Metabolic Adaptation to High-frequent Hypoglycaemia in Type 1 Diabetes

NCT ID: NCT05095259

Last Updated: 2023-05-03

Basic Information

• Recruitment Status: UNKNOWN
• Clinical Phase: NA
• Total Enrollment: 60 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2019-12-16
• Study Completion Date: 2023-12-31

Brief Summary

An experimental mechanistic study. The overall objective is to gain new knowledge about mechanisms involved in adaptation to recurrent hypoglycaemia in diabetes by investigating patients with type 1 diabetes and healthy controls. The knowledge to be obtained may feed into experimental hypoglycaemic clamp studies to further elucidate the effect of the adaptations during acute hypoglycaemia. Ultimately, it may lead to intervention studies aiming at the maintenance of functional capability during hypoglycaemia in patients with type 1 diabetes to reduce their risk of severe hypoglycaemia.

Detailed Description

Study rationale The risk of severe hypoglycaemia is a major daily concern for people with diabetes treated with insulin. Severe hypoglycaemia is the main barrier in achieving the recommended glycaemic targets and may indirectly be the main driver for late diabetic complications and related morbidity, mortality and health care costs. In people with diabetes, recurrent exposure to insulin-induced mild hypoglycaemia leads to significant adaptive physiologic responses. While the metabolism of the brain and hormonal responses to hypoglycaemia have been studied extensively, this study will as the first, systematically investigate the chronic adaptation of peripheral metabolism to recurrent hypoglycaemia in diabetes. Knowledge about such responses can lead to interventions that attenuate the devastating effects of acute hypoglycaemia induced by insulin in people with diabetes. Thereby, the risk of developing severe hypoglycaemia can be reduced which ultimately will improve long-term diabetes outcomes and reduce health care costs.

Hypothesis Patients with type 1 diabetes that are exposed to high-frequent recurrent hypoglycaemia will adapt their metabolism in a way, which supports the preservation of brain fuelling.

Objectives

Primary objective The overall objective is to gain new knowledge about mechanisms involved in adaptation to recurrent hypoglycaemia in diabetes by investigating patients with type 1 diabetes and healthy controls. The knowledge to be obtained may feed into experimental hypoglycaemic clamp studies to further elucidate the effect of the adaptations during acute hypoglycaemia. Ultimately, it can lead to intervention studies aiming at the maintenance of functional capability during hypoglycaemia in patients with type 1 diabetes to reduce their risk of severe hypoglycaemia.

Secondary objectives

• To study the metabolic consequences of recurrent hypoglycaemia in the brain, liver, muscle and adipose tissues
• To study the consequences of recurrent hypoglycaemia on resting metabolic rest
• To study the consequences of recurrent hypoglycaemia on glucagon and adrenaline sensitivity
• To study the consequences of recurrent hypoglycaemia on epigenetic profiles
• To study the consequences of recurrent hypoglycaemia on oxidative stress
• To study the psychological factors associated with recurrent hypoglycaemia

Conditions

Type1diabetes

Study Design

• Allocation Method: NON_RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: BASIC_SCIENCE
• Blinding Strategy: NONE

Study Groups

Participants with Type 1 Diabetes Mellitus

Participants with Type 1 Diabetes Mellitus

Group Type: EXPERIMENTAL

insulin human

Intervention Type: DRUG

Hyperinsulinemic glucose clamp studies require that insulin is administered at a steady continuous rate to achieve stable levels of hyperinsulinemia. To reach this, insulin needs to be infused intravenously using a standard intravenous pump system. The insulin dose will be adjusted according to the body surface area, aiming for insulin levels of \~170 mIU/l, which is within the physiological range. Thus, for a subject with a bodyweight of 70 kg, body length of 180 cm and - consequently - a body surface area of 1.936 m2, the required insulin infusion can be calculated as: 1.936 x 60 x 60 ÷ 1000 = 7.0 units per hour

Epinephrin

Intervention Type: DRUG

Epinephrine are prepared in 100 ml isotone saline solution according to weight and infused in 3 different infusion rates: 10 ng∙kg-1∙min-1, 25 ng∙kg-1∙min-1 and 50 ng∙kg-1∙min-1, for 20 minutes each. After each adrenaline infusion, substrate response will be measured by blood samples of glucose, lactate, free fatty acids, alanine, β-hydroxybutyrate, glycerol and insulin. Furthermore, cardiovascular measurements such as pulse and blood pressure are monitored as well.

