Obesity Clinical Trial
Official title:
Impact of Body Composition on Very-Low-Density-Lipoprotein-Triglycerides Kinetics
Context: Upper body obese (UBO) subjects are more likely to develop cardiovascular disease
(CVD) than lower body obese (LBO) or lean. This may in part be caused by greater hepatic
secretion of very-low-density-lipoprotein-triglycerides (VLDL-TG).
Objective: To assess the impact of body composition and insulin sensitivity on basal VLDL-TG
turnover in women.
Body composition is an important predictor of obesity related life-style diseases. Thus,
preferential accumulation of adipose tissue in the abdominal region has been demonstrated to
be associated with greater risk of developing CVD and insulin resistance than accumulation
in lower body depots. The reason for this is not yet fully understood, but there are
indications that upper body fat depots contain larger and more lipolytically active
adipocytes resulting in an excess hepatic delivery of FFAs in upper body obese individuals.
As several lines of experimental evidence as well as cross-sectional studies have
demonstrated, elevated levels of FFAs affect the cardiovascular system unfavourably and are
most likely a major contributor to insulin resistance. A prominent feature of insulin
resistance is hypertriglyceridemia, primarily caused by increased levels of
very-low-density-lipoprotein (VLDL)-TG.
Even though lipolysis in subcutaneous adipose tissue accounts for the majority (~75 %) of
FFAs delivered to the liver, it is conceivable that excess release from visceral adipocytes
in UBO individuals impacts VLDL-TG secretion. The reason for this is two-sided: First, upon
entry into the liver, FFAs are reesterified to form VLDL-TG which is subsequently secreted.
Studies in cell lines as well as whole body investigations in humans have demonstrated, that
perturbations of FFA levels may directly affect VLDL-TG output by the liver. Second,
elevated levels of FFAs may induce hepatic insulin resistance resulting in increased VLDL-TG
output due to a loss of the inhibitory effect of insulin on VLDL-TG secretion. In theory,
this combination of excess substrate availability coupled with an unfavorable hormonal
milieu (hepatic insulin resistance) could result in increased VLDL-TG production in UBO
subjects. A recent study by Mittendorfer et. al. support this notion, since weight loss in
UBO women resulted in decreased VLDL-TG production, presumably caused primarily by a
decrease in the supply of visceral fatty acids.
Although findings from previous studies have been contradictory as to whether body fat
distribution directly affects VLDL-TG clearance, in vitro findings suggest regional
differences in lipoprotein lipase (LPL) activity between UBO and LBO women, and VLDL-TG
clearance could also be modulated by differences in VLDL associated fatty acid oxidation. To
our knowledge, the latter point has not previously been addressed.
The purpose of this study was therefore to investigate differences in VLDL-TG kinetics in
women with different body composition phenotypes. Our preliminary hypothesis was that UBO
women produce and secrete greater amounts of VLDL-TG than their lower body obese (LBO) or
lean counterparts. We also hypothesized, that peripheral clearance would be similar in all
groups. Lastly, we wanted to investigate whether the more benevolent lipid profile seen in
lean women could in part be a result of a more efficient channeling of VLDL derived fatty
acids towards oxidation.
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Observational Model: Case Control, Time Perspective: Cross-Sectional
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