Glycaemic index & fat loss
The glycaemic index (GI) is a concept that you should be familiar with when considering the type of carbohydrate foods that you should eat and when you eat them. It may have significant implications for people trying to lose fat, increase muscle size and strength, improve sports performance and prevent disease. The GI measures and classifies the effect that different carbohydrate rich foods have on blood sugar levels. The GI ranks foods against glucose, in terms of their rate of absorption into the blood stream, as glucose is the simplest form of carbohydrate. There are three levels of GI:
- Low (< 55)
- Intermediate (55 – 70)
- High (> 70)
It was previously thought that simple carbohydrate foods, such as sugar, gave us a quick energy hit, and complex carbohydrates, such as a potato, gave us long lasting energy. This theory has proven to be untrue. A research team at the University of Sydney has found that some simple carbohydrates provide long lasting energy and some complex carbohydrates give us quick energy.
There are many reasons why carbohydrate foods have different absorption rates. The refining and processing during food manufacturing has a big impact on the absorption rate of a food. Foods that are more textured, chewy, fibrous and crunchy generally take longer to digest and release glucose into the blood stream more slowly than refined and processed foods. Those foods that have not been properly chewed also generally take longer to digest, and this may also cause indigestion.
The amount and type of fibre is also a major factor. Soluble fibre, such as oat fibre, cold climate fruits, psyllium and legumes, slow down the digestion of starches and the absorption of glucose into the blood stream.
The type of starch can also have an impact. Long chains of sugars joined together (amylase) take longer to break down than starches composed of sugar branches (amylopectins). For example, long grain rice has a lower GI than short grain rice.
The ripeness of foods can also affect the foods absorption rate. For example, the riper a banana, the higher its GI will be.
Acidic foods also help to slow the digestion of starches. For example, vinegar and lemon juice added to foods helps to reduce the GI of a meal. However, adding salts to foods may increase the GI of a meal.
The type of sugar in a food also changes its GI. Foods containing glucose will have a higher GI than sucrose (table sugar) and fructose (fruit sugar) respectively. In fact, diabetics now need not worry so much about sucrose as much as they once thought, as it has an intermediate GI level.
Combing different foods also affects the absorption rate of foods. Eating low GI foods helps to reduce the overall GI of a meal if those foods are combined with high GI foods. Similarly, by combining proteins and 'good' fats with carbohydrate foods, there will be a reduction of the meals GI. Hence, it is recommended that you combine proteins, carbohydrates and fats in each meal.
When considering a foods GI, the total amount of carbohydrate in the food must be taken into account. The total amount of carbohydrate will determine the influence that the GI ultimately has on blood sugar levels. The serving size of many fruits and vegetables contain such little carbohydrate that their GI may not be important. For example, watermelon has a GI of 72 but only contains 6.3g of carbohydrate per 150g serve. Therefore, water-based fruits (such as watermelon) along with many water-based vegetables with low carbohydrate contents, will have little impact on blood sugar levels.
Conversely, it is important to be aware of high GI foods with high carbohydrate contents. For example, a large serving of short grain rice has approximately 65 grams of carbohydrate and a GI of 80, which will cause a rapid rise and subsequent fall in blood sugar. Hence, this is the reason why many people feel hungry after eating an Asian meal.
Together with Diabetes Australia, the researchers from the University of Sydney have developed a unique standardized measurement system, aimed at helping consumers understand the GI. Their hope is that all food labels will contain their GI symbol, which indicates that the food has been appropriately tested. The foods will also contain the GI rating and an explanation of what the number means. Companies displaying the GI symbol on their food products will be required to pay licensing fees to fund further research into the area. This is a very positive step towards improving community health.
In order to achieve fat loss and maintain consistent energy levels, low GI carbohydrates should be eaten in the early part of the day. Eating these types of carbohydrates will also help satisfy hunger pangs, which may prevent the over-consumption of other foods.
High GI foods cause a rapid rise and subsequent decline in blood sugar levels. This may lead to overeating, contributing to excessive fat gain and obesity. Regular consumption of high GI carbohydrates may also lead to adult onset diabetes, high triglyceride levels and heart disease. However, please note that athletes training for performance should attempt to eat high GI carbohydrates immediately after exercise for recovery purposes. High GI foods are also recommended along with protein immediately after weight training to aid recovery.
A very good reference on the topic of GI is a book titledThe GI Factor. This book has a comprehensive listing of foods and their corresponding GI rating. The GI Factor is a great resource to keep handy when doing the food shopping.