Jiang Li, CEO of Vivalink06.06.24
Consumer-grade technology advancements have led to a significant shift in healthcare, enabling patients to utilize personal devices like smartphones, tablets, fitness trackers, and smartwatches to monitor their health, access medical information, and interact with healthcare providers.
The rise in consumer-grade devices has also prompted the adoption of Bring Your Own Device (BYOD) policies in healthcare settings. The trend extends beyond traditional workplaces and has infiltrated medical domains as individuals incorporate personal technology into their healthcare routines. While BYOD brings convenience and information, it also introduces data security, privacy, reliability, and accuracy risks.
As major technology brands continue to develop and advance their wearable technology, the line between consumer-grade and medical-grade wearables is becoming increasingly blurred. Healthcare professionals must support the use of specialized medical-grade equipment, which meets strict standards for data security, accuracy, and regulatory compliance. The standards maintain high-quality healthcare services and protect patient information.
Almost half of them (47%) said they share the data gathered from their devices with their healthcare providers. Considering the growing popularity of wearables, the number of individuals sharing personally tracked data with healthcare providers will likely continue to rise.
Global shipments of wearable devices reached a record high of 148.4 million units in 2023, according to International Data Corporation (IDC). The research firm predicts that the number of smartwatches shipped worldwide will continue to rise, reaching over 206 million units by 2027, up from 165 million units in 2023.
While consumer-grade wearables provide users with insights into their daily activities and overall well-being, drawing a clear distinction between these devices and medical-grade wearables is necessary. Medical-grade wearables, often used under the guidance of medical professionals, undergo thorough testing and certification to ensure they are accurate, reliable, and compliant.
Recognizing the differences between personal and medical-grade devices and promoting the use of certified medical equipment enables healthcare providers to protect patient data integrity, ensure regulatory compliance, and provide high-quality care.
Factors such as sensor quality, calibration methods, and signal processing algorithms can vary significantly between consumer-grade devices, potentially resulting in inconsistent or inaccurate health data readings. For example, the placement of a temperature sensor on a smartwatch and its susceptibility to ambient temperatures may lead to inaccurate readings.
During the FDA clearance process, medical-grade wearables also undergo clinical validation to check how accurate and reliable they are in real-world healthcare situations. These studies can include controlled trials, patient assessments, and comparisons with established standards to confirm the device's performance and effectiveness in diagnosing, monitoring, or treating medical conditions. Personal fitness trackers often lack clinical validation data as they are primarily designed for consumer use.
Personal fitness trackers might not have standardized connections and compatibility with healthcare IT systems, hindering their integration into clinical workflows and reducing their usefulness for healthcare providers. Without interoperability, consumer-grade wearables fail to facilitate care coordination, data sharing, and decision-making.
Jiang Li, Ph.D., is founder and CEO of Vivalink, Inc., a Silicon Valley company developing digital health technology solutions for remote patient monitoring in healthcare and clinical research. Prior to Vivalink, Jiang held positions as VP of Engineering at Thin Film Electronics, Kovio, and Spansion, as well as the Director of Product Engineering at Advanced Micro Devices. Jiang earned his BS in Chemical Engineering from Zhejiang University, and his Ph.D. in Chemical Engineering from the University of Wisconsin at Madison, in 1998.
The rise in consumer-grade devices has also prompted the adoption of Bring Your Own Device (BYOD) policies in healthcare settings. The trend extends beyond traditional workplaces and has infiltrated medical domains as individuals incorporate personal technology into their healthcare routines. While BYOD brings convenience and information, it also introduces data security, privacy, reliability, and accuracy risks.
As major technology brands continue to develop and advance their wearable technology, the line between consumer-grade and medical-grade wearables is becoming increasingly blurred. Healthcare professionals must support the use of specialized medical-grade equipment, which meets strict standards for data security, accuracy, and regulatory compliance. The standards maintain high-quality healthcare services and protect patient information.
The Rise of Wearable Technology
Recent data from Deloitte shows that about six out of every 10 U.S. households own a smartwatch or fitness tracker. Most of the device owners (87%) use their trackers to monitor health metrics, such as heart rate, exercise time, and sleep quality.Almost half of them (47%) said they share the data gathered from their devices with their healthcare providers. Considering the growing popularity of wearables, the number of individuals sharing personally tracked data with healthcare providers will likely continue to rise.
Global shipments of wearable devices reached a record high of 148.4 million units in 2023, according to International Data Corporation (IDC). The research firm predicts that the number of smartwatches shipped worldwide will continue to rise, reaching over 206 million units by 2027, up from 165 million units in 2023.
