2013
DOI: 10.1021/ac402037k
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Rethinking Data Collection and Signal Processing. 2. Preserving the Temporal Fidelity of Electrochemical Measurements

Abstract: Direct electrochemical measurements of biological events are often challenging because of the low signal relative to the magnitude of the background and noise. When choosing a data processing approach, the frequency and phase content of the data must be considered. Here, we employ a zero-phase (infinite impulse response (IIR)) filter to remove the noise from the analytical signal, while preserving the phase content. In fast-scan cyclic voltammetry, the frequency content of the signal is a function of the scan … Show more

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Cited by 11 publications
(13 citation statements)
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“…Also, because the filter was applied in both forward and reverse directions, no phase shift occurred, and the temporal fidelity along with peak height was preserved (Fig. 4C)[15]. This technique shows its robustness in that it allows FSCV data to be taken and read for longer periods of time than previously shown [16].…”
Section: Resultsmentioning
confidence: 99%
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“…Also, because the filter was applied in both forward and reverse directions, no phase shift occurred, and the temporal fidelity along with peak height was preserved (Fig. 4C)[15]. This technique shows its robustness in that it allows FSCV data to be taken and read for longer periods of time than previously shown [16].…”
Section: Resultsmentioning
confidence: 99%
“…The zero-phase aspect of the filter allowed the data to be filtered without any phase shift, which is important for the purpose of maintaining temporal fidelity of the data [15]. Generally, to improve signal to noise ratio (SNR), low pass filters are applied across the scanned voltammograms which consists of currents recorded at all voltages in a single voltammetric scan [2, 9, 16].…”
Section: Resultsmentioning
confidence: 99%
“…Resultant data was filtered as previously described. 41 The RMS noise for uncoated carbon fibers was 80 ± 30 pA. LD PEDOT:Nafion-coated electrodes had a statistically significant decrease in noise to 30 ± 10 pA (Student’s t-test, n = 15 electrodes, P < 0.01), while HD PEDOT:Nafion-coated electrodes showed a statistically significant increase to 100 ± 40 pA (Student’s t-test, n = 3 electrodes, P < 0.01).…”
Section: Resultsmentioning
confidence: 99%
“…The first scan following the controlled adsorption period includes signal from adsorbed dopamine and contains a large interference from the background change induced by the interruption of waveform application, complicating quantification of low levels of dopamine. In the previous in vitro study, following zero-phase filtering, 24 this background was removed using convolution theory 22 which provided more accurate results when compared to a simple subtraction. 23 Here, because of the differences in the shape of the in vivo background, matching the chemical composition of the brain environment in vitro is challenging.…”
mentioning
confidence: 99%