Metabolic Syndrome X Clinical Trial
Official title:
Functional Studies of High Density Lipoprotein in the Metabolic Syndrome
The aim of the study is to examine the kinetic, anti-oxidant, anti-inflammatory and cellular cholesterol efflux properties of high-density lipoprotein (HDL) in subjects with the metabolic syndrome (MetS) and lean individuals.
Background and Purpose of This Study:
The metabolic syndrome (MetS) is characterized by impaired glucose and insulin metabolism
(insulin resistance), abnormal body fat distribution called central obesity (a pot belly)
and high blood pressure. People with the metabolic syndrome have markedly increased risk of
heart disease which is mainly attributed to the abnormal fat metabolism and its associated
metabolic disorders. Therefore, understanding of the body fat disorder is important to
reduce the incidence and severity of heart disease.
Fats in the blood originate from dietary sources and from production by the liver. They are
then delivered into peripheral body cell for utilization or storage. A particular protein,
called high-density lipoprotein (HDL) apolipoprotein (apo) A-I, is an important fat carrier
responsible for transporting excess fat from cells, via the bloodstream, back to the liver.
Low HDL-apoA-I concentration is related to increased risk of heart disease. Subjects with
MetS have reduced level of apoA-I and we wish to test the hypothesis that it is responsible
for the impaired movement of fat from the periphery to the liver. Recent evidence suggests
that the functionality of HDL, including anti-oxidant, anti-inflammatory and cholesterol
efflux properties, is also important in preventing the development of heart disease.
However, these function tests have not yet been investigated extensively in MetS.
Consequently, we wish to examine the transport and anti-atherogenic properties of HDL in
subjects with MetS and compare these with normal lean subjects. Such findings would be of
significant clinical importance in the understanding of the diverse role of HDL-apoA-I in
reducing or preventing the progression of heart disease.
Participation:
Patients with MetS or lean individuals will be recruited for the study via newspaper
advertisements. Following informed consent and once found suitable for participation, 15 men
with MetS and 15 lean men will be enrolled. We will give the participants a harmless
substance called a stable (non-radioactive) isotope. The isotope will trace the speed at
which apoA-I is released into the blood (production) and are removed from the bloodstream
(clearance) by the liver.
Participants will be asked to fast (only water allowed) for 12 hours prior to the isotope
study. The stable isotope will be administered by intravenous injection in the form of a
clear fluid (total volume approximates 15 to 25ml, 1-1.5 tablespoons). A small plastic tube
(a cannula) will be placed into a vein in the arm, from where a total of 160mll (10.5
tablespoons) of blood will be obtained. The isotope study lasts 10 hours, during which
participants will rest quietly and be allowed water only. At the end of the study day,
participants will be given a meal and will be allowed home by taxi or family transport.
These studies will allow us to measure the metabolic action of apolipoprotein A-I, thereby
gaining a better understanding of the mechanisms that leads to abnormal blood fat levels in
those with MetS. To complete this study, each participant is required to attend 7 visits
over a 6-week period.
Benefits:
All participants will receive health education, as well as information on personal health
status and a review of heart risk factors.
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Observational Model: Case Control, Time Perspective: Cross-Sectional
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