HS-44 Wearable Technology in Healthcare: Advancing Remote Patient Monitoring and Personalized Medicine
SCURS Disciplines
Medicine & Health Sciences
Document Type
Poster Presentation
Abstract
Research Symposium Abstract
Title: Wearable Technology in Healthcare: Advancing Remote Patient Monitoring and Personalized Medicine
Introduction
Wearable technology is improving healthcare daily by monitoring real-time health data of its users. Devices such as smartwatches and fitness trackers collect data on physical activity, sleep patterns, and cardiovascular health. These devices can detect conditions such as hypertension and diabetes, helping individuals keep track of their health. However, challenges related to data accuracy and privacy must be addressed.
Research Question
How effective are wearable health devices in improving patient outcomes, detecting diseases early, and managing chronic conditions compared to traditional healthcare monitoring methods?
Methods
We analyze data retrieved from wearable devices to track the accuracy of heart rate, blood pressure, pulse, and oxygen levels. This study also examines the integration of wearables with electronic health records (EHRs). Additionally, we explore challenges faced by users and consider concerns related to data privacy.
Results
The findings indicate that wearables enhance early disease prediction, allowing patients to seek medical attention when alerted by their device. The accuracy of these devices was found to be close to 95%, making them highly reliable and increasing user trust. Furthermore, their use led to a 30% reduction in hospital readmissions.
Conclusion
Wearable technology is set to transform healthcare by providing continuous health monitoring and personalized treatment plans. These devices significantly improve patient engagement and enable early disease detection. However, for their successful integration into the healthcare system, it is crucial to address concerns about data privacy and accessibility. Future research should focus on improving sensor accuracy and advancing AI-driven analytics to fully leverage the benefits of wearables in healthcare.
Keywords
Wearable technology, remote patient monitoring, AI in healthcare, digital health
Start Date
11-4-2025 9:30 AM
Location
University Readiness Center Greatroom
End Date
11-4-2025 11:30 AM
HS-44 Wearable Technology in Healthcare: Advancing Remote Patient Monitoring and Personalized Medicine
University Readiness Center Greatroom
Research Symposium Abstract
Title: Wearable Technology in Healthcare: Advancing Remote Patient Monitoring and Personalized Medicine
Introduction
Wearable technology is improving healthcare daily by monitoring real-time health data of its users. Devices such as smartwatches and fitness trackers collect data on physical activity, sleep patterns, and cardiovascular health. These devices can detect conditions such as hypertension and diabetes, helping individuals keep track of their health. However, challenges related to data accuracy and privacy must be addressed.
Research Question
How effective are wearable health devices in improving patient outcomes, detecting diseases early, and managing chronic conditions compared to traditional healthcare monitoring methods?
Methods
We analyze data retrieved from wearable devices to track the accuracy of heart rate, blood pressure, pulse, and oxygen levels. This study also examines the integration of wearables with electronic health records (EHRs). Additionally, we explore challenges faced by users and consider concerns related to data privacy.
Results
The findings indicate that wearables enhance early disease prediction, allowing patients to seek medical attention when alerted by their device. The accuracy of these devices was found to be close to 95%, making them highly reliable and increasing user trust. Furthermore, their use led to a 30% reduction in hospital readmissions.
Conclusion
Wearable technology is set to transform healthcare by providing continuous health monitoring and personalized treatment plans. These devices significantly improve patient engagement and enable early disease detection. However, for their successful integration into the healthcare system, it is crucial to address concerns about data privacy and accessibility. Future research should focus on improving sensor accuracy and advancing AI-driven analytics to fully leverage the benefits of wearables in healthcare.