Type 1 Diabetes Mellitus Clinical Trial
Official title:
Non Invasive Assessment of Liver Glycogen Kinetics and ATP Synthesis in Type1 Diabetics
Patients with Type 1 diabetes (T1DM) suffer from impaired postprandial hepatic glycogen
storage and breakdown, if they are under poor glycaemic control. Poor glycogen storage in
the liver puts these patients at risk of fasting hypoglycaemia. Amelioration of glycaemic
control could improve these abnormalities and thereby reduce the risk of hypoglycaemia in
these patients. The "gold standard" technique for the assessment of hepatic glycogen
metabolism in humans, 13 C magnetic resonance spectroscopy (13C-MRS), is expensive and
limited to a few centers worldwide. Furthermore, treated type 1 diabetic patients exhibit
skeletal muscle insulin resistance when treated insufficiently. This condition can also be
reversed by improvement of glycaemic control. Recent studies link skeletal muscle insulin
resistance to impaired mitochondrial function. Up to date, the impact of glycaemic control
on skeletal muscle mitochondrial function has not yet been assessed.
Aim 1 of our project is to establish a new assessment method for glycogen metabolism. This
new method is based on oral administration of 2H2O and acetaminophen.
Our second aim is to examine the impact of improvements of glycaemic control on skeletal
muscle mitochondrial function in type 1 diabetic patients.
Our third aim is to assess the ATP-synthesis in T1DM.
We will conduct a prospective study on 14 patients with type 1 diabetes and 14 healthy
controls.
On the respective study day, participants will be served three standardized meals, blood
sugar will be controlled hourly and blood samples will be drawn at timed intervals to
determine glucoregulatory hormones, metabolites and enrichments of [6,6-2H2]glucose.
During the night, four 13C-MRS-measurements will be performed in combination with
[6,6-2H2]glucose infusion to assess glucose production, glycogen breakdown and
gluconeogenesis.
In addition, patients will drink 3g/kg bodyweight 2H2O and acetaminophen will be
administered. Thus the new 2H2O-acetaminophen method will be applied simultaneously with the
"gold standard" method.
The following morning, mitochondrial function will be assessed in skeletal muscle from
unidirectional flux through ATP synthase by 31P MRS.
TIDM patients will be studied twice. First, under conditions of insufficient glycaemic
control and the second time after three months of intensified insulin treatment using CSII
pumps aiming at optimized metabolic control. Healthy controls will be studied only once.
To assess muscular mitochondrial function in T1DM we will measure ATP synthesis in a calf
muscle with magnetic resonance spectroscopy. First, we will conduct a basal measurement.
Thereafter, we will start a hyperinsulinaemic euglycemic calmp to stimulate the ATP
synthesis and measure again.
This study will provide information on rates of post absorptive glycogen breakdown,
gluconeogenesis, and postprandial glycogen storage in the liver and on the skeletal muscle
mitochondrial function under conditions of optimized glycaemic control for 3 months.
Finally, this study will demonstrate whether or not poorly controlled type 1 diabetic
patients exhibit abnormalities in muscle mitochondrial function and to what extent those
alterations can be reversed by optimized glycaemic control. We expect to validate the
2H2O-acetaminophen method, which will provide justification for a broad scale in clinical
studies.
Non-Invasive Assessment of Liver Glycogen-Kinetics in Type1 Diabetics
Background:
Hepatic glycogen is the principal short-term reserve for circulating glucose in humans. Up
to 50-60% of endogenous glucose production is derived from hepatic glycogenolysis during
overnight fasting. In healthy subjects, deprivation of hepatic glycogen by prolonged fasting
(60-65 hours) depresses fasting glucose production and plasma glucose levels approach the
hypoglycemic range. T1DM were shown to have lower rates of hepatic glycogen synthesis during
feeding and lower rates of glycogenolysis during fasting. Thus, this dangerous condition may
develop during overnight fasting.
Importantly, defective hepatic glycogen metabolism in T1D can be therapeutically restored,
suggesting that measurements of glycogen kinetics could be useful for evaluating both new
and existing therapies of glycemic control.
The accepted "gold standard" for hepatic glycogenolysis measurements in humans involves a
direct measurement of the natural abundance 13C hepatic glycogen signal using localized 13C
NMR on a high-field clinical whole body magnetic resonance system. This method is only
available in a handful of clinical research centers around the world.
