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Clinical Trial Details — Status: Not yet recruiting

Administrative data

NCT number NCT06422494
Other study ID # 115142
Secondary ID
Status Not yet recruiting
Phase N/A
First received
Last updated
Start date September 2024
Est. completion date October 2025

Study information

Verified date May 2024
Source Radboud University Medical Center
Contact Ilyas Mustafajev, M.D.
Phone 0629669369
Email ilyas.mustafajev@radboudumc.nl
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The goal of this trial is to study the effect that adrenaline has on the immune reaction seen during a low blood sugar. People with type 1 diabetes do not produce their own insulin. The cells in the pancreas that produce insulin are destroyed. People with type 1 diabetes require daily insulin administration. As a consequence of this insulin therapy the blood sugar can dip too low, causing symptoms such as confusion, irritation and tiredness. This is called hypoglycaemia. Hypoglycaemia has been associated with an increased risk for cardiovascular disease such as heart attacks. During hypoglycaemia the immune system is activated. The immune system consists of white blood cells which produce cytokines, these are proteins used to kill pathogens such as bacteria. During hypoglycaemia there are no pathogens but the cytokines are still produced, leading to unwanted damage. A previous study performed by our research group showed that the immune system activation caused by hypoglycaemia is associated with the stress hormone adrenaline. Adrenaline is released by the body in moments of stress such as during running or bungee jumping. Adrenaline is also released by the body during hypoglycaemia to increase the sugar level. Our hypothesis is that adrenaline activates the immune system during hypoglycaemia. Adrenaline acts in the body through two receivers, these are called alpha and beta receptors. These are present on almost all cells in the body especially on the immune cells. With the study we want to study the situation where there is a hypoglycaemia without the adrenaline. We will achieve this by lowering the blood sugar in participants. During the low blood sugar we will administer two drugs, which will attach themselves to the adrenaline receivers, the alpha and beta receptor. With this method we hope to block the adrenaline effects and with that block the immune response caused by adrenaline.


Description:

Rationale: Hypoglycaemia has shown to cause a sustained pro-inflammatory response which could promote a pro-atherogenic state and explain the association between hypoglycaemia and cardiovascular events. This pro-inflammatory response has been linked to the adrenaline response to hypoglycaemia. Adrenergic blockade with α and β adrenergic receptor antagonists (ARA) has shown to blunt the leukocyte response after hypoglycaemia induction and adrenaline administration. Whether and to what degree a combined blockade blunts the hypoglycaemia induced pro-inflammatory response is unknown. Objective: to examine the effect of adrenergic inhibition on the hypoglycaemia induced inflammatory response (e.g. leukocyte phenotype, cytokines, inflammatory proteins) by performing a hyperinsulinaemic hypoglycaemic glucose clamp alongside infusion of α-ARA and β-ARA. Secondary objectives consist of the effect of adrenergic blockade during hypoglycaemia on atherogenic parameters and glucose metrics ( e.g. time in range). Study design: Intervention study with a cross-over design Study population: Potentially eligible adult ( 16 - 75 years) participants will be recruited through social media, the Radboudumc outpatient clinic and other advertisements. We will recruit a total of 24 individuals, i.e. 12 healthy participants and 12 participants with type 1 diabetes. Participants with type 1 diabetes will be twice ( as there are two investigational days) equipped with a blinded continuous glucose monitoring device (CGM) during the test, which will measure interstitial glucose levels for a total of 10 days. Intervention: All participants will undergo a hyperinsulinaemic hypoglycaemic glucose clamp ( nadir 2.8 mmol/L). During the clamp the participants will be randomized to receive an infusion of saline or an infusion of phentolamine and propranolol. This will be done using a cross-over design. The participants will undergo both the saline and adrenergic blockade. Main study parameters/endpoints: The main study parameter will be the monocyte count after 60 minutes hyperinsulinaemic hypoglycaemic clamp and adrenergic blockade during the clamp.


Recruitment information / eligibility

Status Not yet recruiting
Enrollment 24
Est. completion date October 2025
Est. primary completion date September 2025
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 16 Years to 75 Years
Eligibility Inclusion Criteria: - Overall inclusion criteria: - Ability to provide written informed consent - Body-Mass Index: 18,5-35 kg/m2 - Age =16 years, = 75 years - Blood pressure: <140/90 mmHg - Non-smoking - Electrocardiogram not showing any serious arrythmias (premature ventricular complexes and premature atrial complexes accepted) Diabetes group specific criteria: - Insulin treatment according to basal-bolus insulin regimen (injections or insulin pump) - Duration of diabetes > 1 year - HbA1c < 100 mmol/mol, Exclusion Criteria: - Any event of cardiovascular disease in the past 5 years (e.g. myocardial infarction, stroke, symptomatic peripheral arterial disease) - Pregnancy or breastfeeding or unwillingness to undertake measures for birth control - Active epilepsy ( with the need for treatment) - Allergy for sulphite - Active asthma with use of ß2-bronchodilators or obstructive lung disease - Current treatment with Alpha- or beta-blockers (e.g. doxazosin, propranolol) - History of clinical significant Arrhythmias - Use of immune-modifying drugs or antibiotics - Use of antidepressants ( Including monoamine oxidase inhibitors, tricyclic antidepressants and serotonin-reuptake inhibitors) - Use of antipsychotics - Use of statins with the inability to stop statins >2 weeks before the investigational day. - Proliferative retinopathy - Nephropathy with an estimated glomerular filtration rate (by Chronic Kidney Disease Epidemiology Collaboration equation, CKD-EPI) ?60ml/min/1.73m2