Muscle biopsy

Intervention Type: PROCEDURE

With the study subject resting in the supine position, the skin is disinfected on the lateral side of the thigh around 15 cm above the knee, with chlorhexidine alcohol. Then 3-4 mL of local anaesthetic (lidocaine 20 mg/mL) is injected into the skin, subcutaneous tissue and in the upper part of the muscle with a very thin needle. When the anaesthetic effect has set in after a couple of minutes an insertion is made in the skin and the subcutaneous tissue through which the biopsy cannula is inserted into the muscle. A small piece (around 150 mg) of the muscle is collected, which may be experienced as somewhat unpleasant, but will last for a very short while ( \~1-2 seconds). The needle is removed, a sterile Band-Aid is applied, and the study subject can leave the site after termination of the trial. The biopsy may cause some muscular tenderness for 2-3 days corresponding to minor muscular trauma.

Adipose tissue biopsy

Intervention Type: PROCEDURE

With the study subject resting in the supine position, the skin is disinfected on one side of the abdomen around 5-10 cm lateral from the umbilicus to the knee, with chlorhexidine alcohol. Then 3-4 mL of local anaesthetic (lidocaine 20 mg/mL) is injected into the skin, subcutaneous tissue and in the upper part of the adipose tissue with a very thin needle. When the anaesthetic effect has set in after a couple of minutes an insertion is made in the skin and the subcutaneous tissue through which the biopsy cannula is inserted into the adipose tissue. A small piece (around 1 gram) of the adipose tissue is collected, which may be experienced as somewhat unpleasant, but will last for a very short while ( \~1-2 seconds). The needle is removed, a sterile Band-Aid is applied, and the study subject can leave the site after termination of the trial. The biopsy may cause some tenderness for 2-3 days corresponding to minor trauma.

Glucagon

Intervention Type: DRUG

Glucagon is prepared in doses of 10 µg, 25 µg, and 50 µg and intravenously injected with intervals of 2 hours. After each glucagon injection, blood samples will be drawn to measure plasma glucose, glucagon, lactate, free fatty acids, alanine, amino-acids, β-hydroxybutyrate, glycerol and insulin. Furthermore, cardiovascular measurements such as pulse and blood pressure are monitored as well.

IPRO 2 Medtronic Minimed

Intervention Type: DEVICE

All potential subjects will receive a blinded continuous glucose sensor at Visit 1. At the following visits, the continuous glucose monitor (CGM) will be reviewed for hypoglycaemia episodes and replaced at the same time. At Visit 2 a final screening of the inclusion criteria will take place, which involves the CGM data of the first week. A blinded CGM will be installed a week before every visit.

7 Tesla (7T) Magnetic Resonance Imaging

Intervention Type: PROCEDURE

Subjects will undergo a hyperinsulinemic euglycaemic glucose clamp, as mentioned above, in the MRI scanning room. After 30 minutes of stable normoglycaemia, subjects are taken into the MRI scanner (Philips Achieva 7.0 T) where brain, liver, thigh and calf muscle are scanned. After every anatomically different area, the subjects must be taken out of the scanner, while scanning coils are replaced. All subjects are advised to lie still and press the alarm button if necessary.

Indirect Calorimetry using Jaeger Oxycon Champion

Intervention Type: PROCEDURE

Resting metabolic rate will be estimated, after reaching stable plasma glucose level, via a hyperinsulinemic euglycaemic clamp, as mentioned above. This will be done by indirect calorimetry, using a ventilated hood system (Jaeger Oxycon Champion, software version 4.3, Jaeger, Mijnhardt). Subjects are instructed to lie down and rest for a period of 30 minutes. Subjects are also instructed not to move, talk or sleep unless necessary during the period of measurement. The recorded measurement after 5 minutes to 30 minutes will be used for analysis.

Core temperature and thermography using Thermovision SC645

Intervention Type: PROCEDURE

Thermography (Thermovision SC645, FLIR Systems, Wilsonville, OR, USA) is used to determine cutaneous vascular perfusion. Data is analogue-digital converted and sampled at 100 Hz (Powerlab, ADInstruments, Colorado Springs, CO, USA).

Freestyle Libre 2

Intervention Type: DEVICE

All potential subjects will receive a continuous glucose sensor at Visit 1. At the following visits, the CGM will be reviewed for hypoglycaemia episodes and replaced at the same time. At Visit 2 a final screening of the inclusion criteria will take place, which involves the CGM data of the first week. A CGM will be installed a week before every visit.