Elevating Healthcare with Medical-Grade Wearables
Medical-grade wearable devices have become valuable tools in modern healthcare, capable of monitoring a wide array of vital signs and parameters. Research highlights the effectiveness of medical-grade wearables in facilitating remote patient monitoring (RPM), chronic and acute disease management, and clinical research initiatives.While consumer-grade wearables provide users with insights into their daily activities and overall well-being, drawing a clear distinction between these devices and medical-grade wearables is necessary. Medical-grade wearables, often used under the guidance of medical professionals, undergo thorough testing and certification to ensure they are accurate, reliable, and compliant.
Recognizing the differences between personal and medical-grade devices and promoting the use of certified medical equipment enables healthcare providers to protect patient data integrity, ensure regulatory compliance, and provide high-quality care.
The Risks of Using Personal Fitness Trackers for Medical Purposes
While personal fitness trackers offer convenience for general health tracking, they may not be suitable for medical purposes. Educating patients on the advantages of medical-grade wearables and the potential drawbacks of personal devices enhances RPM's safety and reliability, ensuring patients receive accurate vital signs tailored to the appropriate medical settings.Data Security Risks
Personal fitness trackers often store sensitive health information, including biometric data and activity logs. Unlike medical wearables, equipped with advanced security features and encryption protocols, consumer-grade devices may have vulnerabilities that expose user data to unauthorized access. Many consumer-grade trackers automatically transmit data to the manufacturer’s cloud servers, which may not comply with HIPAA. Without adequate safeguards, the risk of data breaches, identity theft, and privacy violations increases.Accuracy and Reliability Concerns
Medical-grade wearables are designed and tested to ensure precise and reliable data collection in clinical settings. They undergo extensive validation processes to verify their accuracy in measuring vital signs and health parameters. Personal fitness trackers may lack the same level of scrutiny and calibration needed for medical-grade accuracy.Factors such as sensor quality, calibration methods, and signal processing algorithms can vary significantly between consumer-grade devices, potentially resulting in inconsistent or inaccurate health data readings. For example, the placement of a temperature sensor on a smartwatch and its susceptibility to ambient temperatures may lead to inaccurate readings.
Regulatory Compliance and Clinical Validation
Medical wearables must meet regulatory standards to ensure they are safe, effective, and legally compliant for medical use. In the United States, the Food and Drug Administration regulates medical devices through an approval process, classifying them based on risk levels and requiring manufacturers to meet specific performance criteria and quality standards. Consumer-grade wearables are not subject to the same regulatory oversight and may lack proper validation for medical applications.During the FDA clearance process, medical-grade wearables also undergo clinical validation to check how accurate and reliable they are in real-world healthcare situations. These studies can include controlled trials, patient assessments, and comparisons with established standards to confirm the device's performance and effectiveness in diagnosing, monitoring, or treating medical conditions. Personal fitness trackers often lack clinical validation data as they are primarily designed for consumer use.
Interoperability Challenges
Medical-grade wearables are often designed with interoperability in mind, enabling integration with electronic health records (EHR) systems, healthcare apps, and other medical devices. They follow standardized communication protocols and data formats, facilitating efficient data exchange and interoperability across various healthcare platforms.Personal fitness trackers might not have standardized connections and compatibility with healthcare IT systems, hindering their integration into clinical workflows and reducing their usefulness for healthcare providers. Without interoperability, consumer-grade wearables fail to facilitate care coordination, data sharing, and decision-making.
Prioritizing Medical-Grade Wearables in Healthcare
As the line between consumer-grade and medical-grade wearables blurs, healthcare providers must prioritize medical-grade wearables more than ever. The risks of relying on personal fitness trackers or smartwatches for medical tasks highlight the importance of advocating for the use of dedicated medical-grade equipment. By doing so, providers can safeguard patient data integrity, ensure regulatory compliance, and deliver quality care while enhancing RPM initiatives.Jiang Li, Ph.D., is founder and CEO of Vivalink, Inc., a Silicon Valley company developing digital health technology solutions for remote patient monitoring in healthcare and clinical research. Prior to Vivalink, Jiang held positions as VP of Engineering at Thin Film Electronics, Kovio, and Spansion, as well as the Director of Product Engineering at Advanced Micro Devices. Jiang earned his BS in Chemical Engineering from Zhejiang University, and his Ph.D. in Chemical Engineering from the University of Wisconsin at Madison, in 1998.