Renal Insufficiency, Chronic Clinical Trial
Official title:
The Incretin Effect in Non-diabetic Patients With Severe Renal Impairment Depending on Chronic Dialysis Treatment
The current study explores the incretin effect; a central mechanism of sugar metabolism. People with type 2 diabetes have a markedly reduced incretin effect, while the incretin effect never has been studied in patients with severe chronic renal failure. Non-diabetic patients with severe kidney failure and patients with diabetes and normal kidney function share several pathophysiological traits, including decreased sensitivity to insulin, fasting hyperinsulinaemia and impaired beta cell function. The investigators expect the incretin effect to be affected in patients with chronic renal failure without diabetes, which in time can result in therapeutic changes in this group of patients.
The novel and original aspect of this investigator initiated study is the focus on incretin
(patho)physiology in an uraemic milieu. In this first of 5 substudies (separate notification
and registration) the investigators explore the incretin effect. Our hypothesis is that it
is impaired in non-diabetic patients in chronic dialysis treatment.
The prevalence of type 2 diabetes mellitus (T2DM) is rapidly increasing worldwide. In
addition to reduced insulin sensitivity and beta cell dysfunction, T2DM is characterized by
a severely impaired incretin effect. The incretin effect refers to the insulinotropic action
of the nutrient-released incretin hormones glucagon-like peptide-1 (GLP-1) and
glucose-dependent insulinotropic peptide (GIP). Both hormones are secreted from intestinal
endocrine mucosal cells. The incretin effect is defined as the difference in insulin
secretory responses between oral and isoglycaemic intravenous (iv) glucose challenges. In
healthy individuals it accounts for as much as 70% of insulin secreted in response to oral
glucose, whereas patients with T2DM exhibit an incretin effect in the range of 0 to 30%. The
incretin hormone GLP-1 has a potent blood glucose-lowering effect in patients with T2DM.
However, following secretion of GLP-1, the ubiquitous enzyme dipeptidyl peptidase-4 (DPP-4)
rapidly cleaves the hormone, by which it is completely inactivated. This has formed the
basis for new pharmacological agents blocking DPP-4 (DPP-4 inhibitors) or DPP-4 resistant
GLP-1 receptor agonists. Long-term treatment has showed positive effect on glycaemic control
and risk factors of cardiovascular diseases in patients with T2DM.
These effects may be applicable also in patients with end-stage renal disease (ESRD) because
patients with T2DM and normal kidney function and non-diabetic patients with ESRD show
several identical characteristics. These include decreased insulin sensitivity,
hyperinsulinaemia and impaired beta cell function. The incretin effect has only to a small
extent been investigated in patients with ESRD.
The single most frequent cause of ESRD and need of chronic maintenance dialysis is diabetic
nephropathy. In the U.S. more than 50% of patients in dialysis have diabetes compared with
about 23% in Denmark. The life expectancy of dialysis patients with T2DM is severely reduced
with a median survival of 2 to 4 years and there is no treatment documented to significantly
improve this poor prognosis. The most common cause of death in this group of patients is
related to cardiovascular disease that seems to result from death of causes different from
classical atherosclerosis. So far intervention directed towards hypertension, dyslipidaemia
and other classical risk factors have showed divergent and primarily negative results.
There is therefore an unmet medical need to find new treatments to protect these patients
from cardiovascular disease and premature death.
Improving the glycaemic control using incretin-based therapies has the potential to meet
this medical need. The incretin hormones and their metabolites are however to a large extent
excreted by the kidneys and this may lead to problems (or benefits!) when administered to
patients without kidney function or with severely reduced kidney function. The present
knowledge about the incretin effect and incretin hormone physiology as well as
pharmacokinetics, clinical effects and side effects of GLP-1 analogues in patients with
reduced kidney function is limited and the few studies available are predominantly confined
to patients with only mild or moderately reduced kidney function. The investigators will
explorer basic and pharmacologic aspects in patients with severe reduced kidney function
depending on chronic maintenance dialysis treatment. Before any potential treatment can be
initiated, the investigators need basic information on how the incretin system is affected
by an uraemic milieu. Current and succeeding substudies will provide us with that
information.
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