Healthy Controls

Healthy Controls

Group Type: ACTIVE_COMPARATOR

insulin human

Intervention Type: DRUG

Hyperinsulinemic glucose clamp studies require that insulin is administered at a steady continuous rate to achieve stable levels of hyperinsulinemia. To reach this, insulin needs to be infused intravenously using a standard intravenous pump system. The insulin dose will be adjusted according to the body surface area, aiming for insulin levels of \~170 mIU/l, which is within the physiological range. Thus, for a subject with a bodyweight of 70 kg, body length of 180 cm and - consequently - a body surface area of 1.936 m2, the required insulin infusion can be calculated as: 1.936 x 60 x 60 ÷ 1000 = 7.0 units per hour

Epinephrin

Intervention Type: DRUG

Epinephrine are prepared in 100 ml isotone saline solution according to weight and infused in 3 different infusion rates: 10 ng∙kg-1∙min-1, 25 ng∙kg-1∙min-1 and 50 ng∙kg-1∙min-1, for 20 minutes each. After each adrenaline infusion, substrate response will be measured by blood samples of glucose, lactate, free fatty acids, alanine, β-hydroxybutyrate, glycerol and insulin. Furthermore, cardiovascular measurements such as pulse and blood pressure are monitored as well.

Muscle biopsy

Intervention Type: PROCEDURE

With the study subject resting in the supine position, the skin is disinfected on the lateral side of the thigh around 15 cm above the knee, with chlorhexidine alcohol. Then 3-4 mL of local anaesthetic (lidocaine 20 mg/mL) is injected into the skin, subcutaneous tissue and in the upper part of the muscle with a very thin needle. When the anaesthetic effect has set in after a couple of minutes an insertion is made in the skin and the subcutaneous tissue through which the biopsy cannula is inserted into the muscle. A small piece (around 150 mg) of the muscle is collected, which may be experienced as somewhat unpleasant, but will last for a very short while ( \~1-2 seconds). The needle is removed, a sterile Band-Aid is applied, and the study subject can leave the site after termination of the trial. The biopsy may cause some muscular tenderness for 2-3 days corresponding to minor muscular trauma.

Adipose tissue biopsy

Intervention Type: PROCEDURE

With the study subject resting in the supine position, the skin is disinfected on one side of the abdomen around 5-10 cm lateral from the umbilicus to the knee, with chlorhexidine alcohol. Then 3-4 mL of local anaesthetic (lidocaine 20 mg/mL) is injected into the skin, subcutaneous tissue and in the upper part of the adipose tissue with a very thin needle. When the anaesthetic effect has set in after a couple of minutes an insertion is made in the skin and the subcutaneous tissue through which the biopsy cannula is inserted into the adipose tissue. A small piece (around 1 gram) of the adipose tissue is collected, which may be experienced as somewhat unpleasant, but will last for a very short while ( \~1-2 seconds). The needle is removed, a sterile Band-Aid is applied, and the study subject can leave the site after termination of the trial. The biopsy may cause some tenderness for 2-3 days corresponding to minor trauma.

Glucagon

Intervention Type: DRUG

Glucagon is prepared in doses of 10 µg, 25 µg, and 50 µg and intravenously injected with intervals of 2 hours. After each glucagon injection, blood samples will be drawn to measure plasma glucose, glucagon, lactate, free fatty acids, alanine, amino-acids, β-hydroxybutyrate, glycerol and insulin. Furthermore, cardiovascular measurements such as pulse and blood pressure are monitored as well.

IPRO 2 Medtronic Minimed

Intervention Type: DEVICE

All potential subjects will receive a blinded continuous glucose sensor at Visit 1. At the following visits, the continuous glucose monitor (CGM) will be reviewed for hypoglycaemia episodes and replaced at the same time. At Visit 2 a final screening of the inclusion criteria will take place, which involves the CGM data of the first week. A blinded CGM will be installed a week before every visit.

7 Tesla (7T) Magnetic Resonance Imaging

Intervention Type: PROCEDURE

Subjects will undergo a hyperinsulinemic euglycaemic glucose clamp, as mentioned above, in the MRI scanning room. After 30 minutes of stable normoglycaemia, subjects are taken into the MRI scanner (Philips Achieva 7.0 T) where brain, liver, thigh and calf muscle are scanned. After every anatomically different area, the subjects must be taken out of the scanner, while scanning coils are replaced. All subjects are advised to lie still and press the alarm button if necessary.

