In his book: “Fat
chance: The bitter truth about sugar”, Dr Robert Lustig argues that a
calorie is not a calorie or basically, not all calories from different foods
are equal. He makes three arguments to support his idea. This part of his
argument is central to the subsequent claim he makes that sugar and in
particular fructose is the villain of obesity.
He begins by pointing out that weight loss frequently reaches
a plateau because as we lose weight our resting energy expenditure falls. This
resting energy expenditure is the energy required to keep our heart beating,
our kidney’s filtering, our lungs breathing, our brain thinking and so on. It’s
the calories you burn when you are asleep. The fall in resting energy
expenditure is one of several adaptions the body makes when energy intake is
restricted. Another adaptation is that the brain agrees to reduce its
insistence on glucose as its sole fuel and agrees to start burning fats for
fuel. If it did not do this, then the body would have to make glucose from
amino acids, which would deplete body protein stores. So, several adaptations
are made when energy is restricted but this has absolutely nothing to do with
the calorific value of the fuels used by the body. The calorific value of amino
acids, glucose, fats and ethanol are determined by metabolic pathways that
allow energy to be extracted from these metabolites and these pathways are not amenable
to change. Adaptations do occur but the calorific value of nutrients remains
absolutely constant. A major US trial of diet composition on diet-induced
reduction in resting energy expenditure found no evidence that this drop in
resting energy expenditure was related to variation in dietary composition[1]
The second argument made is that within the categories of
nutrients (carbohydrate, fat and protein) there is considerable variation. Thus
Lustig points out that there are good fats and bad fats, that proteins vary in
their quality or nutritional value and that carbohydrates range from complex
molecules such as starch to simple molecules such as sugar. So lets consider
fats. A typical dietary fat is made up of one molecule of glycerol (a sugar
alcohol) and three fatty acids. Each fatty acid can vary in length typically
from12 to 22 carbons long and the amount of hydrogen attached to each carbon
can vary between 1 and 2. So, of course there is a wide variety of fats but
that has no bearing on their calorific value. Since hydrogen is the atom that
is central to the extraction of biological energy, we can predict exactly what
the energy value of a fat can be based on its hydrogen count. A gram of fat can
be made up of a lot of small chain fats or a a lesser amount of long chain
fats. The calorific content will not change. Some fats are primarily designed
to contribute to the structure of the body and their energy potential is not
their primary function. Thus the fatty acid arachidonic acid (which the body
synthesizes from fats found in vegetable oils) plays a major role in cell wall
architecture and in the regulation of blood clotting and inflammation. The
fatty acid eicospentaenoic acid (EPA derived from fatty fish) plays a role in
the structure of nerves and in the transmission of nerve signals. Sure, fats
vary in their structure and function but this has nothing to do with the theory
that not all calories are the same.
The third argument he makes is that that our diet quality has
changed and that we have reduced our fat intake and increased our sugar intake.
However, the calorific value of fats and sugars remain constant. A calorie is
still a calorie. Indeed in a major dietary intervention study of
weight-reducing diets involving 811 obese subjects using the following 4
radically diets found no significant difference in weight loss.
Diet
|
%
calories from
|
||
Fat
|
Protein
|
Carbohydrate
|
|
1
|
20
|
15
|
65
|
2
|
20
|
25
|
55
|
3
|
40
|
15
|
45
|
4
|
40
|
25
|
35
|
So its calories that
count and a calorie really is just that irrespective of the nutrient or food it
comes from.[2]
[1] De
Jonge L et al (2012) Obesity,20(12):2384-9.
Effect of diet composition and weight loss on resting energy expenditure in the
POUNDS LOST study
[2]
de Souza RJ et al (2012) Am J Clin Nutr. (2012) 95(3):614-25 Effects of 4 weight-loss diets differing in fat,
protein, and carbohydrate on fat mass, lean mass, visceral adipose tissue, and
hepatic fat: results from the POUNDS LOST trial.
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