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Default Fat Loss And Fasted Cardio
by BendtheBar 01-26-2012, 02:45 AM

DOES CARDIO AFTER AN OVERNIGHT FAST MAXIMIZE FAT LOSS?
by Brad Schoenfeld (2011)

A common fat burning strategy employed by bodybuilders, athletes and fitness enthusiasts is to perform cardiovascular exercise early in the morning on an empty stomach. This strategy was popularized by Bill Phillips is his book, "Body for Life". According to Phillips, performing 20 minutes of intense aerobic exercise after an overnight fast has greater effects on fat loss than performing an entire hour of cardio in the postprandial (occurring after a meal) stage. The rationale for the theory is that low glycogen levels cause your body to shift energy utilization away from carbohydrates, thereby allowing greater mobilization of stored fat for fuel. However, although the prospect of reducing the body fat by training in a fasted state may sound enticing, science does not support its efficacy.

First and foremost, it is shortsighted to look solely at how much fat is burned during an exercise session. The human body is very dynamic and continually adjusts its use of fat for fuel. Substrate utilization is governed by a host of factors (i.e., hormonal secretions, enzyme activity, transcription factors, etc.), and these factors can change by the moment. Thus, fat burning must be considered over the course of days -- not on an hour-to-hour basis -- to get a meaningful perspective on its impact on body composition. As a general rule, if you burn more carbohydrate during a workout, you inevitably burn more fat in the post-exercise period, and vice versa.

If should be noted that high-intensity interval training (HIIT) has proven to be a superior method for maximizing fat loss compared with moderate intensity steady-state training.
[Tremblay A, Simoneau JA, and Bouchard O. "Impact of exercise intensity of body fatness and skeletal muscle metabolism." Metabolism 43: 814-818, 1994.]
[Schoenfeld D andDawes J. "High-intensity interval training:Applications for general fitness training." Stength Conditioning Journal 31: 44-46, 2009.l]
[Gibala MJ, Little JP, van Essen M, Wilkin GP, Burgomaster KA, Safdar A, Raha S, and Tamopolsky M.A. "Short-term sprint interval versus traditional endurance training: Similar initial adaptations in human skeletal muscle and exercise performance." J Physiol Sept. 15 2006 575 (3) 909-911.]

Interestingly, studies show that blood flow to adipose tissue diminishes at higher levels of intensity. This is believed to entrap free fatty acids within fat cells, impeding their ability to be oxidized while training. Yet, despite lower fat oxidation rates during exercise, fat loss is nevertheless greater over time in those who engage in HIIT versus training in the "fat burning zone" [see Tremblay, A - above], providing further evidence that 24-hour energy balance is the most important determinant in reducing body fat.

The concept of performing cardiovascular exercise on an empty stomach to enhance fat loss is flawed even when examining its impact on the amount of fat burned in the exercise session alone. True, multiple studies show that consumption of carbohydrate before low-intensity aerobic exercise (up to approximately 60% Vo2max) in untrained subjects reduces the entry of long-chain fatty acids in the mitochondria, thereby blunting fat oxidation. This is attributed to an insulin-mediated attenuation of adipose tissue lipolysis, an increased glycolytic flux, and a decreased expression of genes involved in fatty acid transport and oxidation. However, both training status and aerobic exercise intensity have been shown to mitigate the effects of a pre-exercise meal on fat oxidation. Recent research has shed light on the complexities of the subject.

Horowitz et al. studied the fat burning response of six moderately trained individuals in a fed versus fasted state to different training intensities. Subjects cycled for two hours at varying intensities on four separate occasions. During two of the trials, they consumed a high-glycemic carbohydrate meal at 30, 60, and 90 minutes of training -- once at a low intensity (25% peak oxygen consumption) and once at a moderate intensity (68% peak oxygen consumption). During the other two trials, subjects were kept fasted for 12-14 hours before exercise and for the duration of training. Results in the low-intensity trials showed that although lipolysis (the breakdown of fats and other lipids by hydrolysis to release fatty acids) was suppressed by 22% in the fed state compared with the fasted state, fat oxidation remained similar between groups until 80-90 minutes of cycling. Only after this point was a greater fat oxidation rate observed in fasted subjects. Conversely, during moderate-intensity cycling, fat oxidation was not different between trials at any time -- this is despite a 20-25% reduction in lipolysis and plasma free fatty acid concentration.

