Outcome
| Type |
Measure |
Description |
Time frame |
Safety issue |
| Primary |
Accuracy of the HEADWIND-model: Diagnostic accuracy of the hypoglycaemia warning system (HEADWIND) to detect hypoglycaemia (blood glucose <3.9mmol/l and <3.0mmol/l) quantified as the area under the receiver operator characteristics curve (AUC ROC). |
Accuracy of the HEADWIND-model will be assessed using driving data recorded in progressive hypoglycemia and driving data will be analysed using applied machine learning technology for hypoglycemia detection. |
240 minutes |
|
| Secondary |
Change of time driving over midline |
Change of time over midline during driving in hypoglycemia will be compared to euglycemia |
240 minutes |
|
| Secondary |
Change of swerving |
Change of swerving during driving in hypoglycemia will be compared to euglycemia |
240 minutes |
|
| Secondary |
Change of spinning |
Change of spinning during driving in hypoglycemia will be compared to euglycemia |
240 minutes |
|
| Secondary |
Defining the glycemic level when driving performance is decreased |
Based on significantly altered driving parameters in serious hypoglycemia (< 3.0 mmol/L) compared to euglycemia (5.5mmol/L) plasma-glucose level (mmol/L) when driving performance begins to be impaired will be assessed |
240 minutes |
|
| Secondary |
Driving performance before and after hypoglycemia |
Based on significantly altered driving parameters in serious hypoglycemia (< 3.0 mmol/L) driving performance before and after hypoglycemia will be assessed |
240 minutes |
|
| Secondary |
Change of heart-rate |
Change of heart-rate during driving in hypoglycemia will be compared to euglycemia |
240 minutes |
|
| Secondary |
Change of heart-rate variability |
Change of heart-rate variability during driving in hypoglycemia will be compared to euglycemia. |
240 minutes |
|
| Secondary |
Change of electrodermal activity (EDA) |
Change of EDA during driving in hypoglycemia will be compared to euglycemia. |
240 minutes |
|
| Secondary |
Change of skin temperature |
Change of skin temperature during driving in hypoglycemia will be compared to euglycemia. |
240 minutes |
|
| Secondary |
CGM accuracy during hypoglycaemic state |
Accuracy (MARD) of CGM Sensor (dexcom G6) in euglycemia (3.9 - 7 mmol/L), hypoglycemia (3.0 - 3.9mmol/L) and severe hypoglycemia (< 3.0 mmol/L) will be assessed based on plasma glucose measurements. |
240 minutes |
|
| Secondary |
CGM time-delay during hypoglycaemic state |
Time-delay (minutes) of CGM Sensor (dexcom G6) during progressive hypoglycemia will be assessed compared to plasma glucose. |
240 minutes |
|
| Secondary |
Change of glucagon |
Change of glucagon before driving, during driving in euglycemia (5.5mmol/L), in hypoglycemia (< 3.9mmol/L), serious hypoglycemia (< 3mmol/L) and after hypoglycemia will be assessed. |
240 minutes |
|
| Secondary |
Change of growth hormone (GH) |
Change of GH before driving, during driving in euglycemia (5.5mmol/L), in hypoglycemia (< 3.9mmol/L), serious hypoglycemia (< 3mmol/L) and after hypoglycemia will be assessed. |
240 minutes |
|
| Secondary |
Change of catecholamines |
Change of catecholamines before driving, during driving in euglycemia (5.5mmol/L), in hypoglycemia (< 3.9mmol/L), serious hypoglycemia (< 3mmol/L) and after hypoglycemia will be assessed. |
240 minutes |
|
| Secondary |
Change of cortisol |
Change of cortisol before driving, during driving in euglycemia (5.5mmol/L), in hypoglycemia (< 3.9mmol/L), serious hypoglycemia (< 3mmol/L) and after hypoglycemia will be assessed. |
240 minutes |
|
| Secondary |
Glycemic level at time point of hypoglycemia detection by the HEADWIND-model |
Blood glucose at time point of hypoglycemia detection by the HEADWIND-model will be determined. |
240 minutes |
|
| Secondary |
Comparison CGM and HEADWIND-model regarding time-point of hypoglycemia detection |
Time point of hypoglycemia detection by CGM will be compared to time point of hypoglycemia detection by the HEADWIND-model. |
240 minutes |
|
| Secondary |
Comparison CGM and HEADWIND-model regarding glycemia |
Blood glucose at time point of hypoglycemia detection by the HEADWIND- model compared to glucose value of CGM at same time point will be assessed. |
240 minutes |
|
| Secondary |
Accuracy-comparison of HEADWIND-model and HEADWINDplus-model |
Diagnostic accuracy of the hypoglycaemia warning system (HEADWIND) to detect hypoglycaemia (blood glucose < 3.9 mmol/l) quantified as the area under the receiver operator characteristics curve (AUC ROC) using only driving parameters (HEADWIND-model) will be compared to the HEADWIND-model with additional integration of CGM and physiological parameters (heart-rate, heart-rate variability, electrodermal activity (EDA), skin temperature and facial expression) (HEADWINDplus-model) |
