The approach of using digital photography and smartphones in colorimetric assays has been considered a powerful and promising solution for the development of fast, accessible, and point-of-care devices, sensors, lateral flow assays, and other optical testing platforms. ,,− …”

Section: Resultsmentioning

confidence: 99%

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Dip-and-Fold Device: A Paper-Based Testing Platform for Rapid Assessment of Insecticides in Water Samples

Marques

Mitra

2021

ACS Appl. Bio Mater.

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The contamination of water and food in agricultural areas, where an enormous volume of pesticides is widely employed to enhance crop production, is a challenging reality. The rapid assessment of these contaminants is fundamental to assure water and food quality and safety, particularly for local community members. This work presents a nonexpensive and easy-operational paper-based testing device for the fast detection of insecticides (carbamates and organophosphates) in water samples. The structural design “dip-and-fold” allows us to carry out the analysis without introducing reagents or samples. The device is prepared using different high-quality papers to support the active acetylcholinesterase (AChE) and the customized chemical formulation for colorimetric detection. The chemical principle is based on the AChE inhibition reaction and Ellman’s method. The experiments using standard solutions of carbofuran, propoxur, and chlorpyriphos indicated satisfactory detection at concentrations between 0.1 and 0.0001 mM, and the color results are revealed within 10 min. Therefore, this technique represents a promising alternative for implementing low-cost and efficient water monitoring and management solutions.

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Section: Resultsmentioning

confidence: 99%

“…DTNB reacts with thiocholine (ThI), which is continually produced as acetylthiocholine (ACThI) that is hydrolyzed by the active AChE, as illustrated in Figure . Then, the DTNB molecule is cleaved, producing a yellow chromophore, TNB (2-nitro-5-thiobenzoic acid), which absorbs energy at 412 nm of the visible light spectrum. − …”

Section: Introductionmentioning

confidence: 99%

Dip-and-Fold Device: A Paper-Based Testing Platform for Rapid Assessment of Insecticides in Water Samples

Marques

Mitra

2021

ACS Appl. Bio Mater.

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“…It has already been validated and efficiently used as an alternative to Ellman’s method to determine cholinesterase [ 8 ]. Cholinesterase has been thoroughly tested using this substrate and its derivates [ 8 , 11 , 12 ]. The principle of the reaction is simple: indoxyl acetate, resp.…”

Section: Introductionmentioning

confidence: 99%

Open Meter Duo: Low-Cost Instrument for Fluorimetric Determination of Cholinesterase Activity

Keresteš,

Mozo,

Pohanka

2024

Sensors

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Environmental screening is essential due to the increased occurrence of harmful substances in the environment. Open Meter Duo (OMD) is an open-source field photo/fluorimeter that uses an RGB diode that imitates a color according to the selected wavelength and uses a UV LED from the security kit diode as an excitation light source. The prepared PCB shield with a 3D-printed aperture was connected to Arduino UNO R4 WiFi. This system was used for the fluorescent detection of cholinesterase activity with the indoxyl acetate method. Carbofuran—a toxic pesticide—and donepezil—a drug used to treat Alzheimer’s disease—were tested as model inhibitors of cholinesterase activity. The limit of detection of indoxyl acetate was 11.6 μM, and the IC50 values of the inhibitors were evaluated. This system is optimized for wireless use in field analysis with added cloud support and power source. The time of analysis was 5 min for the fluorimetric assay and 20 min for the optional photometric assay. The time of field operation was approximately 4 h of continuous measurement. This system is ready to be used as a cheap and easy control platform for portable use in drug control and point-of-care testing.

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“…Multiplexed cytokine detection has been demonstrated using a single-step sandwich assay on epoxy slides, 26,27 achieving a 2.5-h assay time and limit of detection (LOD) in the range of tenths of pg/mL to μg/mL (depending on the targets). The assay time could not be further shortened because it would sacrifice the LOD, 28,29 as demonstrated in the total internal reflection fluorescence microarray biochip, having an assay time of 25 min but a LOD in the range of ng/mL. 30 Multiplexed cytokine detection was presented using a plasmonic gold substrate, achieving high sensitivity in sub-pg/mL, but the reported assay time was ∼7.5 h. 31 As a result, a POC device capable of multiplexed cytokine detection with high sensitivity in sub-pg/mL with a short assay time is still highly desired.…”

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confidence: 99%

Dual-Enhanced Plasmonic Biosensing for Point-of-Care Sepsis Detection

et al. 2023

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Rapid, sensitive, simultaneous quantification of multiple biomarkers in point-of-care (POC) settings could improve the diagnosis and management of sepsis, a common, potentially life-threatening condition. Compared to high-end commercial analytical systems, POC systems are often limited by low sensitivity, limited multiplexing capability, or low throughput. Here, we report an ultrasensitive, multiplexed plasmonic sensing technology integrating chemifluorescence signal enhancement with plasmon-enhanced fluorescence detection. Using a portable imaging system, the dual chemical and plasmonic amplification enabled rapid analysis of multiple cytokine biomarkers in 1 h with sub-pg/mL sensitivities. Furthermore, we also developed a plasmonic sensing chip based on nanoparticle-spiked gold nanodimple structures fabricated by wafer-scale batch processes. We used the system to detect six cytokines directly from clinical plasma samples (n = 20) and showed 100% accuracy for sepsis detection. The described technology could be employed in rapid, ultrasensitive, multiplexed plasmonic sensing in POC settings for myriad clinical conditions.

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A Smartphone Camera Colorimetric Assay of Acetylcholinesterase and Butyrylcholinesterase Activity

Cited by 10 publications

References 34 publications

Dip-and-Fold Device: A Paper-Based Testing Platform for Rapid Assessment of Insecticides in Water Samples

Dip-and-Fold Device: A Paper-Based Testing Platform for Rapid Assessment of Insecticides in Water Samples

Open Meter Duo: Low-Cost Instrument for Fluorimetric Determination of Cholinesterase Activity

Dual-Enhanced Plasmonic Biosensing for Point-of-Care Sepsis Detection

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