Clinical Trials Logo

Clinical Trial Details — Status: Withdrawn

Administrative data

NCT number NCT01178476
Other study ID # Hyposafe-hypo-02
Secondary ID
Status Withdrawn
Phase N/A
First received November 18, 2009
Last updated March 7, 2014
Start date November 2009
Est. completion date March 2011

Study information

Verified date August 2010
Source Hypo-Safe A/S
Contact n/a
Is FDA regulated No
Health authority Denmark: Danish Medicines AgencyDenmark: Ethics Committee
Study type Interventional

Clinical Trial Summary

Hypoglycaemia is the most common acute complication in insulin-treated diabetes. The fear of hypoglycaemia discourages diabetic subjects from the attempt to maintain tight glycemic control, which in turn leads to increased diabetes related morbidity and mortality.

Neuroglycopenic hypoglycaemia in insulin-treated diabetic patients is associated with characteristic changes in EEG with a decrease in alpha activity and an increase in delta and theta activity. We have recently demonstrated that hypoglycaemia-associated EEG-changes can be recorded from subcutaneously placed electrodes using an automated mathematical algorithm based on non-linear spectral analysis. Experimental findings hold promises that an alarm, given at the time of EEG-changes, can help the patients to avoid severe hypoglycaemia by ingestion of carbohydrate.

This is the first larger scale trial testing the clinical applicability of a hypoglycaemia-alarm based on real-time analysis of EEG-signals.


Description:

The near-normalization of glycemic control has become an established treatment goal in diabetes in order to reduce the risk of late complications such as nephropathy, neuropathy, retinopathy and cardiovascular disease (1). However, the frequency of insulin-induced hypoglycaemia increases several-fold during intensified insulin therapy (2;3) and hypoglycaemia is the most common acute complication in insulin-treated diabetes. The fear of hypoglycaemia discourages diabetic subjects from the attempt to maintain tight glycemic control, which in turn leads to increased diabetes related morbidity and mortality (4;5). Symptoms of hypoglycaemia can be classified as autonomic (warning) symptoms caused by the release of catecholamines and neuroglycopenic symptoms caused by the lack of glucose supply to the brain. Symptoms of hypoglycaemia may be compromised at night-time (nocturnal asymptomatic hypoglycaemia) due to impaired glucose counterregulatory response by adrenaline and glucagon. Some 25% of patients with type 1 diabetes suffer from unawareness in various degrees increasing with long diabetes duration and tight glycemic control (4;6;7).

Several studies have evaluated the potential use of continuous glucose monitoring system (CGMS) as hypoglycaemia alarms but so far failed to show reduction in the frequency of severe hypoglycaemia (8;9). Although the technology is continuously being improved it is still associated with a number of problems (10). The technique is rather imprecise, particularly in the lower range of glucose measurements, and only about 33% of hypoglycemic events were detected in a larger clinical trial (11). The accuracy of the reading is reduced when rapid changes in blood glucose occur (12). There is a significant and variable delay from the change in blood glucose to the change in the interstitial compartment ranging from 4 - 10 minutes (13) and the catheters are rather costly and must be replaced every 72 hours.

The EEG signal reflects the functional state and metabolism of the brain. The brain is almost totally dependent on a continuous supply of glucose, and when the glucose level is lower than the metabolic requirements of the brain, its function deteriorates. Neuroglycopenic hypoglycaemia in insulin-treated diabetic patients is associated with characteristic changes in EEG with a decrease in alpha activity and an increase in delta and theta activity (14-17). These changes are clearly seen at blood glucose ~2.0mmol/l (14;15) preceding the development of severe cognitive dysfunction (18). We have recently demonstrated that hypoglycaemia-associated EEG-changes can be recorded from subcutaneously placed electrodes using an automated mathematical algorithm based on non-linear spectral analysis and that EEG-changes above a predefined threshold can be demonstrated more than 10 minutes before development of severe hypoglycaemia in the majority of the patients (19). We found a very low rate of false alarms and no adverse reactions related to implantation of the electrodes. We have subsequently performed a number of studies with real-time alarms type 1 diabetes patients exposed to insulin induced hypoglycaemia. In these studies the patients were instructed to ingest carbohydrates when he/she heard the alarm sound. In three out of four cases the patients were able to do so, while a fourth patient did not spontaneously ingest the meal although, he was fully conscious and not clinically affect by the hypoglycaemia. These findings hold promises that an alarm, given at the time of EEG-changes, can help the patients to avoid severe hypoglycaemia by ingestion of carbohydrate.

For clinical applicability the device should be able to distinguish hypoglycaemia-induced EEG changes from noise, artefacts and physiological variations in the EEG including the low-frequency waves seen during sleep, with high sensitivity and specificity using a mathematical algorithm that classifies the EEG in real-time. There should be a "time-window" between hypoglycaemia-induced EEG changes and severe cognitive impairment. The device should be fully compatible with normal everyday activities. Thus, the device should be small, fully biocompatible and implantable, and the monitoring and processing unit should be small and have sufficient battery power.

This is the first larger scale trial testing the clinical applicability of a hypoglycaemia-alarm based on real-time analysis of EEG-signals.


