A comparative study of electrical potential sensors and Ag/AgCl electrodes for characterising spontaneous and event related electroencephalagram signals

Fatoorechi, Mohsen; Parkinson, Jim; Prance, R. J.; Prance, H.; Seth, Anil K.; Schwartzman, David J.

doi:10.1016/j.jneumeth.2015.04.013

Cited by 24 publications

(7 citation statements)

References 21 publications

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“…Advances in sensor technologies such as capacitive sensing, signal processing and miniaturisation are enabling novel applications in research, healthcare and beyond [55]. In particular, there is great potential for wearable sensing systems to enable multimodal data acquisition allowing behavioural and physiological signals to be fused.…”

Section: Future Perspectivementioning

confidence: 99%

Objectively Measuring Pain Using Facial Expression: Is the Technology Finally Ready?

et al. 2018

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Currently, clinicians observe pain-related behaviors and use patient self-report measures in order to determine pain severity. This paper reviews the evidence when facial expression is used as a measure of pain. We review the literature reporting the relevance of facial expression as a diagnostic measure, which facial movements are indicative of pain, and whether such movements can be reliably used to measure pain. We conclude that although the technology for objective pain measurement is not yet ready for use in clinical settings, the potential benefits to patients in improved pain management, combined with the advances being made in sensor technology and artificial intelligence, provide opportunities for research and innovation.

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Section: Future Perspectivementioning

confidence: 99%

Objectively Measuring Pain Using Facial Expression: Is the Technology Finally Ready?

et al. 2018

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“…Its electric potential sensing capability has been demonstrated in several applications such as body electrophysiology: characterizing human electro-cardiogram (ECG) in situ [9] and remotely [10], electroencephalogram (EEG) [11] human hydration assessment [12], non-destructive testing of composite materials [13], imaging electrical activity of integrated circuits [14], following the propagation of pulses in saline solutions [15], novel nuclear magnetic resonance (NMR or MRI) sensing probes real-time array imaging [16], and imaging electrostatic fingerprints [17].…”

Section: Electric Potential Sensorsmentioning

confidence: 99%

Functional characterization of developing heart in embryos using Electric Potential Sensors

Rendon-Morales

Prance

et al. 2016

2016 IEEE Sensors Applications Symposium (SAS)

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Abstract-The characterization of the electrocardiographic activity of the living zebrafish heart during early developmental stages is a challenging task. Most of the available techniques are limited to heartbeat rate quantification being this inaccurate. Other invasive methodologies require the insertion of electrodes noise isolated environments and advanced amplification stages making these techniques very expensive. In this paper, we present a novel and non-invasive sensor development to characterize the functional activity of the developing heart of in vivo zebrafish embryos. The design is based on the Electric Potential Sensing technology patented at Sussex which has been developed to achieve reproducibility and continuous detection. We present preliminary functional characterization data of the developing zebrafish heart starting at 3 days-post-fertilization. Results show that using the proposed system for mapping the electrocardiographic activity of the zebrafish heart at early developmental stages is successfully accomplished. This is the first time that such a sensitive sensor has been developed for measuring the electrical changes occurring on micron sized (< 100 µm) living samples such as the zebrafish heart Keywords-Biomedical sensors, cardiology, embryionic heart, Electric Potential Sensors, electrophysiology and electrocardiogram.

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“…This is particularly relevant for electrophysiological measurements relying on electrodes in intimate contact with the skin [10]. Here, Electroencephalography (EEG) [11] and Electrocardiography (ECG) signals, used for heart diseases diagnoses, health monitoring [12], or human identification [13], [14] are the most prominent examples. Such measurements are traditionally done using adhesive wet silver-silver chloride (Ag/AgCl) electrodes.…”

Section: Introductionmentioning

confidence: 99%

Soft Gel-free ECG electrodes based on Biocompatible Coconut-Oil and Carbon Black

García-García

Kreitmair

Johnson

et al. 2021

2021 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS)

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Recent developments in telemedicine have caused significant interest in the prolonged monitoring of bioelectric signals. This drives the search for easy-to-use, biocompatible, and environmentally friendly alternatives to conventional resistive wet electrodes. Here we demonstrate the use of Coconut-Oil and Carbon Black based stretchable electrodes to monitor electrophysiological signals without the need for conductive gels. The developed material is embedded into an elastomer matrix, exhibits a specific resistance ρ of 33.2 ± 12.3 Ω m, high conformability, and a stretchability up to 1500 %. The realised epidermal electrodes were used to record Electrocardiographic (ECG) signals in a 3-lead configuration and compared to commercial wet electrodes. Even after being elongated by 100 % for 100 stretch/release cycles, a reliable recording of the QRS-complex is demonstrated without the need for any contact enhancing or skin irritating substances, proving its potential use in long term ECG monitoring applications.

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A comparative study of electrical potential sensors and Ag/AgCl electrodes for characterising spontaneous and event related electroencephalagram signals

Cited by 24 publications

References 21 publications

Objectively Measuring Pain Using Facial Expression: Is the Technology Finally Ready?

Objectively Measuring Pain Using Facial Expression: Is the Technology Finally Ready?

Functional characterization of developing heart in embryos using Electric Potential Sensors

Soft Gel-free ECG electrodes based on Biocompatible Coconut-Oil and Carbon Black

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