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Updated: May 16, 2026

Conformable Wearable Electrodes: From Fabrication to Electrophysiological Assessment
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Textile electrodes for EEG recording--a pilot study.

Johan Löfhede1, Fernando Seoane, Magnus Thordstein

  • 1School of Engineering, University of Borås, 501 90 Borås, Sweden. johan@lofhede.se

Sensors (Basel, Switzerland)
|December 11, 2012
PubMed
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Soft textile electrodes offer a promising solution for comfortable, long-term electroencephalography (EEG) monitoring in neonatal intensive care units. These novel electrodes demonstrate comparable performance to traditional ones, paving the way for unobtrusive infant monitoring.

Area of Science:

  • Biomedical Engineering
  • Neuroscience
  • Textile Science

Background:

  • Neonatal intensive care units (NICUs) require long-term electroencephalography (EEG) monitoring for newborns, especially premature infants.
  • Traditional rigid EEG electrodes can cause skin irritation and pressure points on a baby's sensitive skin due to constant head pressure.
  • There is a need for unobtrusive, comfortable, and safe EEG monitoring solutions for long-term applications in neonates.

Purpose of the Study:

  • To develop and evaluate a novel EEG monitoring system utilizing soft conductive textiles as electrodes.
  • To assess the feasibility of textile electrodes for unobtrusive, long-term EEG monitoring, particularly in neonates.
  • To compare the performance of textile electrodes against standard high-quality electrodes.

Main Methods:

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Recording Brain Activity with Ear-Electroencephalography
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  • Two types of soft conductive textile electrodes were designed and fabricated.
  • EEG signals were recorded from five healthy adult participants using both textile electrodes and standard electrodes.
  • Acquired EEG signals were analyzed and compared based on signal morphology, frequency distribution, spectral coherence, correlation, and power line interference sensitivity.

Main Results:

  • EEG signals recorded with textile electrodes showed morphological and frequency characteristics similar to those obtained with standard electrodes.
  • Spectral coherence and correlation analyses indicated comparable signal quality between textile and standard electrodes.
  • Textile electrodes exhibited similar sensitivity to power line interference as standard electrodes.

Conclusions:

  • Soft conductive textile electrodes demonstrate good measurement performance, making them feasible for EEG recording.
  • These findings support the potential of textile electrodes for unobtrusive, long-term EEG monitoring applications, especially in sensitive populations like neonates.
  • The development opens possibilities for improved comfort and safety in neonatal EEG monitoring.