Wearable Belt with Sensors Accurately Monitors Heart Failure 24/7
There are about 64 million cases of heart failure worldwide. According to the American Heart Association, 6.2 million adults in the United States have heart failure and that number is estimated to increase to 8 million by 2030. Heart failure is a progressive clinical syndrome characterized by a structural abnormality of the heart, in which the heart is unable to pump sufficient blood to meet the body’s requirements.
Currently, devices to monitor for heart failure are invasive and must be surgically implanted. Moreover, about half of patients with heart failure do not need an implantable device or do not qualify for the thoracic (area between the neck and abdomen) monitoring these devices provide. There is a critical need for non-invasive solutions to monitor heart failure progression around the clock.
Researchers from Florida Atlantic University’s College of Engineering and Computer Science in collaboration with FAU’s Christine E. Lynn College of Nursing have developed a prototype of novel wearable device that can continuously monitor physiological parameters associated with heart failure in real time.
The technology is based on sensors embedded in a lightweight belt conveniently worn around the waist to monitor thoracic impedance, electrocardiogram (ECG), heart rate and motion activity detection. The system uses different sensors to monitor these parameters. Thoracic impedance is a critical bio-signal to monitor heart failure progression. Similarly, the ECG measures electrical signals through the heart and is a vital bio-signal to monitor cardiovascular status. Patient activity can reveal changes in energy and along with the other measures, may provide a picture of the patient’s heart failure status.
For the study, published in Scientific Reports , researchers tested the wearable device in different conditions including sitting, standing, lying down and walking. For each condition, results were obtained for each of the sensors sequentially. The physiological parameters selected are significant in determining heart failure symptoms.
Findings showed that all of sensors kept track of the changes for all of the different conditions. The position sensor correctly highlighted the change in position in different conditions and could be used to identify different states of the wearer of the device. In addition, the heart rate sensor continually kept track of the heart rate. Importantly, the device correctly highlighted minute changes in thoracic impedance.
Like most ECG monitors, the ECG sensor in the wearable device was very sensitive to motion, particularly while walking. However, even while walking the ECG sensor retained its QRS complex (the electrical impulse as it spreads through the ventricles of the heart) along with R-waves (intervals of the QRS complex), which are important indicators for left ventricular hypertrophy, indicative of an increase in the size of myocardial fibers in the main cardiac pumping chamber.
“All of the sensors we integrated into our belt module can easily be worn for a long period of time without affecting the patient’s daily activities,” said Waseem Asghar, Ph.D., senior author and an associate professor in FAU’s Department of Electrical Engineering and Computer Science. “Importantly, continuous and real-time monitoring of heart failure symptoms could alert patients and their health care providers of the patient’s declining health. In turn, health care providers could intervene with medications to avoid patient hospitalization.”
The researchers expect that their technology will have higher predictive values for heart failure with increased specificity and high sensitivity.
“Approximately 1 in 4 patients with heart failure are readmitted within 30 days of discharge from the hospital and about half are readmitted within six months,” said Mary Ann Leavitt, Ph.D., co-author and an assistant professor in FAU’s Christine E. Lynn College of Nursing. “Health care wearable devices such as the prototype we have developed have the potential to decrease hospital readmissions in a cost-effective way that also is safe and convenient for the wearer.”
Based on the study results, the researchers are currently testing the module over a set of diverse subjects to develop an algorithm to predict heart failure over the test set.
“This wearable device to monitor heart failure is my main project in Dr. Asghar’s Micro and Nanotechnology Lab in Medicine, which has important social implications for the fastest-growing cardiovascular disease in the U.S.,” said Sheikh Muhammad Asher Iqbal, first author, a research assistant and a Ph.D. student in FAU’s Department of Electrical Engineering and Computer Science. “We are developing a noninvasive solution that can be used by heart failure patients for better management, diagnosis and prognosis that will be able to serve the masses.”
Study co-authors are Imadeldin Mahgoub, Ph.D., Tecore Professor; and Sarah E. Du, Ph.D., an associate professor, both in FAU’s Department of Electrical Engineering and Computer Science.
This research was supported by FAU’s Institute for Sensing and Embedded Network Systems Engineering (I-SENSE) and FAU’s College of Engineering and Computer Science.
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The wearable device was tested in different conditions including sitting, standing, lying down and walking.
The lightweight belt continuously monitors all of the physiological parameters associated with heart failure in real time, 24/7.
-FAU-
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