240 minutes |
|
| Secondary |
Diagnostic accuracy in detecting hypoglycemia (blood glucose <3.9 mmol/l and <3.0 mmol/l) quantified as the area under the receiver operator characteristics curve using physiological data |
Accuracy of hypoglycemia detection using physiological data (heart-rate, heart-rate variability, skin temperature, EDA) recorded with wearable devices during the study period will be analysed using applied machine learning technology. |
240 minutes |
|
| Secondary |
Diagnostic accuracy in detecting hypoglycemia (blood glucose < 3.9 mmol/l and < 3.0 mmol/l) quantified as the area under the receiver operator curve (AUC-ROC) using video data |
Using video data recorded by a camera and a thermal camera accuracy in hypoglycaemia detection will be analysed with applied machine learning technology. |
240 minutes |
|
| Secondary |
Diagnostic accuracy in detecting hypoglycemia (blood glucose < 3.9 mmol/l and < 3.0 mmol/l) quantified as the area under the receiver operator curve (AUC-ROC) using eye-tracking data |
Using eye-tracking data recorded by a camera and an eye-tracker (to record gaze behaviour) accuracy in hypoglycemia detection will be analysed with applied machine learning technology. |
240 minutes |
|
| Secondary |
Self-estimation of glucose and hypoglycemia |
Correlation between self-estimated glucose values and measured blood glucose will be assessed. |
240 minutes |
|
| Secondary |
Self-estimation of driving performance |
Correlation between self-estimated driving performance and measured driving performance based on significantly altered driving parameters in serious hypoglycemia (< 3.0 mmol/L) compared to euglycemia (5.5mmol/L). Self-estimated driving performance will be assessed on a absolute 7-point scale from 0-6 (a lower value means a better outcome). |
240 minutes |
|
| Secondary |
Time point of need-to-treat |
Time point of self-perceived need-to-treat (hypoglycemia) compared to time point of hypoglycemia detection by the HEADWIND-model and CGM. |
240 minutes |
|
| Secondary |
Self-perception of hypoglycemia symptoms compared to baseline hypoglycemia awareness |
Correlation and comparison of perceived hypoglycemia symptoms on a scale from 0-6 (0 = no symptoms, 6 = extreme symptoms) to baseline hypoglycemia awareness score. Baseline hypoglycemia awareness will be assessed using a validated questionnaire (Clarke-Score) with a score over 3 points indicating decreased hypoglycemia awareness. |
240 minutes |
|
| Secondary |
Incidence of Adverse Events (AEs) |
Adverse Events will be recorded at each study visit. |
5 weeks |
|
| Secondary |
Incidence of Serious Adverse Events (SAEs) |
Serious Adverse Events will be recorded at each study visit. |
5 weeks |
|
| Secondary |
Perceived ease of use of the early hypoglycaemia warning system (EWS) |
Perceived ease of use of the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Perceived usefulness of the EWS |
Perceived usefulness of the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Perceived enjoyment during EWS usage |
Perceived enjoyment during EWS usage will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Intention to adopt the EWS |
Intention to adopt the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Intention to continuously use the EWS |
Intention to continuously use the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Reception of recommendations of the EWS |
Reception of recommendations of the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Processing of recommendations of the EWS |
Processing of recommendations of the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Perceived understandability of the recommendations of the EWS |
Perceived understandability of the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Perceived familiarity of the recommendations of the EWS |
Perceived familiarity of the recommendations of the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
|
| Secondary |
Cognitive and emotional trust in the recommendations of the EWS |
Cognitive and emotional trust in the recommendations of the EWS will be assessed via questionnaire based self-reports (questionnaire for user interaction satisfaction) measured on the 9-point Likert scale from strongly disagree to strongly agree with a scale range from 0 to 9 and with higher values representing a better outcome. The total score will be averaged. |
Throughout the study, expected to be up to 12 months |
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