Obesity Clinical Trial
Official title:
Three-Tracer PET Quantitation of Insulin Action in Muscle
The purpose of this research is to use a recently developed triple-tracer positron emission
tomography (PET) method to study skeletal muscle insulin resistance. Insulin is the hormone
made by your body to control the blood sugar level. "Resistance' to insulin could cause poor
blood glucose control (blood sugar levels that are higher than normal). We want to use this
new method to image (look at) the following three things: 1) how insulin affects blood flow
in skeletal muscle 2) how insulin affects glucose (sugar) transport (movement) into muscle,
and 3) how insulin affects glucose metabolism (breakdown) in skeletal muscle of healthy
individuals.
PET imaging is a relatively non-invasive way to obtain a "metabolic picture" of body organs
and has been used successfully to study brain, heart and more recently skeletal muscle. In
this research study, we will use PET, with three radioactive tracers (markers), to study
skeletal muscle glucose transport in individuals with type 2 diabetes mellitus (type 2 DM)
and in non-diabetic individuals who are either normal weight or overweight/obese
The goal of this proposal is to use a recently developed triple-tracer positron emission
tomography (PET) method to study skeletal muscle insulin resistance (IR) in research
volunteers with type 2 diabetes mellitus (type 2 DM) and in comparison to age and
gender-matched, normal weight non-diabetic volunteers, and in comparison to age, gender, and
weight-matched overweight or obese non-diabetic volunteers. We will use the three tracers to
obtain data on the respective insulin actions upon tissue perfusion, glucose transport and
glucose phosphorylation in order to test the hypothesis that insulin resistance (IR) in type
2 DM is caused by an aggregation of impairments at these steps, thus challenging the
prevalent concept that IR derives from a solitary impairment in trans-membrane transport.
Proximal steps of glucose transport and phosphorylation are considered to contribute
strongly to the pathogenesis of IR in obesity and type 2 DM (1-5). These scientific
considerations might have potential therapeutic implications. The overall goal of this
project is to provide clarity in separating the respective roles of these proximal steps of
glucose metabolism. Glucose transport will be assessed using 11C-3-O-methyl glucose
(half-life ~ 20 min; also referred to as 3-0-MG), an analog that is transported but not
phosphorylated. 18F-2-deoxy-2-fluoro-glucose (half-life ~ 109 min; also referred to as FDG),
will be used to assess glucose transport and glucose phosphorylation. The third tracer that
will be used, 15O-H2O, will provide information on tissue perfusion. The challenge with the
use of FDG to study insulin action in muscle has been to derive data on two biochemical
steps from the tissue activity pattern of a single tracer; this has placed a higher reliance
upon the modeling of the data. However, in this project, because of the use of three tracers
and the differences in the metabolism of the two glucose analogs, we will be able to address
with clear resolution the respective roles of transport and phosphorylation in the
pathogenesis of IR in obesity and type 2 DM.
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