Posts Tagged ‘International Sports Sciences Association’

Atkins & Low-Carb – Part 5

August 16th, 2006

With the popularity of low-carb diets today, most of us have at one time or another considered cutting carbs. In this series of articles we have discussed ‘low-carbing’ and whether or not it’s right for everyone.

In this article we’re going to talk about carbohydrates and how they are stored in the body. Does a large supply of excess carbs make us fat?

Many people believe that only dietary fat will lead to body fat. False! Actually, eating more calories than your body needs to perform daily activities and daily metabolism is what causes body fat. It is as simple as putting 20 gallons of gas in a 15 gallon gas tank…..the excess must go somewhere. In the case of human nutrition, the excess is stored as fat.

Just as excess protein can be stored as body fat, excess carbohydrate can be stored as body fat. Unfortunately for the American public, our consumption of simple carbohydrates has skyrocketed over the last ten years! Too many of us took the popularity of the low-fat and fat-free diets as an excuse to fill up on empty carbo-calories. After all, it’s okay to eat the entire package of licorice since it’s all fat free….right? Again, False!

Carbohydrates that the body cannot use are stored as body fat, plain and simple. Carbohydrates usually are ingested in the forms of polysaccharides (starches), disaccharides (sucrose and lactose) and monosaccharides (glucose and fructose). Essentially what occurs in the digestive process is a breakdown of the polysaccharides and disaccharides to the monosaccharides. The primary site of digestion is the small intestine, where the monosaccharides are then absorbed into the blood. Of the three monosaccharides, glucose is of most importance to human physiology. This is called blood sugar. Fructose and galactose are converted to blood glucose either in the intestinal wall or the liver.

A high-carbohydrate meal will lead to a rapid increase in the blood sugar level, usually within an hour. Naturally, the higher the food is on the glycemic index (refined sugars), the higher the blood sugar level will rise. The maintenance of a normal blood sugar level is very important for proper metabolism. The human body regulates blood sugar levels by a hormone called insulin. The rises in blood sugar levels stimulate the pancreas to secrete the hormone insulin into the blood. Insulin then facilitates the uptake and utilization of blood sugar by various tissues in the body, most notably the muscles and adipose tissue.

The fate of blood sugar is dependent on many factors, with exercise being one of the most important.

1) Blood sugar may be used for energy, particularly by the brain and other parts of the nervous system.

2) Blood sugar may be converted to either liver or muscle glycogen. Liver glycogen may then be later converted to blood sugar. Muscle glycogen is, for the most part, locked into the muscle cell once it enters, where it is converted to energy.

3) Blood sugar may be converted to and stored as fat in the adipose tissue. This situation occurs when the dietary carbohydrate, in combination with caloric intake of other nutrients, exceeds the energy demands of the body, and the storage capacity of the liver and muscles for glycogen.

4) Some blood sugar also may be excreted in the urine if excessive amounts occur in the blood, because of rapid ingestion of simple sugars.

So, what happens if we don’t consume enough carbohydrates? Because the carbohydrate stores in the body are rather limited, and because blood sugar is normally essential for optimal functioning of the central nervous system, it is important to be able to produce blood sugar or glucose internally if the stores are depleted by starvation or a zero-carbohydrate diet. This process is called gluconeogenesis, meaning the formation of glucose. In this process, protein is converted to glucose, and fat is converted to glucose by breaking down glycerol in the liver. The by-products of carbohydrate metabolism, lactate and pyruvate, may also be converted back to glucose in the liver.

With this understanding of how carbohydrate is metabolized in the body, it is clear that low-carb or no-carb diets may lead to decreased levels of energy.

Low-carb diets, however, have been proven to take off the weight. In some cases, weight loss has been dramatic when the subjects abruptly switched to a no-carb diet. Such rapid weight loss is attributed to water loss. Low carbohydrate intake depletes liver and muscle glycogen (stored sugars) and water molecules linked to these sugars. This depletion triggers a drop in body weight.

Especially during the introduction phase of a low-carb diet (2 weeks), the dieter is encouraged to eliminate virtually all carbohydrates from the diet. Even a slight intake of high glycemic foods during this phase would cause immediate weight gain by rebuilding glycogen stores.

