Patients accepted for the waiting list for single pancreas transplantation suffer from severe glucose instability with hyperglycemia due to diabetes type 1, but do not have significant diabetes-related complications. Pancreas transplantation restores normoglycemia in diabetes type 1 patients with unstable control of glycemia. Both hypo- and hyperglycemic events are abolished, and 70-80 % of the patients obtain satisfactory HbA1c levels (HbA1c 5.0-6.0 %) without the need of exogenous insulin. Endothelial dysfunction is considered as an early and potentially reversible stage in the atherosclerotic process. The endothelium is involved in homeostasis, leucocyte adhesion and vasomotor activity. Reduced endothelium-dependent vasodilation is associated with increments in cardiovascular risk factors, and endothelial dysfunction is a predictor for future cardiovascular disease. It has also been hypothesized that endothelial dysfunction may be involved in the impaired glycemic control by reducing the availability of glucose in peripheral muscles.Establishing normoglycemia by pancreas transplantation alone in previously diabetic type 1 patients has recently been shown to improve left ventricular ejection fraction, assessed by Doppler echocardiographic examination. In diabetic patients receiving a new pancreas it is possible to assess the effect of changing blood glucose excursions on cardiovascular risk factors, including endothelial function, without the use of antidiabetic drugs (exclude pleiotropic effects). The primary objective of the present study is to assess if endothelial function (assessed by flow-mediated dilatation of arteria brachialis) is improved when hyperglycemia is reversed by single pancreas transplantation in patients with type 1 diabetes. Secondary objectives are to investigate the changes in the following parameters by reversal of hyperglycemia by pancreas transplantation; Peripheral arterial tonometry, serum/plasma concentrations of endothelial dysfunction markers, blood pressure, lipid and lipoprotein concentrations.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
35
Oslo University Hospital, Rikshospitalet
Oslo, Oslo County, Norway
Endothelial function
This is an explorative analysis to assess the impact of establishing normoglycemia in previously hyperglycemic patients, without using antidiabetic drugs, by investigating patients before and after single pancreas transplantation. Active patients on the waiting list for single pancreas transplantation will be investigated while on the waiting list and subsequently 8 weeks and 1 year after transplantation if they have a functioning pancreas graft. Flow-mediated dilatation (FMD) of large vessels (arteria brachialis) will be assessed by measuring vessel diameter by ultrasound and the FMD of micro vessels in the finger tip will be assessed by Endo-PAT (PAT=Peripheral Arterial Tonus) following reactive hyperperfusion induced by occlusion of the artery by a sphygmomanometer cuff.
Time frame: 1 year post-transplant
Peripheral arterial tonometry
Time frame: 1 year post-transplant
Changes in cardiac performance
An echocardiographic examination will be performed to assess changes in cardiac performance, such as left ventricular ejection fraction
Time frame: 1 year post-transplant
Pulse wave velocity (arterial stiffness)
Pulse wave velocity, using a SphygmoCor device, measuring arterial stiffness will be performed in addition to pulse wave analysis evaluating the shape and amplitude of the aortic pulse wave.
Time frame: 1 year post-transplant
Heart rate variability
Heart rate variability will be assessed, using a Vagus device, analyzing short-term electrocardiogram recordings.
Time frame: 1 year post-transplant
Plasma concentrations of endothelial dysfunction markers
Fasting plasma samples (6 mL EDTA vacutainer) will be drawn for determination of relevant markers for endothelial dysfunction, such as von Willebrand factors (vWF) and vascular cell adhesion molecule-1 (VCAM-1).
Time frame: 1 year post-transplant
Blood pressure
Blood pressure will be measured seated after ten minutes rest by Dyna Map (Tuff.-Cuff, CAS Medical system Inc.) and the mean of the lower two out of three measurements will be used.
Time frame: 1 year post-transplant
Lipid and lipoprotein concentrations
Time frame: 1 year post-transplant
Bone mineral density and body composition
Measurement of bone mineral density, using low dosage radiation (dual-energy X-ray absorptiometry (DEXA) scan) to assess the amount (grams) of mineral that are packed into a segment of bone. In addition a body composition (visceral fat, metabolic measurement) will be determined using the DEXA scan.
Time frame: 1 year post-transplant
Glomerular filtration rate
Renal function, defined as glomerular filtration rate, will be evaluated by measuring iohexol clearance. The concentration of iohexol (Omnipaque), a low dose non-ionic x-ray contrast medium of low osmolality, extensively used in clinical radiology and considered essentially free from side effects, will be measured 2 hours and 5 hours after iv injection of iohexol. Like other iodine-containing contrast media, it is completely eliminated from the body by excretion in the urine, thus it is an ideal marker for kidney function. It will be quantitated by chemical measurement based on the determination of iodine.
Time frame: 1 year post-transplant
Oral glucose tolerance test
Measurements of plasma glucose, C-peptide and serum insulin before, 30 and 120 minutes following an oral administration of 75 g glucose.
Time frame: 1 year post-transplant
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