Indirect Calorimetry using Jaeger Oxycon Champion

Intervention Type: PROCEDURE

Resting metabolic rate will be estimated, after reaching stable plasma glucose level, via a hyperinsulinemic euglycaemic clamp, as mentioned above. This will be done by indirect calorimetry, using a ventilated hood system (Jaeger Oxycon Champion, software version 4.3, Jaeger, Mijnhardt). Subjects are instructed to lie down and rest for a period of 30 minutes. Subjects are also instructed not to move, talk or sleep unless necessary during the period of measurement. The recorded measurement after 5 minutes to 30 minutes will be used for analysis.

Core temperature and thermography using Thermovision SC645

Intervention Type: PROCEDURE

Thermography (Thermovision SC645, FLIR Systems, Wilsonville, OR, USA) is used to determine cutaneous vascular perfusion. Data is analogue-digital converted and sampled at 100 Hz (Powerlab, ADInstruments, Colorado Springs, CO, USA).

Interventions

insulin human

Hyperinsulinemic glucose clamp studies require that insulin is administered at a steady continuous rate to achieve stable levels of hyperinsulinemia. To reach this, insulin needs to be infused intravenously using a standard intravenous pump system. The insulin dose will be adjusted according to the body surface area, aiming for insulin levels of \~170 mIU/l, which is within the physiological range. Thus, for a subject with a bodyweight of 70 kg, body length of 180 cm and - consequently - a body surface area of 1.936 m2, the required insulin infusion can be calculated as: 1.936 x 60 x 60 ÷ 1000 = 7.0 units per hour

Intervention Type: DRUG

Epinephrin

Epinephrine are prepared in 100 ml isotone saline solution according to weight and infused in 3 different infusion rates: 10 ng∙kg-1∙min-1, 25 ng∙kg-1∙min-1 and 50 ng∙kg-1∙min-1, for 20 minutes each. After each adrenaline infusion, substrate response will be measured by blood samples of glucose, lactate, free fatty acids, alanine, β-hydroxybutyrate, glycerol and insulin. Furthermore, cardiovascular measurements such as pulse and blood pressure are monitored as well.

Intervention Type: DRUG

Muscle biopsy

With the study subject resting in the supine position, the skin is disinfected on the lateral side of the thigh around 15 cm above the knee, with chlorhexidine alcohol. Then 3-4 mL of local anaesthetic (lidocaine 20 mg/mL) is injected into the skin, subcutaneous tissue and in the upper part of the muscle with a very thin needle. When the anaesthetic effect has set in after a couple of minutes an insertion is made in the skin and the subcutaneous tissue through which the biopsy cannula is inserted into the muscle. A small piece (around 150 mg) of the muscle is collected, which may be experienced as somewhat unpleasant, but will last for a very short while ( \~1-2 seconds). The needle is removed, a sterile Band-Aid is applied, and the study subject can leave the site after termination of the trial. The biopsy may cause some muscular tenderness for 2-3 days corresponding to minor muscular trauma.

Intervention Type: PROCEDURE

Adipose tissue biopsy

With the study subject resting in the supine position, the skin is disinfected on one side of the abdomen around 5-10 cm lateral from the umbilicus to the knee, with chlorhexidine alcohol. Then 3-4 mL of local anaesthetic (lidocaine 20 mg/mL) is injected into the skin, subcutaneous tissue and in the upper part of the adipose tissue with a very thin needle. When the anaesthetic effect has set in after a couple of minutes an insertion is made in the skin and the subcutaneous tissue through which the biopsy cannula is inserted into the adipose tissue. A small piece (around 1 gram) of the adipose tissue is collected, which may be experienced as somewhat unpleasant, but will last for a very short while ( \~1-2 seconds). The needle is removed, a sterile Band-Aid is applied, and the study subject can leave the site after termination of the trial. The biopsy may cause some tenderness for 2-3 days corresponding to minor trauma.

Intervention Type: PROCEDURE

Glucagon

Glucagon is prepared in doses of 10 µg, 25 µg, and 50 µg and intravenously injected with intervals of 2 hours. After each glucagon injection, blood samples will be drawn to measure plasma glucose, glucagon, lactate, free fatty acids, alanine, amino-acids, β-hydroxybutyrate, glycerol and insulin. Furthermore, cardiovascular measurements such as pulse and blood pressure are monitored as well.

