Electrochemical Immunosensor for the Quantification of S100B at Clinically Relevant Levels Using a Cysteamine Modified Surface

Rodríguez, Alexander; Burgos-Flórez, Francisco; Posada, Jose; Cervera, Eliana; Zucolotto, Valtencir; San-Juan, Homero; Sanjuán, Marco; Villalba, Pedro

doi:10.3390/s21061929

Cited by 12 publications

(12 citation statements)

References 29 publications

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“…Similar to the high-pass filter circuit used in the AC excitation signal design module, a 3.3/2 V VGV is fixed on the positive input of the TIA via a simple voltage divider circuit. This circuit ensures low DC bias between the input excitation signal and output voltage of the TIA, which is a sufficient condition for EIS of the ANTI-S100B functionalized AUIDEs to detect S100B, as seen in Rodriguez et al [ 38 ]. The TIA voltage signal passes through a fourth-order 10 KHz SKLPF for high-frequency noise filtering using an LMP7702 OAMP IC.…”

Section: Methodsmentioning

confidence: 99%

“…The TIA voltage signal passes through a fourth-order 10 KHz SKLPF for high-frequency noise filtering using an LMP7702 OAMP IC. The cutoff frequency is determined following the EIS measurement specifications established by Rodríguez et al [ 38 ] for S100B detection, and the ADC conversion is performed using the MCU ADC. Additional details about the PC design are found in S1 File .…”

Section: Methodsmentioning

confidence: 99%

“…Validation was done using two methods: Visual comparison of impedance magnitude and phase responses along the EIS frequency range obtained by TBISAT and an Autolab/M204 benchtop potentiostat/galvanostat (Metrohm®) equipped with an Autolab® FRA32 module controlled by the NOVA 2.11 software, and a T-test statistical comparison between ΔC results at f = 31.6 Hz obtained by TBISAT and the benchtop potentiostat. Capacitance was obtained from EIS scans following the method described by Rodriguez et al [ 38 ]. The statistical analysis was done using Statgraphics Centurion 18.…”

Section: Methodsmentioning

confidence: 99%

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TBISTAT: An open-source, wireless portable, electrochemical impedance spectroscopy capable potentiostat for the point-of-care detection of S100B in plasma samples

et al. 2022

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Point-of-Care (POC) testing for biomarker detection demands techniques that are easy to use, readily available, low-cost, and with rapid response times. This paper describes the development of a fully open-source, modular, wireless, battery-powered, smartphone-controlled, low-cost potentiostat capable of conducting electrochemical impedance spectroscopy for the electrochemical detection of the S100B protein captured in an ANTI-S100B functionalized thin-film gold interdigitated electrode platform to support traumatic brain injury diagnosis and treatment. EIS results from the developed potentiostat were validated with a commercial benchtop potentiostat by comparing impedance magnitude and phase values along the EIS frequency range. In addition, an experimental design was performed for detecting S100B in spiked human plasma samples with S100B concentrations of clinical utility, and a calibration curve was found for quantifying S100B detection. No statistically significant differences were found between EIS results from the developed potentiostat and the commercial potentiostat. Statistically significant differences in the changes in charge transfer resistance signal between each tested S100B concentration (p < 0.05) were found, with a limit of detection of 35.73 pg/mL. The modularity of the proposed potentiostat allows easier component changes according to the application demands in power, frequency excitation ranges, wireless communication protocol, signal amplification and transduction, precision, and sampling frequency of ADC, among others, when compared to state-of-the-art open-source EIS potentiostats. In addition, the use of minimal, easy acquirable open-source hardware and software, high-level filtering, accurate ADC, Fast Fourier Transform with low spectral leakage, wireless communication, and the simple user interface provides a framework for facilitating EIS analysis and developing new affordable instrumentation for POC biosensors integrated systems.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

TBISTAT: An open-source, wireless portable, electrochemical impedance spectroscopy capable potentiostat for the point-of-care detection of S100B in plasma samples

et al. 2022

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“…Regarded as a TBI biomarker, S100B has been shown to correlate with injury magnitude, survival and neurological outcome. 5 Existing S100B assays include enzyme-linked immunosorbent assay (ELISA), 6 magnetic bead quantum dot assay, 7 SPR sandwich photoelectrochemical immunoassay, 8 electrochemical assay, 9 paper lateral ow strips (PLFS), 10 peptide-modied ratiometric uorescent nanoprobes, 11 and colloidal gold-based immunochromatographic biosensors. 12 In the clinical setting, biomarker measurement requires a technique that is easy to use, readily available, inexpensive and responsive.…”

Section: Introductionmentioning

confidence: 99%

Antibody-labeled gold nanoparticle based resonance Rayleigh scattering detection of S100B

Tiantian,

Yonghui,

Junbo

2024

Anal. Methods

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“…Previous work from our research group has described the development of electrochemical biosensors for the quantification of S100B in plasma with a benchtop potentiostat [ 7 ] and a developed portable potentiostat for POC detection [ 8 ]. However, in the clinical context, the measurement of this biomarker demands a technique that is easy to use, readily available, low-cost, and with a fast response time.…”

Section: Introductionmentioning

confidence: 99%

Microfluidic Paper-Based Blood Plasma Separation Device as a Potential Tool for Timely Detection of Protein Biomarkers

et al. 2022

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A current challenge regarding microfluidic paper-based analytical devices (µPAD) for blood plasma separation (BPS) and electrochemical immunodetection of protein biomarkers is how to achieve a µPAD that yields enough plasma to retain the biomarker for affinity biosensing in a functionalized electrode system. This paper describes the development of a BPS µPAD to detect and quantify the S100B biomarker from peripheral whole blood. The device uses NaCl functionalized VF2 filter paper as a sample collection pad, an MF1 filter paper for plasma retention, and an optimized microfluidic channel geometry. An inverted light microscope, scanning electron microscope (SEM), and image processing software were used for visualizing BPS efficiency. A design of experiments (DOE) assessed the device’s efficacy using an S100B ELISA Kit to measure clinically relevant S100B concentrations in plasma. The BPS device obtained 50 μL of plasma from 300 μL of whole blood after 3.5 min. The statistical correlation of S100B concentrations obtained using plasma from standard centrifugation and the BPS device was 0.98. The BPS device provides a simple manufacturing protocol, short fabrication time, and is capable of S100B detection using ELISA, making one step towards the integration of technologies aimed at low-cost POC testing of clinically relevant biomarkers.

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Electrochemical Immunosensor for the Quantification of S100B at Clinically Relevant Levels Using a Cysteamine Modified Surface

Cited by 12 publications

References 29 publications

TBISTAT: An open-source, wireless portable, electrochemical impedance spectroscopy capable potentiostat for the point-of-care detection of S100B in plasma samples

TBISTAT: An open-source, wireless portable, electrochemical impedance spectroscopy capable potentiostat for the point-of-care detection of S100B in plasma samples

Antibody-labeled gold nanoparticle based resonance Rayleigh scattering detection of S100B

Microfluidic Paper-Based Blood Plasma Separation Device as a Potential Tool for Timely Detection of Protein Biomarkers

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