The glycaemic index (GI) measures carbohydrates according to how quickly they are absorbed and raise the glucose level of the blood. A low GI diet may help a person with diabetes control their blood glucose levels. It may also help energy levels for endurance sports.
Food and drinks provide fuel for our body in the form of carbohydrates, fat, protein and alcohol. Carbohydrates are the body’s preferred fuel source. The glycaemic index (GI) is a way to classify carbohydrates according to how quickly they are absorbed and raise the glucose level of the blood. It has replaced classifying carbohydrates as either ‘simple’ or ‘complex’.
Foods that contain carbohydrates include bread, breakfast cereals, rice, pasta, legumes, corn, potato, fruit, milk, yoghurt, sugar, biscuits, cakes and lollies.
Digesting and absorbing carbohydrates
The digestive system breaks down carbohydrate-containing foods into simple sugars, mainly glucose. For example, both rice and soft drink will be broken down to simple sugars in your digestive system. This simple sugar is then carried to each cell through the bloodstream.
The pancreas secretes a hormone called insulin, which helps the glucose to migrate from the blood into the cells. Once inside a cell, the glucose is ‘burned’ along with oxygen to produce energy. Our brain, muscles and nervous system all rely on glucose as their main fuel to make energy.
The body converts excess glucose from food into glycogen. Glycogen acts as a storage form of glucose within the muscle tissue and the liver. Its role is to supplement blood sugar levels if they drop between meals or during physical activity.
The glycaemic index (GI)
Carbohydrate-containing foods can be rated on a scale called the glycaemic index (GI). This scale ranks carbohydrate-containing foods based on their effect on blood sugar levels over a period of time – usually two hours.
Carbohydrate-containing foods are compared with glucose or white bread as a reference food, which is given a GI score of 100. The GI compares foods that have the same amount of carbohydrate, gram for gram. Carbohydrates that break down quickly during digestion have a higher glycaemic index (GI more than 70). These high GI carbohydrates release their glucose into the blood quickly, such as a baked potato.
Carbohydrates that break down slowly release glucose gradually into the bloodstream, such as oats. They have low glycaemic indexes (GI less than 55). The blood glucose response is slower and flatter. Low GI foods prolong digestion due to their slow break down and may help with satiety (feeling full).
Choosing between high and low GI foods
The best carbohydrate food to eat varies depending on the individual and situation. For example, the rate at which porridge and cornflakes are broken down to glucose is different. People with type 2 diabetes or impaired glucose tolerance have become resistant to the action of insulin or cannot produce insulin rapidly enough to match the release of glucose into the blood after eating carbohydrate-containing foods. This means their blood glucose levels may rise above the normal level.
Porridge is digested to simple sugars much more slowly than cornflakes, so the body has a chance to respond with production of insulin, and the rise in blood glucose levels is less. For this reason, porridge is a better choice of breakfast cereal than cornflakes for people with type 2 diabetes. It will also provide more sustained energy for people without diabetes.
If a person with diabetes experiences a ