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Issues And Trends In Healthcare Delivery System01:29

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The issues and trends in healthcare delivery are constantly changing. The COVID-19 pandemic is one recent issue that wreaked havoc on healthcare systems, causing a shortage of healthcare workers, high demand for medicines and supplies, and increased medical expenditure due to a lack of insurance. Other issues include rising healthcare costs and care fragmentation.
Cost Containment
Payment for healthcare services has historically promoted adoption of costly and often unnecessary or inefficient...
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Bridging the Bio-Electronic Interface with Biofabrication
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Hearables: Bioelectronics technological challenges and opportunities.

Leping Yu1, Luis Fernando Herbozo Contreras1, Zhaojing Huang1

  • 1School of Biomedical Engineering, The University of Sydney, Darlington, NSW, Australia.

Wearable Technologies
|October 20, 2025
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Summary
This summary is machine-generated.

Hearables, or ear-worn devices, offer continuous, noninvasive health monitoring, especially for brain activity via electroencephalography (EEG). Advancements in AI, materials, and 3D printing enhance their accuracy, comfort, and personalization for future healthcare.

Keywords:
biosignalear-EEGhearablewearable

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Area of Science:

  • Biomedical Engineering
  • Neuroscience
  • Wearable Technology

Background:

  • Hearables are ear-worn devices for pseudo-continuous health monitoring.
  • They enable noninvasive, long-term electroencephalography (EEG) recording of neural signals from the ear canal.
  • Hearables also monitor heart rate, oxygen saturation, and temperature.

Purpose of the Study:

  • To review recent advancements in hearable technology for health monitoring.
  • To explore progress in sensor integration, AI, and materials science for improved hearables.
  • To highlight hearables as a key technology for personalized, continuous, and noninvasive brain monitoring.

Main Methods:

  • Review of recent literature on hearable devices.
  • Analysis of sensor fusion, artificial intelligence (AI) integration, and novel materials.
  • Exploration of 3D printing and additive manufacturing for custom-fit devices.
  • Discussion of strategies to overcome challenges like motion artifacts and miniaturization.

Main Results:

  • Hearables integrate multiple sensors for comprehensive health tracking.
  • On-device AI provides real-time, personalized insights for therapeutic interventions.
  • Advancements in materials and 3D printing enable better ear canal conformity, comfort, and signal quality.
  • Personalized, custom-fitted hearables improve long-term wearability and EEG acquisition.

Conclusions:

  • Hearables represent a significant emerging technology for continuous health monitoring.
  • They offer a promising noninvasive approach for long-term electroencephalography (EEG)-based brain monitoring.
  • Future improvements focus on design, materials, and additive manufacturing for enhanced performance and user experience.