Recruitment information / eligibility

Status Withdrawn
Enrollment 0
Est. completion date March 2011
Est. primary completion date January 2010
Accepts healthy volunteers No
Gender Both
Age group 18 Years to 70 Years
Eligibility Inclusion Criteria:

- Male and female patient with type 1 diabetes for at least one year

- Age 18-70 years

- Impaired awareness of hypoglycaemia as defined by

- A score of =4 on the Gold-scale (Appendix 8) or

- Two or more occasions of severe hypoglycaemia (need of help from third person) within the past 12 month

- Multiple injection insulin therapy or continuous insulin injection therapy

- For female participants: Not pregnant and, if child bearing potential, usage of reliable anti-contraceptive method during the study period

Exclusion Criteria:

- Severe cardiac disease

- History of myocardial infarction

- Cardiac arrhythmia

- Previous stroke or cerebral haemorrhage and any other structural cerebral disease

- Active cancer or cancer diagnosis within the past five years

- Uremia defined as s-creatinine above 3 times upper reference value

- Liver disease defined as s-ALAT above 3 times upper reference interval

- Inability to understand the informed consent

- Epilepsy

- Use of antiepileptic drugs for any purposes

- Clinical important hearing impairment

- Use of active implantable medical device including

- Pacemaker and ICD-unit

- Cochlear implant

- Use of following drugs

- Chemotherapeutic drugs of any kind

- Methotrexate

- Third generation antipsychotic drugs (aripiprazole, quetiapine, clozapine, ziprasidone, paliperidone, risperidone, sertindole, amisulpride, olanzapine

- Abuse of alcohol (defined as consumption of > 250g alcohol (in Danish: 21 "genstande") per week or abuse of any other neuroactive substances

- Infection at the site of device-implantation

- Any hemorrhagic disease

- Diving (snorkel diving allowed) or parachute jumping

- Patients that are judged incapable of understanding the patient information or who are not capable of carrying through the investigation

Study Design

Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Prevention


Related Conditions & MeSH terms


Intervention

Device:
Hyposafe Hypoglycaemia alarm device
An EEG based hypoglycemia alarm is tested against standard glucose measurement on the risk of severe hypoglycemia

Locations

Country Name City State
Denmark Hillerød Sygehus Hillerød

Sponsors (1)

Lead Sponsor Collaborator
Hypo-Safe A/S

Country where clinical trial is conducted

Denmark, 

Outcome

Type Measure Description Time frame Safety issue
Primary The frequency of severe hypoglycaemia event six months No
Secondary The frequency of clinical hypoglycaemia (sensation of hypoglycaemia and BG<3.5mmol/l), biochemical hypoglycaemia (BG<3.5mmol/l), and nocturnal hypoglycaemia (waking up with a sensation of hypoglycaemia and BG<3.5mmol/l) six months No
See also
  Status Clinical Trial Phase
Recruiting NCT05653518 - Artificial Pancreas Technology to Reduce Glycemic Variability and Improve Cardiovascular Health in Type 1 Diabetes N/A
Enrolling by invitation NCT05515939 - Evaluating the InPen in Pediatric Type 1 Diabetes
Completed NCT05109520 - Evaluation of Glycemic Control and Quality of Life in Adults With Type 1 Diabetes During Continuous Glucose Monitoring When Switching to Insulin Glargine 300 U/mL
Recruiting NCT04016987 - Automated Structured Education Based on an App and AI in Chinese Patients With Type 1 Diabetes N/A
Active, not recruiting NCT04190368 - Team Clinic: Virtual Expansion of an Innovative Multi-Disciplinary Care Model for Adolescents and Young Adults With Type 1 Diabetes N/A
Recruiting NCT05413005 - Efficacy of Extracorporeal Photopheresis (ECP) in the Treatment of Type 1 Diabetes Mellitus Early Phase 1
Active, not recruiting NCT04668612 - Dual-wave Boluses in Children With Type 1 Diabetes Insulin Boluses in Children With Type 1 Diabetes N/A
Completed NCT02837094 - Enhanced Epidermal Antigen Specific Immunotherapy Trial -1 Phase 1
Recruiting NCT05414409 - The Gut Microbiome in Type 1 Diabetes and Mechanism of Metformin Action Phase 2
Recruiting NCT05670366 - The Integration of Physical Activity Into the Clinical Decision Process of People With Type 1 Diabetes N/A
Active, not recruiting NCT05418699 - Real-life Data From Diabetic Patients on Closed-loop Pumps
Completed NCT04084171 - Safety of Artificial Pancreas Therapy in Preschoolers, Age 2-6 N/A
Recruiting NCT06144554 - Post Market Registry for the Omnipod 5 System in Children and Adults With Type 1 Diabetes
Recruiting NCT05153070 - Ciclosporin Followed by Low-dose IL-2 in Patients With Recently Diagnosed Type 1 Diabetes Phase 2
Recruiting NCT05379686 - Low-Dose Glucagon and Advanced Hybrid Closed-Loop System for Prevention of Exercise-Induced Hypoglycaemia in People With Type 1 Diabetes N/A
Completed NCT05281614 - Immune Effects of Vedolizumab With or Without Anti-TNF Pre-treatment in T1D Early Phase 1
Withdrawn NCT04259775 - Guided User-initiated Insulin Dose Enhancements (GUIDE) to Improve Outcomes for Youth With Type 1 Diabetes N/A
Active, not recruiting NCT01600924 - Study on the Assessment of Determinants of Muscle and Bone Strength Abnormalities in Diabetes
Completed NCT02914886 - Beneficial Effect of Insulin Glulisine by Lipoatrophy and Type 1 Diabetes (LAS) Phase 4
Completed NCT02750527 - Pediatric Population Screening for Type 1 Diabetes and Familial Hypercholesterolemia in Lower Saxony, Germany