Abstract
Background: Diabetes affects millions of people worldwide and is steadily increasing. A serious condition associated with diabetes is low glucose levels (hypoglycemia). Monitoring blood glucose is usually performed by invasive methods or intrusive devices, and these devices are currently not available to all patients with diabetes. Hand tremor is a significant symptom of hypoglycemia, as nerves and muscles are powered by blood sugar. However, to our knowledge, no validated tools or algorithms exist to monitor and detect hypoglycemic events via hand tremors. Objective: In this paper, we propose a noninvasive method to detect hypoglycemic events based on hand tremors using accelerometer data. Methods: We analyzed triaxial accelerometer data from a smart watch recorded from 33 patients with type 1 diabetes for 1 month. Time and frequency domain features were extracted from acceleration signals to explore different machine learning models to classify and differentiate between hypoglycemic and nonhypoglycemic states. Results: The mean duration of the hypoglycemic state was 27.31 (SD 5.15) minutes per day for each patient. On average, patients had 1.06 (SD 0.77) hypoglycemic events per day. The ensemble learning model based on random forest, support vector machines, and k-nearest neighbors had the best performance, with a precision of 81.5% and a recall of 78.6%. The results were validated using continuous glucose monitor readings as ground truth. Conclusions: Our results indicate that the proposed approach can be a potential tool to detect hypoglycemia and can serve as a proactive, nonintrusive alert mechanism for hypoglycemic events.
Original language | English (US) |
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Article number | e40990 |
Journal | JMIR Diabetes |
Volume | 8 |
DOIs | |
State | Published - Apr 19 2023 |
Keywords
- acceleration
- accelerometer
- algorithm
- blood sugar
- detect
- diabetes
- diabetic
- digital measurement
- frequency domain
- glucose
- hand tremors
- hypoglycemia
- machine learning
- measurement tool
- model
- monitoring
- noninvasive
- smart watch
- time domain
- tremor
- wearable
- wearable device
ASJC Scopus subject areas
- Endocrinology, Diabetes and Metabolism
- Biomedical Engineering
- Health Informatics
- Health Information Management