The purpose of this study is to investigate the safe wearability and basic functions of the multi-modality sensors fabricated in the PI lab.
Members of this research team have developed innovative, wearable devices capable of being comfortably and continuously worn while recording diverse physiologic measurements. The purpose of this study is to validate the safe wearability and basic functions of the novel biocompatible electronic sensor that will allow continuous, non-invasive physiological measurements. This study aims to obtain preliminary data on the safety and functional aspects of the developed devices and compare it to approved medical equipments (including Abbott Medquip Oximeter, Omron blood pressure monitor, and Vicorder device for pulse wave velocity), which will pave the way for future study that focuses certain disease model. Participants will be randomly assigned to Condition A, and wear the devices before and after exercise for 15 minutes each time, or Condition B and wear the devices for 2 hours continuously. During their 1-hour or 2.5-hour lab visit, study participants will wear the biocompatible electronic sensors and three approved medical devices during a slow deep breath, before and after a 6-minute brisk walk, or for an extended period of time (2 hours). Participants will return to the lab for two brief visits, 48 and 96 hours after the device wearing, to determine if any suspected adverse events related to study procedures or devices emerged after they left the research site. For the future study, we will plan to 1) optimize the devices for use in patients needing FiO2 weaning, 2) demonstrate the reliability, and accuracy of these devices for continuous physiological measurements, including but not limited to blood pressure, heart rate (HR), cerebral blood flow, temperature, glucose concentration, and respiratory rate, and 3) demonstrate these devices are preferred by patients to current measurement tools. Once validated, such sensors could fundamentally change the way blood flow, blood pressure, or related parameters are monitored for patients, eliminating risks associated with invasive monitoring, allowing continuous, real-time detection of clinically meaningful changes in the patients, advancing knowledge of hormonal signatures and physiological signals preceding clinically meaningful events.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SCREENING
Masking
NONE
Enrollment
22
The wearable sensor devices will be placed on the finger, wrist, temple, subclavian, arm, neck, and thigh of the participant and will provide continuous tissue mechanics, heart rate, respiration rate, blood flow, and pulse oxygenation measurements continuously throughout the experimental period.
The oximeter device will be placed on the right middle finger of the participant and will provide continuous pulse oxygenation and heart rate measurements continuously throughout the experimental period.
The blood pressure monitor device will be placed on the left arm of the participant and will take a blood pressure measurement every 5 minutes throughout the 15 minute experimental period, and every 15 minutes throughout the 2 hour experimental period.
Kenan Laboratories at the University of North Carolina at Chapel Hill
Chapel Hill, North Carolina, United States
RECRUITINGMean Comfort Level of Wearable Sensors
A questionnaire about the comfort of the wearable sensors will be measured using the Likert scale, which ranges from 1 to 5 and is used to measure attitudes and perception changes about the our sensor. The minimum value 1 represents "strongly disagree" and the maximum value 5 represents "strongly agree", thus higher scores represent a better outcome.
Time frame: Questionnaire completed within 96 hours after device application.
Mean Safety Level of Wearable Sensors
A questionnaire about the safety and reactions to the wearable sensors will be measured using the Likert scale, which ranges from 1 to 5 and is used to measure attitudes and perception changes about the safety of our sensor. The minimum value 1 represents "strongly disagree" and the maximum value 5 represents "strongly agree", thus higher scores represent a better outcome.
Time frame: Questionnaire completed within 96 hours after device application.
Mean Agreement Over Time of Physiological Parameters between Newly-Fabricated Wearable Sensors and Approved Devices
Signals from the approved medical devices will measure tissue mechanics, heart rate, respiration rate, blood flow, and pulse oxygenation measurements and these data will be compared to the signals from our sensors. The difference over time will be measured on a scale from a minimum of 0 and a maximum of 1, with 0 being the best outcome and representing the lowest difference between the sensing data from the different devices.
Time frame: Through study completion, an average of 15 minutes.
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The pulse wave velocity monitor device will be placed on the right side of the neck and the right thigh and will provide measurements continuously throughout the experimental period.