Machine learning for non‐invasive sensing of hypoglycaemia while driving in people with diabetes
Abstract
Aim
To develop and evaluate the concept of a non-invasive machine learning (ML) approach for detecting hypoglycaemia based exclusively on combined driving (CAN) and eye tracking (ET) data.
Materials and Methods
We first developed and tested our ML approach in pronounced hypoglycaemia, and then we applied it to mild hypoglycaemia to evaluate its early warning potential. For this, we conducted two consecutive, interventional studies in individuals with type 1 diabetes. In study 1 (n = 18), we collected CAN and ET data in a driving simulator during euglycaemia and pronounced hypoglycaemia (blood glucose [BG] 2.0-2.5 mmol L−1). In study 2 (n = 9), we collected CAN and ET data in the same simulator but in euglycaemia and mild hypoglycaemia (BG 3.0-3.5 mmol L−1).
Results
Here, we show that our ML approach detects pronounced and mild hypoglycaemia with high accuracy (area under the receiver operating characteristics curve 0.88 ± 0.10 and 0.83 ± 0.11, respectively).
Conclusions
Our findings suggest that an ML approach based on CAN and ET data, exclusively, enables detection of hypoglycaemia while driving. This provides a promising concept for alternative and non-invasive detection of hypoglycaemia. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-b-000602169Publikationsstatus
publishedExterne Links
Zeitschrift / Serie
Diabetes, Obesity and MetabolismBand
Seiten / Artikelnummer
Verlag
Wiley-BlackwellThema
Diabetes complications; Hypoglycaemia; Type 1 diabetes; Glycaemic controlOrganisationseinheit
03681 - Fleisch, Elgar / Fleisch, Elgar
Förderung
183569 - Design and Evaluation of a Vehicle Hypoaglycemia Warning System in Diabetes (HEADWIND Project) (SNF)