5-hydroxytryptamine measurement using paired pulse voltammetry

Purpose Although paired-pulse voltammetry (PPV) has significantly reduced the effects of confounding factors such as pH changes, its appliance has been limited to triangular waveforms. Here, we extend PPV to N-waveform, known to be effective in differentiating serotonin (5-HT) from other analytes. M...

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Published in	Biomedical engineering letters Vol. 3; no. 2; pp. 102 - 108
Main Authors	Kim, Suh Young, Oh, Yoon Bae, Shin, Ho Jin, Kim, Do Hyung, Kim, In Young, Bennet, Kevin, Lee, Kendall H., Jang, Dong Pyo
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.06.2013 대한의용생체공학회
Subjects	Biological and Medical Physics Biomedical Engineering and Bioengineering Biomedicine Biophysics Engineering Medical and Radiation Physics Original Article 의공학 Electrochemistry 5-Hydroxytryptamine Paired pulse voltammetry Fast-scan cyclic voltammetry
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ISSN	2093-9868 2093-985X
DOI	10.1007/s13534-013-0093-z

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Abstract	Purpose Although paired-pulse voltammetry (PPV) has significantly reduced the effects of confounding factors such as pH changes, its appliance has been limited to triangular waveforms. Here, we extend PPV to N-waveform, known to be effective in differentiating serotonin (5-HT) from other analytes. Methods Unlike previous PPV that employs a triangular binary waveform with a specified time gap between the comprising pulses, this study experiments PPV with Nwaveform. N-waveform, the most conventional waveform for detecting 5-HT, sweeps from 0.2 V to 1.0 V to −1.0 V and back to 0.2 V at a sweep rate of 1000 V/s, while the electrode is held at a holding potential of +0.2 V between the voltammetric pulses. After experimenting with various gap times (2 ms, 10 ms, 30 ms, and 45 ms), N-shape PPV was optimized to the parameter of 100 ms repetition time (2 Hz) and 2 ms gap time that displayed the highest sensitivity. 5-HT measurement was performed with a carbon fiber microelectrode placed in the flow cell. PPV data was collected with the Wireless Instantaneous Neurochemical Concentration Sensing System. Results At the optimized parameter, the oxidation peak in secondary pulse of N-waveform PPV recorded about 68% of the peak of the primary pulse. In addition, the fitting of peak currents in primary, secondary, and primary-secondary in Nshape PPV in relation to the concentration level between 0.25 μM to 2 μM displayed high reliability (R-squared values = 0.9823, 0.9895, 0.9914, respectively). When 5-HT 3 μM and 0.1 ΔpH is mixed, the 10 nA artifact created by 0.1 ΔpH in P-S voltammogram was almost completely removed while the oxidative peak by 5-HT was detected. Conclusions These results demonstrate that N-shape PPV will enable more accurate measures of real-time serotonin changes, especially in complex environment.
AbstractList	Purpose Although paired-pulse voltammetry (PPV) has significantly reduced the effects of confounding factors such as pH changes, its appliance has been limited to triangular waveforms. Here, we extend PPV to N-waveform, known to be effective in differentiating serotonin (5-HT) from other analytes. Methods Unlike previous PPV that employs a triangular binary waveform with a specified time gap between the comprising pulses, this study experiments PPV with Nwaveform. N-waveform, the most conventional waveform for detecting 5-HT, sweeps from 0.2 V to 1.0 V to −1.0 V and back to 0.2 V at a sweep rate of 1000 V/s, while the electrode is held at a holding potential of +0.2 V between the voltammetric pulses. After experimenting with various gap times (2 ms, 10 ms, 30 ms, and 45 ms), N-shape PPV was optimized to the parameter of 100 ms repetition time (2 Hz) and 2 ms gap time that displayed the highest sensitivity. 