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Equipments Used To Measure Blood Pressure01:30

Equipments Used To Measure Blood Pressure

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This invasive approach involves cannulating a peripheral artery. During each cardiac contraction, pressure generates mechanical motion within the catheter, transmitted through rigid, fluid-filled tubing to a transducer. This transducer converts mechanical motion into electrical signals displayed as waveforms on a monitor. An automatic flushing system prevents blood backflow. Due to the potential risk of unexpected arterial blood loss, this method is primarily used in intensive...
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Emerging Wearable Acoustic Sensing Technologies.

Tao Liu1, Yuchen Mao1, Hanjie Dou1

  • 1Key Laboratory of Optoelectronic Technology & Systems of Ministry of Education, International R&D Center of Micro-Nano Systems and New Materials Technology, Chongqing University, Chongqing, 400044, China.

Advanced Science (Weinheim, Baden-Wurttemberg, Germany)
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PubMed
Summary
This summary is machine-generated.

Wearable acoustic devices offer low-cost healthcare solutions by using sound sensing for medical diagnosis and human-computer interaction. This review explores their design, applications, and future potential for personalized health.

Keywords:
acoustic sensorhuman‐machine interfaceultrasonic healthcarewearable and implantable

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Area of Science:

  • Acoustic Engineering
  • Biomedical Engineering
  • Artificial Intelligence

Background:

  • Sound signals are crucial for communication and have emerging applications in medical diagnosis and fault detection.
  • Public healthcare systems face pressure, highlighting the need for accessible, low-cost healthcare solutions.
  • Acoustic methods offer a safe and less complex alternative to other medical technologies.

Purpose of the Study:

  • To review sensing mechanisms, materials, structural design, and applications of wearable acoustic devices.
  • To examine the advantages and disadvantages of flexible acoustic devices in various fields.
  • To analyze current challenges and future research directions for wearable acoustic devices in healthcare and human-computer interaction.

Main Methods:

  • Comprehensive literature review of wearable acoustic devices.
  • Analysis of sensing mechanisms, materials, and structural designs.
  • Examination of applications in human health and human-computer interaction.

Main Results:

  • Wearable acoustic devices integrate sensing mechanisms, advanced materials, and novel structural designs.
  • Applications span medical diagnosis, assistive technologies for disabled individuals, and enhanced human-computer interaction.
  • Flexible acoustic devices present unique advantages and disadvantages depending on the application.

Conclusions:

  • Wearable acoustic devices show significant promise for low-cost, personalized healthcare and improved human-computer interaction.
  • Further research is needed to address current challenges and develop more comprehensive solutions.
  • The integration of artificial intelligence in speech recognition enhances the capabilities of these devices.