Our proposed measurement is highly practical and relatively inexpensive since it involves
oral administration of a small amount of deuterated water (2H2O) tracer and a standard dose
of Acetaminophen. This new method is based on the analysis of deuterium enrichment of
urinary glucuronide, which is derived from the glucose moiety of hepatic UDP-glucose, the
immediate hexose precursor pool of glycogen synthesis.
To date, there have been no direct comparisons of the 2H2O measurement and clinical 13C MR
methods for quantifying rates of fasting glycogenolysis in T1D subjects.
Mitochondrial dysfunction assessed by impaired myocellular ATP synthesis, is associated with
insulin resistance in relatives of T2DM, in patients with overt T2DM and T1DM with poor
glycemic control. However it is yet unknown to what extend alterations in hyperglycemia
contribute to this abnormality. Our hypothesis is that improvement of hyperglycemia in type
1 diabetic patients who do dot suffer from genetically induced insulin resistance, will
increase myocellular ATP synthesis. Thus, this study will examine basal myocellular ATP
synthetic flux in patients with type 1 diabetes mellitus before and after improvement of
glycemic control. In addition, we will perform hyperinsulinaemic euglycemic clamp tests to
stimulate mitochondrial ATP synthesis.
Clinical Protocols:
Simultaneous in vivo 13C NMR and 2H2O-glucuronide measurements of hepatic glycogenolysis
(Vienna):
A total of 24 subjects consisting of 12 healthy controls and 12 TID patients, first, in
insufficient metabolic control (HbA1c 8.5-10.0%) and again after 3 months of intensified
insulin treatment using continuous subcutaneous insulin infusion (CSII pump) aiming at
optimized metabolic control (HbA1c <7.5%) will be studied following informed consent at the
MR Centre-of-Excellence, Medical University of Vienna.
All measurements will either take place in the Hanusch Hospital (Heinrich Collin Straße 30,
A-1140 Vienna) or the MR Center-of-Excellence at the General Hospital of
Vienna(Lazerettgasse 14, A-1090 Vienna).
For a 24 hour period before the study, T1D patients will be instructed to omit NPH or
Zn-insulin and only use regular insulin to control blood glucose concentrations.
On day 1, staring in the Hanusch Hospital, subjects will ingest 3 standard mixed meals (60%
CHO, 20% protein and 20% fat; 720kcal, 710kcal and 800kcal) at 08:00, 13:00 and 18.40. The
last meal will be served after transferring to the MR-Centre-of-Excellence and the first
MR-measurement.
Blood sugar will be controlled hourly and blood samples will be drawn at timed intervals to
determine glucoregulatory hormones and metabolites.
Subjects will be transferred periodically to the magnetic resonance spectroscopy unit, where
in vivo 13C NMR spectra lasting 1 hour will be performed at 17.30-18.30 (before dinner),
23:30-0:30, 02:00-03:00 and 06:50-07:50. There will be performed an additional 31P NMR
measurement to assess the intramyocellular ATP synthesis of the right leg between
05.30-06.30.
At 22:30, a 8-hour primed infusion of [6,6-2H2]glucose will be started. The priming dose of
5 mg/kg will be adjusted according to fasting blood glucose levels and will be followed by a
constant infusion of 0.05 mg/kg/min. Plasma samples will be collected twice before the
infusion starts and then from 0:30 -0:50, 3:10 - 3:30 and 6:30-6:50 in ten minutes intervals
respectively, to quantify enrichment of plasma [6,6-2H2]glucose.
At 23.00, subjects will ingest 2H2O to 0.3% body water and at 03:00, they will ingest 1000
mg Acetaminophen (Paracetamol).
At 6:00 the participants are instructed to void. This Urine will be collected as Urine 1.
Between 06:00 and 08:00, Urine will be collected for recovery of Acetaminophen glucuronide
(Urine2) at which point the study will finish. The urine will be evaporated, frozen and sent
to Coimbra for analysis.
After day one, intensified insulin treatment using continuous subcutaneous insulin infusion
(CSII pump) will start. Patients will be re-measured after three month according to the same
protocol.
Healthy controls will be examined only once.
ATP-synthesis will be measured on a separate study day. Patients and healthy controls will
be admitted to the MR-Centre-of-Excellence at 6:00 a.m. First, there will be a basal
measurement of ATP-synthesis. Thereafter, the clamp will be started and conducted for 4
hours. Then, the second 31P NMR measurement will be performed to assess whether ATP
synthesis can be stimulated in T1DM patients.
Participants will be released after a meal at 15:00
;
Allocation: Non-Randomized, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Basic Science
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