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Usability Validation of an Integrated Hemodynamic and Pulmonary Monitoring System Using Eye-Tracking Analysis.

Hyunju Jeong1, Hyeonkyeong Choi1, Hyungmin Kim1

  • 1Department of Medical Device Engineering and Management, Yonsei University College of Medicine, Seoul 06229, Republic of Korea.

Journal of Clinical Medicine
|April 14, 2026
PubMed
Summary
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The EdgeFlow CW10 Plus device effectively integrates hemodynamic and pulmonary monitoring, showing high usability and satisfaction among medical professionals for improved patient fluid management.

Area of Science:

  • Critical Care Medicine
  • Medical Device Technology
  • Cardiopulmonary Monitoring

Background:

  • Hemodynamic monitoring is crucial for assessing cardiac output and fluid status to guide treatment and prevent complications.
  • The EdgeFlow CW10 Plus device enhances conventional hemodynamic monitoring with pulmonary abnormality surveillance via B-line detection.

Purpose of the Study:

  • To evaluate the integration of hemodynamic and pulmonary monitoring functions in the EdgeFlow CW10 Plus.
  • To verify the usability and efficiency of the EdgeFlow CW10 Plus system.

Main Methods:

  • A usability test involving 15 medical professionals with diverse experience levels.
  • Analysis of satisfaction surveys, heat maps, System Usability Scale (SUS), and NASA-TLX scores.
  • Eye-tracking analysis to assess user interaction patterns based on clinical experience.
Keywords:
eye trackerhemodynamics monitoringlung ultrasound monitoringusability test

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Main Results:

  • The EdgeFlow CW10 Plus achieved a high overall task success rate of 93.2%.
  • Usability testing indicated effective integration of hemodynamic and pulmonary monitoring functions.
  • Eye-tracking data revealed potential differences in UI element focus based on clinical experience duration.

Conclusions:

  • The EdgeFlow CW10 Plus demonstrates high usability and user satisfaction, confirming successful integration of its monitoring capabilities.
  • The device is expected to aid clinicians in optimizing cardiac output and fluid status management, thereby preventing fluid overload complications.