Study Design


Intervention

Drug:
hyperinsulinaemic hypoglycaemic clamp
Insulin will be infused at a continuous rate of 60 mU·m-2 ·min-1 and glucose 20% will be infused at a variable rate, aiming for stable plasma glucose levels of 5.0 mmol/L. The infusion rate of glucose will be adjusted by plasma glucose levels, measured at 5-minute intervals. After 30 minutes of stable euglycaemia, plasma glucose levels will be allowed to drop gradually to 2.8 mmol/L and will be maintained at this level for 60 minutes. Then, insulin infusion and adrenergic blockade infusions will be stopped. Glucose infusion will be increased and then tapered until stable euglycaemia plasma levels are reached.
Propranolol Hydrochloride 1 MG/ML
When euglycaemic level of 5.0mmol/L is achieved we will start the adrenergic blockade which will continue throughout euglycaemia and hypoglycaemia. The participants will be administered a bolus of phentolamine of 70µg/kg followed by a dose of 7.0µg/kg/min continuous infusion and a bolus of propranolol of 14µg/kg followed by a dose of 1.4µg/kg/min.
Phentolamine
When euglycaemic level of 5.0mmol/L is achieved we will start the adrenergic blockade which will continue throughout euglycaemia and hypoglycaemia. The participants will be administered a bolus of phentolamine of 70µg/kg followed by a dose of 7.0µg/kg/min continuous infusion and a bolus of propranolol of 14µg/kg followed by a dose of 1.4µg/kg/min.

Locations

Country Name City State
n/a

Sponsors (1)

Lead Sponsor Collaborator
Radboud University Medical Center

Outcome

Type Measure Description Time frame Safety issue
Other HbA1c expressed in mmol/L At screening
Other Serum creatinine for kidney function expressed in umol/L Once at the screening at least 1 week before the hypoglycaemia
Other Vitals ( blood pressure and heart rate) Measured by automatic sphygmomanometer At both investigational days, every 15 minutes during each investigational day for a total of 8 hours.
Other Body mass index Using length and weight expressed in kg/m^2 Once at the screening at least 1 week before the hypoglycaemia
Other Age Once at the screening at least 1 week before the hypoglycaemia
Other Sex Male or female Once at the screening at least 1 week before the hypoglycaemia
Other Duration of diabetes ( years) Once at the screening at least 1 week before the hypoglycaemia
Primary Monocyte count after 60 minutes of hypoglycaemia and adrenergic blockade The number of monocytes following 60 minutes hypoglycaemia and adrenergic blockade compared to baseline. Adrenergic blockade using Phentolamine and Propranolol intravenously. Expressed in 10^3/µl measured using a sysmex machine. After 60 minutes of hypoglycaemia and adrenergic blockade
Secondary Leukocyte count at the time points Leukocyte count at the time points 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia, +1 day, +3 days and 1 week after of hypoglycaemia (e.g. Monocytes, granulocytes, lymphocytes). 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia, +1 day, +3 days and 1 week after of hypoglycaemia
Secondary Ex vivo production of pro- and anti-inflammatory cytokines and chemokines Ex vivo production of pro- and anti-inflammatory cytokines and chemokines after ex vivo stimulation of isolated leukocytes, including Tumor necrosis factor-a, Interleukin-6, Interleukin-10 and Interleukin-1ß, 1ß 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia, +1 day, +3 days and 1 week after of hypoglycaemia
Secondary 92 circulating inflammatory proteins 92 circulating inflammatory proteins using Olink Proteomics inflammation panel 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Inflammatory plasma protein ( e.g. high-sensitive crp) Inflammatory plasma protein using ELISA,(e.g high sensitive-crp) 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Atherogenic parameters Atherogenic parameters using ELISA including but not limited to, vascular endothelial cell adhesion molecule-1, vascular endothelial cell adhesion molecule-1, E-Selectin, P-selectin, Plasminogen activator inhibitor-1, Plasma Endothelin 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Plasma levels of hormones Plasma levels of hormones ( Cortisol, insulin, glucagon, growth-hormone, adrenaline, noradrenaline) 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Amount of hypoglycaemic events measured by the blinded continuous glucose monitor Amount of events During the full study, 3 days before and 7 days after each investigational day
Secondary Variability measured by the blinded continuous glucose monitor Variability of glucose expressed as a standard deviation of the mean glucose During the full study, 3 days before and 7 days after each investigational day
Secondary Average glucose measured by the blinded continuous glucose monitor Average glucose during the 10 days of measuring expressed as mmol/L During the full study, 3 days before and 7 days after each investigational day
Secondary Time in range measured by the blinded continuous glucose monitor Amount of time that glucose is between 3.8 and 10 mmol/L expressed as a percentage During the full study, 3 days before and 7 days after each investigational day
Secondary Amount of plasma glycerol Amount of plasma glycerol during and after hypoglycaemia 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Amount of Non-esterified fatty acids Amount of Non-esterified fatty acids (NEFAs) during and after hypoglycaemia 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Untargeted metabolomics profiling Measuring a panel of amino acids 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Gene expression changes in leukocytes Gene expression changes in leukocytes (e.g. using RNA sequencing, quantitative PCR) 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Epigenetic changes in leukocytes Epigenetic changes in leukocytes (e.g. using Assay for Transposase- Accessible Chromatin using sequencing (ATACseq), DNA methylation analysis) 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Functional changes in monocytes Functional changes in monocytes (e.g. using adhesion assays, differentiation experiments) 0, 30 minutes after euglycaemia, 60 minutes during hypoglycaemia
Secondary Adrenergic symptoms assessed using the validated Edinburgh Hypoglycaemia Score 0, 30 minutes after euglycaemia, 30 minutes and 60 minutes during hypoglycaemia
Secondary Hypoglycaemia awareness using the modified Clarke score At screening
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