Type 1 Diabetes Mellitus Clinical Trial
Official title:
Insulin-like Growth Factor (IGF-I) Induced Muscle Glucose Uptake and Interstitial IGF-1 Concentrations.
Hormonal disturbances in the GH-IGF-I axis are considered important for the deterioration of
glycemic control in T1DM particularly in adolescents. In addition it may have direct
implications on the development of insulin resistance and long-term complications.
The Investigators hypothesis is that low circulating IGF-I and compensatory hyper-secretion
of GH, in the presence of peripheral insulin excess, results in increased local IGF-I
expression explaining both the deterioration in metabolic control and the increased risk for
microvascular complications. Correction of imbalance in circulating and tissue-specific
levels of IGF-I could lead to both better early metabolic control and to prevention of early
diabetic complications in type 1 diabetic (T1DM) patients.
Aim of the present study is to validate the microdialysis technique as a useable tool to
predict local biological effects of IGF-1 and to understand the pharmacokinetics of local
IGF-I actions after sc injection of Increlex in type 1 diabetic patients.
Background:
In healthy subjects, the liver extracts approximately 50 % of insulin. Therefore insulin
given subcutaneously results in a relative insulin deficiency in the portal circulation of
the liver, and a relative insulin excess in peripheral tissues. In comparison, normal
physiological delivery of insulin from the pancreas to the portal circulation, results in
markedly higher hepatic insulin exposure. The importance of hepatic insulin exposure for GH
induced IGF-I synthesis comes from studies demonstrating that circulating IGF-I levels can
be normalized by direct portal insulin infusion (1) or nearly normalized with
intra-peritoneal insulin delivery (2). Approximately 80 % of circulating IGF-I is liver
derived. Whether the GH induction of IGF-I production in other tissues such as fat, muscle
and the growth plate is also insulin dependent has not been studied in humans. While locally
produced IGF-I is important for linear growth, circulating IGF-I is essential for insulin
sensitivity (3). Portal insulin deficiency results in uncoupling of GH induced IGF-I
synthesis and subnormal circulating IGF-I levels in T1DM children with conventional therapy
(4).
In newly diagnosed T1DM subcutaneous insulin treatment increases circulating IGF-I (5). The
beneficial effects of 12 weeks adjuvant IGF-I treatment on metabolic control was
demonstrated in conventionally insulin treated T1DM adolescents (6). There is also strong
evidence for the role of IGF-I in the pathogenesis of diabetic kidney disease,
atherosclerosis and proliferative retinopathy (7, 8, 9).
Interestingly, recent reports suggest an important role of IGF-I in stimulating beta cell
regeneration (10). Thus a role for improvement of IGF-I in prolonging endogenous insulin
secretion in the early phase of T1DM disease appears promising.
The Investigators have previously developed a microdialysis approach to measure local IGF-I
protein levels from the human muscle tissue. The Investigators were in that study able to
show that exercise increases local IGF-I levels. (11, 12) However, no further analysis
concerning tissue-specific glucose metabolism was performed.
The Investigators hypothesis is that low circulating IGF-I and compensatory hyper-secretion
of GH, in the presence of peripheral insulin excess, results in increased local IGF-I
expression explaining both the deterioration in metabolic control and the increased risk for
microvascular complications.
In conclusion, correction of imbalance in circulating and tissue-specific levels of IGF-I
could lead to both better early metabolic control and to prevention of early diabetic
complications in type 1 diabetic (T1DM) patients.
Study Design:
This is a placebo controlled crossover study of the effect of sc IGF-1 (Increlex)
administration on glucose infusion rate (whole body glucose utilization) and interstitial
muscle IGF-1 concentrations under euglycemic clamp conditions in T1DM adolescents and young
adults (18-23 y of age). Each subject is studied twice and randomized to receive IGF-1 (120
μg/ kg, Increlex®, Ipsen) or placebo. Glucose control is optimized by CSII (Continuous
Subcutaneus Insulin Infusion) for 2 days and subjects are studied after an overnight fast
using a constant low rate insulin infusion to block hepatic glucose production. After a
single s.c. bolus of IGF-1, the effects of IGF-1 on the peripheral glucose disposal rate
will be assessed based on the rate of a variable glucose infusion. Local muscle IGF-1
measured by microdialysis will be related to the peripheral glucose disposal rate (mainly
determined by muscle glucose uptake). Patients with T1DM will be studied for several
reasons: 1) They are a target group for long term treatment, 2) They are IGF-I deficient and
thus more likely to have a significant effect of sc IGF-I injections, 3) muscle levels may
or may not be low.
The following assessments will be performed:
- Height & Weight
- Glucose utilization rate (normoinsulinemic, euglycemic clamp)
- Blood parameters: P-glucose, Growth Hormone (GH), IGF-1, Insulin Like Growth Factor
Binding Proteins 1-3 (IGFBP1-3) and Glucagon
- Microdialysis IGF-1
;
Allocation: Randomized, Endpoint Classification: Bio-availability Study, Intervention Model: Crossover Assignment, Masking: Single Blind (Subject), Primary Purpose: Basic Science
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