Intervention Type: DRUG

IPRO 2 Medtronic Minimed

All potential subjects will receive a blinded continuous glucose sensor at Visit 1. At the following visits, the continuous glucose monitor (CGM) will be reviewed for hypoglycaemia episodes and replaced at the same time. At Visit 2 a final screening of the inclusion criteria will take place, which involves the CGM data of the first week. A blinded CGM will be installed a week before every visit.

Intervention Type: DEVICE

7 Tesla (7T) Magnetic Resonance Imaging

Subjects will undergo a hyperinsulinemic euglycaemic glucose clamp, as mentioned above, in the MRI scanning room. After 30 minutes of stable normoglycaemia, subjects are taken into the MRI scanner (Philips Achieva 7.0 T) where brain, liver, thigh and calf muscle are scanned. After every anatomically different area, the subjects must be taken out of the scanner, while scanning coils are replaced. All subjects are advised to lie still and press the alarm button if necessary.

Intervention Type: PROCEDURE

Indirect Calorimetry using Jaeger Oxycon Champion

Resting metabolic rate will be estimated, after reaching stable plasma glucose level, via a hyperinsulinemic euglycaemic clamp, as mentioned above. This will be done by indirect calorimetry, using a ventilated hood system (Jaeger Oxycon Champion, software version 4.3, Jaeger, Mijnhardt). Subjects are instructed to lie down and rest for a period of 30 minutes. Subjects are also instructed not to move, talk or sleep unless necessary during the period of measurement. The recorded measurement after 5 minutes to 30 minutes will be used for analysis.

Intervention Type: PROCEDURE

Core temperature and thermography using Thermovision SC645

Thermography (Thermovision SC645, FLIR Systems, Wilsonville, OR, USA) is used to determine cutaneous vascular perfusion. Data is analogue-digital converted and sampled at 100 Hz (Powerlab, ADInstruments, Colorado Springs, CO, USA).

Intervention Type: PROCEDURE

Freestyle Libre 2

All potential subjects will receive a continuous glucose sensor at Visit 1. At the following visits, the CGM will be reviewed for hypoglycaemia episodes and replaced at the same time. At Visit 2 a final screening of the inclusion criteria will take place, which involves the CGM data of the first week. A CGM will be installed a week before every visit.

Intervention Type: DEVICE

Other Intervention Names

Actrapid; Adrenalin; GlucaGen; Blinded Continuous Glucose Monitoring; 7T MRI; Intermittently scanned continuous glucose monitor

Eligibility Criteria

Inclusion Criteria

1. Ability to provide written informed consent

2. Male or female aged 18-70 years

3. Must be able to speak and read Danish

4. Type 1 diabetes patients or healthy individuals (control goup)

5. A documented clinically relevant history of type 1 diabetes

6. In insulin treatment regimen

7. The subject must be willing and able to comply with trial protocol

Exclusion Criteria

1. History of severe psychological condition

2. History of severe heart disease

3. History of epilepsy, former apoplexies and dementia

4. History of muscle diseases

5. History of liver disease

6. History of malignancy unless a disease-free period exceeding 5 years

7. Implants not compatible for MRI scans

8. History of alcohol or drug abuse

9. Pregnant or lactating woman

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 70 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

Danish Research Centre for Magnetic Resonance

OTHER

Sponsor Role: collaborator

University of Copenhagen

OTHER

Sponsor Role: collaborator

Steno Diabetes Center Copenhagen

OTHER

Sponsor Role: collaborator

Nordsjaellands Hospital

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Ulrik Pedersen-Bjergaard, MD,PhD,Prof

Role: PRINCIPAL_INVESTIGATOR

Nordsjaellands Hospital

Locations

Steno Diabetes Center Copenhagen

Gentofte Municipality, , Denmark

Nordsjaellands Hospital

Hillerød, , Denmark

Countries

Denmark

References

She R, Suvitaival T, Andersen HU, Hommel E, Norgaard K, Wojtaszewski JFP, Legido-Quigley C, Pedersen-Bjergaard U. Metabolic effect of adrenaline infusion in people with type 1 diabetes and healthy individuals. Diabetologia. 2024 Jun;67(6):1095-1106. doi: 10.1007/s00125-024-06116-5. Epub 2024 Mar 1.

Reference Type: DERIVED

PMID: 38427076 (View on PubMed)

Other Identifiers

2019-001938-34

Identifier Type: EUDRACT_NUMBER

Identifier Source: secondary_id

DRCMR7T-06

Identifier Type: -

Identifier Source: org_study_id