The Impact of Wearable Devices on Clinical Trials
In the ever-changing world of clinical trials, technology is becoming more and more of a necessity. Wearable devices are no longer merely something that fitness enthusiasts use to track their latest workout; they’re being used in clinical trials to collect data on patients who are suffering from everything from Alzheimer’s disease to diabetes. In this article, we’ll explore how wearable devices can help clinical trials and why they are so important for improving patient outcomes.
Wearable Devices Will Play a Bigger Role in Clinical Trials
Wearables are the most accurate way to monitor patients.
- Wearables can be used to monitor patients in remote locations.
- Wearables can be used to monitor patients in real time, which is useful when a patient has an urgent need for care or if they’re not available for regular checkups (e.g., due to travel).
- Wearables allow you to collect data on your participants over long periods of time, which means you’ll have more information about their health status than if you were just relying on traditional methods like blood pressure cuffs or heart rate monitors.
The Benefits of Wearables in Clinical Trials
Wearable devices are increasingly being used in clinical trials. This is because they can provide researchers with valuable information that can help them better understand how patients are responding to the drug or device being tested.
One of the biggest benefits of using wearables in clinical trials is that they can be used to monitor a patient’s health and activity level, which allows researchers to get insight into their overall well-being throughout treatment. For example, if a patient has trouble sleeping due to side effects from taking medication or wearing a device on their wrist, then this could affect their ability to perform normal daily tasks — including completing tests required by researchers during clinical trials!
Challenges with Using Wearables in Clinical Trials
There are a number of challenges that must be overcome before wearable devices can be used in clinical trials.
- Data reliability: The data collected by wearables is often not reliable, due to issues such as poor signal strength, low battery life and poor user experience.
- Data accuracy: Wearable devices have been shown to have high error rates when measuring heart rate and blood pressure compared with traditional methods such as ECGs or arterial tonometry. This may lead to inaccurate results when used for medical diagnosis or treatment decisions (1).
- Data security: Wearable devices store personal information about users’ health status which could potentially be accessed by hackers if not properly protected (2).
- Privacy concerns about patient confidentiality has also been raised because many wearable devices collect sensitive personal information such as sleep patterns or exercise habits (3). This opens up the possibility that third parties who gain access to this information could use it maliciously against individuals who own these devices; therefore making them less likely candidates for participation in clinical trials where they would have access to sensitive data regarding their health status remote patients monitoring wearable devices.
wearable devices should be used more often in clinical trials
Wearable devices have been used in clinical trials to monitor a patient’s health, activity, sleep and heart rate.
- Wearables can be an effective way to monitor a patient’s health. For example, wearable fitness trackers can be used to measure steps taken or calories burned throughout the day. These measurements are then compared with data from previous days so that researchers can determine if there has been any change in physical activity levels over time.
- Wearables can also be helpful when it comes to monitoring sleep patterns: when patients wear their Fitbit while they sleep at night (or even just during naps), researchers get information about how many hours they slept each night as well as how often they woke up during the night; this allows them better understand how much restful sleep each participant receives on average per week.*
Conclusion
We hope that this article has helped you understand the benefits of wearable devices in clinical trials. We know that there are still many challenges with using wearables in clinical trials, but we also believe that these devices have great potential to improve patient outcomes and save lives. It is time for us as healthcare professionals to embrace this new technology so we can continue making progress towards our goal of better health care delivery!