More recently, Febbraio et al. evaluated the effect of pre-exercise carbohydrate consumption of fat oxidation. Using a crossover design, seven endurance-trained subjects cycled for 120 minutes at approximately 63% of peak power output, followed by a "performance cycle" where subjects expended seven kJ (kg. body weight) by pedaling as fast as possible. Trials were conducted on four separate occasions, with subjects given (a) a placebo before and during training, (b) a placebo 30 minutes before training and then a carbohydrate beverage every 15 minutes throughout exercise, (c) a carbohydrate beverage 30 minutes before training and then a placebo during exercise, or (d) a carbohydrate beverage both before and every 15 minutes during exercise. The study was carried out in a double-blind fashion with trials performed in random order. Consistent with previous research, results showed no evidence of impaired fat oxidation associated with consumption of carbohydrate either before or during exercise.

Taken together, these studies show that during moderate-to-high intensity cardiovascular exercise in a fasted state -- and for endurance-trained individuals regardless of training intensity -- significantly more fat is broken down than than that the body can use for fuel. Free fatty acids that are not oxidized ultimately become re-esterified in adipose tissue, nullifying any lipolytic benefits afforded by pre-exercise fasting.

It should also be noted that consumption of food before training increases the thermic effect of exercise, compared to the lipolytic effects of an exercise session in either a fasted state or after consumption of a glucose/milk (GM) beverage. In a crossover design, four experimental conditions were studied: low-intensity long duration exercise with GM, low-intensity long duration exercise without GM, high-intensity short duration exercise with GM, and high-intensity short duration exercise without GM. Results showed that ingestion of the GM beverage resulted in a significantly greater excess postexercise oxygen consumption compared with exercise performed in a fasted state in both high- and low-intensity bouts. Other studies have produced similar findings, indicating a clear thermogenic advantage associated with pre-exercise food intake.

The location of adipose tissue mobilized during training must also be taken into account here. During low-to-moderate intensity training performed at a steady state, the contribution of fat as a fuel source equates to approximately 40-60% of total energy expenditure. However, in untrained subjects, only about 50-70% of this fat is derived from plasma Free fatty acids; the balance comes from intra-muscular triglycerides (IMTG).

IMTG are stored as lipid droplets in the sarcoplasm near the mitochondria, with the potential to provide approximately two-thirds the available energy of muscle glycogen. Similar to muscle glycogen, IMTG can only be oxidized locally within the muscle. It is estimated that IMTG stores are approximately three times greater in type I versus type II muscle fibers, and lipolysis of these stores are maximally stimulated when exercising at 65% Vo2Max.

The body increases IMTG stores with consistent endurance training, which results in greater IMTG utilization for more experienced trainers. It is estimated that nonplasma fatty acid utilization during endurance exercise is approximately twice that for trained versus non-trained individuals. Herley er al. reported that the contribution of IMTG stores in trained individuals equated to approximately 80% of the total body fat utilization during 120 minutes of moderate-intensity endurance training.

THE IMPORTANT POINT HERE IS THAT IMTG STORES HAVE NO BEARING ON HEALTH OR APPEARANCE; it is the subcutaneous fat stored in adipose tissue that influences body composition. Consequently, the actual fat burning effects of any fitness strategy intended to increase fat oxidation must be taken in the context of the specific adipose deposits providing energy during exercise.

Another factor that must be considered when training in a fasted state is its impact on proteolysis. Lemon and Mullin found that nitrogen losses were more than doubled when training while glycogen depleted compared with glycogen loaded training. This resulted in a protein loss estimated at 10.4% of the total caloric cost of exercise after one hour of cycling at 61% Vo2Max. This would suggest that performing cardio-vascular exercise while fasting might not be advisable for those seeking to maximize and retain muscle mass.

Finally, the effect of fasting on energy levels during exercise ultimately has an effect on fat burning. Training early in the morning on an empty stomach makes it very difficult for an individual to train at even a moderate level of intensity. Attempting to engage in a HIIT style routine in a hypoglycemic state almost certainly will impair performance. Studies show that a pre-exercise meal allows an individual to train more intensely compared with exercise while fasting. The net result is that a greater number of calories are burned both during and after physical activity, heightening fat loss.

In conclusion, the literature does not support the efficacy of training early in the morning on an empty stomach as a tactic to reduce body fat. At best, the net effect on fat loss associated with such an approach will be no better than training after meal consumption, and quite possibly, it would produce inferior results. Moreover, given that training with depleted glycogen levels has been shown to increase proteolysis, the strategy has potential detrimental effects for those concerned with muscle strength and hypertrophy.
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