Insulin Resistance Clinical Trial
Lipoproteins are large complexes of molecules that transport lipids (primarily triglycerides
and cholesterol) through the blood. The intestine has traditionally been viewed as a
'passive' organ with respect to lipoprotein production, with intestinal lipoprotein
production rates responding mainly to fat ingestion and absorption. The investigators have
recently demonstrated in animal models that there is an overproduction of intestinal
lipoproteins in both the fasted and the fed state. The investigators have also recently
demonstrated that an elevation of plasma free fatty acids (FFAs) stimulates intestinal
lipoprotein in hamsters. It is not known whether intestinal lipoprotein production can be
acutely stimulated by an elevation of plasma FFAs in humans.
Hypothesis: Intestinal lipoprotein particle production in humans can be stimulated by an
acute elevation of plasma free fatty acids.
This study proposes to use a published stable isotope method to study the kinetics of apoB48
and apoB100 in the constant fed state in healthy subjects. These studies will be performed
in 10 healthy, lean men and women aged 18 to 65 years of age. Each subject will serve as
his/her own control and will undergo 3 separate lipoprotein turnover studies, in random
order, 4 to 6 weeks apart. Since the infusion of intralipid (a synthetic triglyceride
emulsion that provides a source of fatty acids) and heparin (to activate lipoprotein lipase)
raises both FFAs and glycerol, two control studies will be performed, one with saline and
one with glycerol infusion. ApoB48-containing lipoprotein particle production will be
determined as outlined above but for this study in the fasted state, in response to the
following interventions:
1. Intralipid (20% solution @ 40 ml/hr) and heparin (250 u/hr) infusion to achieve an
~2-fold elevation of plasma FFAs (as previously shown), starting 90 minutes prior to
and continuing throughout the lipoprotein turnover experiment,
2. Saline infusion control study, and
3. Glycerol control study in which glycerol will be infused at a rate of 2.25 g/hr to
simulate the infusion of glycerol contained in Intralipid.
Stable isotope infusion protocol. Following a 14-h overnight fast, an IV will be inserted
into a superficial vein in each forearm, one for infusion and one for sampling. At 7 am, a
fasting blood sample will be drawn and the subject will begin to ingest the first of 15
identical small hourly meals, each equivalent to 1/15th of their daily food intake. This
will be achieved by giving the patient the drink BOOST (Mead Johnson Nutritionals, Ottawa,
On) and, using the Harris Benedict Equation (HBE) to determine the number of total energy
requirements. This is based on height, weight, age and activity factors. The subject will
have nothing else to eat until the end of the study. At the same time an IV infusion with
either heparin plus intralipid or saline or glycerol as indicated above will be started. At
10 am (3 hours after starting the ingestion of hourly feeds), a primed-constant infusion of
deuterium-labeled leucine ([D3]L-leucine 98%, Cambridge Isotope Laboratories, MA) will be
started, as previously described (0.6 mg/kg as an initial injection and then 0.6 mg/kg/hr
thereafter). In addition, an IV bolus of d5-glycerol (100 mmol/kg) will be administered.
These are standard techniques used for the assessment of lipoprotein metabolism in humans.
Leucine, an amino acid and glycerol, an intermediary metabolite, are used by cells in the
body as building blocks for proteins, fats and for energy. The form of leucine that will be
administered is deuterated leucine (chemical formula L-[5,5,5-2H3]) and the form of glycerol
is d5-glycerol, which has been enriched with the naturally occurring isotope (chemical
variant) of hydrogen (2H). Deuterated leucine and glycerol are stable isotopes that occur
naturally in the environment and in the body, and there are no health/safety issues
regarding the infusion of the amounts of deuterated leucine and glycerol indicated above.
The solutions are prepared using sterile techniques and are monitored for contamination
prior to administration. Blood samples will be collected prior to and at the following time
points after administration of the stable isotopes: 1hr, 2hr, 3hr, 5hr, 7hr, 9hr, 10hr, 11hr
and 12hr. A total of 340 ml of blood will be drawn.
;
Allocation: Randomized, Endpoint Classification: Pharmacokinetics Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Diagnostic
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