5-HT measurement was performed with a carbon fiber microelectrode placed in the flow cell. PPV data was collected with the Wireless Instantaneous Neurochemical Concentration Sensing System. Results At the optimized parameter, the oxidation peak in secondary pulse of N-waveform PPV recorded about 68% of the peak of the primary pulse. In addition, the fitting of peak currents in primary, secondary, and primary-secondary in Nshape PPV in relation to the concentration level between 0.25 μM to 2 μM displayed high reliability (R-squared values = 0.9823, 0.9895, 0.9914, respectively). When 5-HT 3 μM and 0.1 ΔpH is mixed, the 10 nA artifact created by 0.1 ΔpH in P-S voltammogram was almost completely removed while the oxidative peak by 5-HT was detected. Conclusions These results demonstrate that N-shape PPV will enable more accurate measures of real-time serotonin changes, especially in complex environment. Purpose Although paired-pulse voltammetry (PPV) has significantly reduced the effects of confounding factors such as pH changes, its appliance has been limited to triangular waveforms. Here, we extend PPV to N-waveform, known to be effective in differentiating serotonin (5-HT) from other analytes. Methods Unlike previous PPV that employs a triangular binary waveform with a specified time gap between the comprising pulses, this study experiments PPV with Nwaveform. N-waveform, the most conventional waveform for detecting 5-HT, sweeps from 0.2 V to 1.0 V to -1.0 V and back to 0.2 V at a sweep rate of 1000 V/s, while the electrode is held at a holding potential of +0.2 V between the voltammetric pulses. After experimenting with various gap times (2 ms, 10 ms, 30 ms, and 45 ms), N-shape PPV was optimized to the parameter of 100 ms repetition time (2 Hz)and 2 ms gap time that displayed the highest sensitivity. 5-HT measurement was performed with a carbon fiber microelectrode placed in the flow cell. PPV data was collected with the Wireless Instantaneous Neurochemical Concentration Sensing System. Results At the optimized parameter, the oxidation peak in secondary pulse of N-waveform PPV recorded about 68% of the peak of the primary pulse. In addition, the fitting of peak currents in primary, secondary, and primary-secondary in Nshape PPV in relation to the concentration level between 0.25 μM to 2 μM displayed high reliability (R-squared values = 0.9823, 0.9895, 0.9914, respectively). When 5-HT 3 μM and 0.1 ΔpH is mixed, the 10 nA artifact created by 0.1ΔpH in P-S voltammogram was almost completely removed while the oxidative peak by 5-HT was detected. Conclusions These results demonstrate that N-shape PPV will enable more accurate measures of real-time serotonin changes, especially in complex environment. KCI Citation Count: 0
Author	Kim, Do Hyung Oh, Yoon Bae Kim, Suh Young Kim, In Young Jang, Dong Pyo Lee, Kendall H. Shin, Ho Jin Bennet, Kevin
Author_xml	– sequence: 1 givenname: Suh Young surname: Kim fullname: Kim, Suh Young organization: Korean Minjok Leadership Academy – sequence: 2 givenname: Yoon Bae surname: Oh fullname: Oh, Yoon Bae organization: Department of Biomedical Engineering, Hanyang University – sequence: 3 givenname: Ho Jin surname: Shin fullname: Shin, Ho Jin organization: Department of Biomedical Engineering, Hanyang University – sequence: 4 givenname: Do Hyung surname: Kim fullname: Kim, Do Hyung organization: Department of Biomedical Engineering, Hanyang University – sequence: 5 givenname: In Young surname: Kim fullname: Kim, In Young organization: Department of Biomedical Engineering, Hanyang University – sequence: 6 givenname: Kevin surname: Bennet fullname: Bennet, Kevin organization: Division of Engineering, Mayo Clinic – sequence: 7 givenname: Kendall H. surname: Lee fullname: Lee, Kendall H. organization: Department of Neurosurgery, Mayo Clinic – sequence: 8 givenname: Dong Pyo surname: Jang fullname: Jang, Dong Pyo email: dongpjang@hanyang.ac.kr organization: Department of Biomedical Engineering, Hanyang University
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Snippet	Purpose Although paired-pulse voltammetry (PPV) has significantly reduced the effects of confounding factors such as pH changes, its appliance has been limited... Purpose Although paired-pulse voltammetry (PPV) has significantly reduced the effects of confounding factors such as pH changes, its appliance has been limited...
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SubjectTerms	Biological and Medical Physics Biomedical Engineering and Bioengineering Biomedicine Biophysics Engineering Medical and Radiation Physics Original Article 의공학
Title	5-hydroxytryptamine measurement using paired pulse voltammetry
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