The benefits of pre-breakfast exercise

The holidays always spell WEIGHT GAIN for most. However, there may be a way to lessen the blow of higher holiday calories. A study published in The Journal of Physiology for the first time shows that fasted training in the morning is more potent than training after breakfast to facilitate adaptations in muscle and to improve whole-body glucose tolerance and insulin sensitivity during a high-fat hyper-caloric diet.

The holiday season brings many joys and, unfortunately, many countervailing dietary pitfalls. Even the fittest and most disciplined of us can succumb, indulging in more fat and calories than at any other time of the year. The health consequences, if the behavior is unchecked, can be swift and worrying. A recent study by scientists in Australia found that after only three days, an extremely high-fat, high-calorie diet can lead to increased blood sugar and insulin resistance, potentially increasing the risk for Type 2 diabetes. Waistlines also can expand at this time of year, prompting self-recrimination and unrealistic New Year’s resolutions.

But a new study published in The Journal of Physiology suggests a more reliable and far simpler response. Run or bicycle before breakfast. Exercising in the morning, before eating, the study results show, seems to significantly lessen the ill effects of holiday Bacchanalias.

The New York Times

  

Jack Lalanne – Treat your body like you should

Suppose somebody gave you an automobile the would repair itself, but there were a few simple rules you had to follow. One, you had to drive the car a half an hour a day. Two, you had to use the best fuel possible. Do you think you would follow those rules to have the only car that repaired itself? Of course you would. Jack Lalanne poses the question, “then why don’t you treat your body as well as an automobile that repairs itself?”

  

Carbohydrate loading

When most think of carbohydrate loading, the classic method of low carb consumption coupled with bouts high intensity exercise followed by a high intake of carbs a few days before competition comes to mind. The result, according to the theory, is super-compensation of glycogen storage in the muscle cells and liver. The theory holds that one must deplete their glycogen stores prior to consuming or loading carbs in order to facilitate super-compensation.

The average person’s total amount of muscle glycogen is approximately 300 – 500g depending on their gender, size, and level of training. The liver stores between 60 and 120g. A linear relationship exists between the depletion of muscle glycogen and fatigue during exercise. With less glycogen to produce glucose, hypoglycemia begins to affect the athlete. Typically, a person with a blood glucose level below 70 will start to feel light headed, lethargy, and have cold clammy skin. A highly trained athlete, on the other hand, can train at much lower levels than 70 for long periods of time.

As with all training topics there is conflicting evidence on what is the best method to achieve super-compensation of glycogen stores. studies are reporting similar results to the classic method, which so many athletes swear by, without carb depletion, while tapering their training (1,2,3). One thing is for sure, carbohydrate levels play a key role in training and competition success.

In order to figure out what works best for you, try different methods and keep a detailed journal. We all process carbs the same way, but we metabolize them at different rates. Keep mind, studies on training are by no means the end all be all. There are too many variables in most training studies to be reliable. Athletes, especially endurance athletes are over-trained. It is my opinion that athletes who are achieving super-compensation without depletion coupled with bouts of intense training, are doing so because they are over-trained and under-fed before starting the process.

The body is constantly working to stay in homeostasis. Physiology shows us glycogen storage is finite; the body needs a reason to super-compensate. Achieving a glycogen depleted state over a period of time produces an insulin sensitive environment, which is essential for more than normal levels of glycogen storage.

1. Eur J Appl Physiol 2002;87:290-295
2. Am J Physiol Endocrinol Metab 2003;285:E1304-E1311
3. Int J Sports Med 1981;2:114-118

  

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