Because carbohydrate is the body’s preferred fuel source, this first phase of the diet would most certainly challenge exercise enthusiasts.

So, is the low-carb lifestyle right for you? Maybe. We hope that this series of articles has helped you understand low-carb diets and their potential impact on the body.

SOURCE: (International Sports Sciences Association; Frederick C. Hatfield, Ph.D.; 2001)

About the author:

Tracie Johanson is the founder of Pick Up The Pace, a 30-minute exercise studio for women, focusing on fitness, health and nutrition for maximum weight loss. Please visit http://www.letspickupthepace.com/ for more information.

Written By: Tracie Johanson

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Atkins & Low-Carb – Part 4

August 12th, 2006

Since so many people in the United States are currently in the middle of a “carb-frenzy”, this series of articles has focused on the pros and cons of the low-carb diet. Topics of discussion have been 1) Can you stick with a low-carb diet for the long term, 2) Conflicting messages about carbs and 3) bodybuilders and low-carb dieting.

This article will define and describe carbohydrates and what role they play in the human body.

Carbohydrate – Chemical compound of carbon, oxygen and hydrogen, usually with the hydrogen and oxygen in the right proportions to form water. Common forms are starches, sugars, cellulose, and gums. Carbohydrates are more readily used for energy production than are fats and proteins. One of the three basic foodstuffs (proteins and fats are the others), carbohydrates are a group of chemical substances including sugars, glycogen, starches, dextrins, and cellulose. They comprise the body’s main source of raw material for energy. Carbohydrates can be classified as either a simple carbohydrate or a complex carbohydrate.

Digested carbohydrate enters the circulatory system in the form of monosaccharides, primarily glucose. Lesser amounts of fructose and galactose are also absorbed, but these are eventually converted into glucose in the liver. Before they can be absorbed into the bloodstream, polysaccharides and disaccharides must be broken down into monosaccharides by specific enzymes during the digestive process.

When you comsume carbohydrates, your digestive system converts them to blood sugar (glucose). This glucose is stored in your muscle cells and in your liver. Your brain operates with the help of glucose in your blood as energy. When training is intense, glycogen stored within your muscles provides most of the energy for contractions. When training with low intensity, your blood-borne sugar acts as an energy source. A problem occurs when there is leftover glucose in your blood following a refill of carbohydrate stores. The remaining carbohydrates are stored as fat.

There are several types of carbohydrates, some better than others. Starch, sugar and dextrose are all types of carbohydrates. The three main types of carbohydrates are:

* Monosaccharides (one-sugar molecule)

* Disaccharides (two-sugar molecule)

* Polysaccharides (three or more sugar molecules)

Monosaccharides and disaccharides are commonly called sugars, while polysaccharides are called complex carbohydrates or glucose polymers. Some of the more commonly encountered carbohydrates in these three categories include the following:

* Monosaccharides: glucose, fructose, sorbitol, galactose, mannitol, mannose

* Disaccharides: sucrose = glucose + fructose; maltose = glucose + glucose; lactose = glucose + galactose

* Polysaccharides: Starch, dextrin, cellulose and glycogen, all of which are made of chains of glucose. Found in whole grains, vegetables, nuts, some fruits and legumes. Fibers are mainly the indigestible complex carbohydrates (polysaccharides) that make up plant cell walls.

The Glycemic Index is a handy rating system that tells you what carbohydrates provide the best energy for prolonged training periods. By consuming a food with a low glycemic rating, you will experience a more stabilized blood sugar level.

Remember, carbohydrates are your body’s preferred energy fuel source, although fats work well too., particularly during aerobic training. Remember that protein and carbohydrates both have 4 calories per gram, while fat has 9 calories per gram.

SOURCE: (International Sports Sciences Association; Frederick C. Hatfield, Ph.D.; 2001)

About the author:

Tracie Johanson is the founder of Pick Up The Pace, a 30-minute exercise studio for women, focusing on fitness, health and nutrition for maximum weight loss. Please visit http://www.letspickupthepace.com/ for more information.

Written By: Tracie Johanson

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Posted in Low Carb

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