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Related Concept Videos

Pulse rhythm01:30

Pulse rhythm

Pulse rhythm refers to the pattern of pulsations within specific intervals, offering valuable insights into the regularity or irregularity of the heart's beats as observed through the pattern of pulsation within specific intervals. A regular pulse exhibits a consistent heart rate with uniform waveforms and pulsation force, variations of which can be classified as normal, weak, or bounding.
Conversely, an irregular pulse pattern is termed dysrhythmia, stemming from disruptions in cardiac muscle...
Pulse Oximetry01:24

Pulse Oximetry

Pulse oximetry, or SpO2, is a non-invasive method for continuously monitoring arterial oxygen saturation (SaO2). This procedure involves attaching a probe or sensor to the patient's fingertip, forehead, earlobe, or nose bridge. The sensor works by detecting changes in oxygen saturation levels through light signals generated by the oximeter and reflected by the pulsing blood under the probe.
Purpose
Average SpO2 values are greater than 95%. If the readings fall below 90%, it indicates that...

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Related Experiment Video

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A Detailed Protocol for Perspiration Monitoring Using a Novel, Small, Wireless Device
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Carbon-Based Textile Sensors for Physiological-Signal Monitoring.

Wancheng Shao1,2, Tianrui Cui1,2, Ding Li1,2

  • 1School of Integrated Circuit, Tsinghua University, Beijing 100084, China.

Materials (Basel, Switzerland)
|June 10, 2023
PubMed
Summary
This summary is machine-generated.

Flexible textile sensors using carbon-based materials like graphene monitor vital signs. This review covers advancements, applications, and challenges in wearable sensors for physiological monitoring.

Keywords:
carbon-based materialsphysiological-signal monitoringtextile sensors

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Area of Science:

  • Materials Science
  • Biomedical Engineering
  • Wearable Technology

Background:

  • Growing focus on physical health drives demand for flexible wearable sensors.
  • Textiles integrated with sensitive materials and circuits enable high-performance physiological monitoring.
  • Carbon-based materials (graphene, CNTs, CB) are key due to conductivity, low toxicity, and functionalization.

Purpose of the Study:

  • To review recent advancements in carbon-based flexible textile sensors.
  • To highlight the development, properties, and applications of graphene, CNTs, and CB in these sensors.
  • To categorize sensors by monitored physiological signals and discuss future directions.

Main Methods:

  • Literature review of carbon-based flexible textile sensors.
  • Analysis of material properties (graphene, CNTs, CB) for sensor applications.
  • Categorization of sensors based on monitored physiological signals.

Main Results:

  • Carbon-based materials enable flexible, breathable textile sensors for various physiological signals.
  • Monitored signals include ECG, body movement, pulse, respiration, temperature, and tactile perception.
  • Graphene, CNTs, and CB show significant potential in wearable sensor development.

Conclusions:

  • Carbon-based textile sensors offer promising solutions for continuous physiological monitoring.
  • Challenges remain in durability, scalability, and long-term stability.
  • Future research should focus on enhancing sensor performance and expanding applications.