Why weight training increases the thermic effect of food...
Eating food increases your metabolic rate. This increase in
metabolism is known as the thermic effect of food.
Researchers from the Department of Kinesiology at the
University of Nevada studied the effects of weight
training on the thermic effect of food [1].
They measured the metabolic rate of subjects who ate a
high-carbohydrate meal containing 660 calories with and
without a prior bout of weight training.
Interestingly, there was a higher thermic effect in the
exercise trial than in the non-exercise trial.
In fact, the thermic effect of food was 73% greater after
the weight training trial than in the control trial. The
researchers think part of this response is due to the
energy cost of glycogen synthesis.
Glycogen is the name given to
carbohydrate stored in your body. When you train hard,
your glycogen stores are used for energy. If you train
hard on a regular basis without replacing the glycogen
your body uses, your performance during high-intensity
exercise is likely to get worse rather than better.
Research from Washington University School of Medicine also
shows that the calories in a meal high in fat or sugar
are less likely to be stored as fat if you eat them after
exercise [2].
The study shows that 60 minutes of exercise helps to
"divert" fat and sugar into muscle, rather than fat
tissue. Specifically exercise increases the activity of
enzymes responsible for transporting sugar and fat into
your muscles.
Studies show that the thermic effect of a meal is also 50%
greater in men who train with weights compared with men
who are sedentary [3]. In other words, if you train with
weights on a regular basis, the effect on your metabolic
rate means that you'll burn off more of the calories you
eat.
Of course, this doesn't mean that exercise gives you the
freedom to eat all you want. The key to losing weight is
to burn more calories than you get from your diet. If you
simply replace the extra energy you've expended during
exercise with additional calories from your diet, then
your weight won't change.
References
1. Denzer, C.M., & Young, J.C. (2003). The effect of
resistance exercise on the thermic effect of food.
International Journal of Sports Nutrition and Exercise
Metabolism
(http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=14669938),
13, 396-402
2. Greiwe, J.S., Holloszy, J.O., & Semenkovich, C.F.
(2000). Exercise induces lipoprotein lipase and GLUT-4
protein in muscle independent of adrenergic-receptor
signaling. Journal of Applied Physiology
(http://jap.physiology.org/cgi/content/full/89/1/176), 89, 176-181
3. Thyfault JP, Richmond SR, Carper MJ, Potteiger JA,
Hulver MW. (2004). Postprandial metabolism in
resistance-trained versus sedentary males. Med
Sci Sports Exerc
(http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=15064599),
36, 709-716
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