This observational study aims to recruit up to thirty T1DM patients from a diabetic outpatient clinic at the University Hospital Coventry and Warwickshire for a two-phase study. The first phase involves attending an inpatient protocol for up to thirty-six hours in a calorimetry room at the Human Metabolism Research Unit under controlled conditions, followed by a phase of free-living, for up to three days, in which participants will go about their normal daily activities without restriction. Throughout the study, the participants will wear commercially available wearable sensors to measure and record physiological signals (e.g., electrocardiogram and continuous glucose monitor). Data collected will be used to develop and validate an AI model using state-of-the-art deep-learning methods for the purpose of non-invasive glycaemic event detection.
The study volunteers will be asked to an attend an 'inpatient' facility for up to 36 hrs dedicated to advanced metabolic measurement (HMRU). They will be asked to consume prepared meals of varying macronutrient content as part of a balanced diet, and performed prescribed physical activity. During this time the volunteers will be measured by instrumentation which will investigate the chemical concentration in respired gases (e.g. whole-body calorimeters, metabolic carts); bloods, saliva and urine samples will be taken. If the participant then wishes, we will ask them to continue to wear the wearable devices in a home setting for a maximum one week. The data derived from this study will allow new tools and mathematical models to be developed that can be used to analyse and simulate patient metabolic response. It is envisaged this study will give further evidence to support future research into glucose utilisation in diseased metabolic populations.
Study Type
OBSERVATIONAL
Enrollment
30
Interstitial Glucose
As measured by a continuous glucose monitor \[NOTE\] Observational study thus a key measurement not a true outcome measure.
Time frame: For the duration of the study, up to 5 days
ECG -Interval across different fiducial points
As measured by an ambulatory ECG device \[NOTE\] Observational study thus a key measurement not a true outcome measure. The interval across different fiducial points (P.Q.R,S,T) is one of the features that are useful to quantify the difference in ECG signals for different glycaemic events.
Time frame: For the duration of the study, up to 5 days
ECG - Slope across different fiducial points
As measured by an ambulatory ECG device \[NOTE\] Observational study thus a key measurement not a true outcome measure. The Slope across different fiducial points (P.Q.R,S,T) is one of the features that are useful to quantify the difference in ECG signals for different glycaemic events.
Time frame: For the duration of the study, up to 5 days
ECG - Indices of Heart Rate Variability
As measured by an ambulatory ECG device \[NOTE\] Observational study thus a key measurement not a true outcome measure. Heart rate variability (HRV) is the fluctuation in the time intervals between adjacent heartbeats. There are several indices that are useful to quantify the difference in ECG signals for different glycaemic events such as Ultra Low Frequency (ULF) (≤0.003 Hz), Very Low Frequency (VLF) (0.0033-0.04 Hz), Low Frequency (LF) (0.04-0.15 Hz) and High Frequency (HF) (0.15-0.4 Hz)
Time frame: For the duration of the study, up to 5 days
Blood Pressure (Systolic and Diastolic)
As measured by an ambulatory blood pressure device \[NOTE\] Observational study thus a key measurement not a true outcome measure.
Time frame: For the duration of the study, up to 5 days
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.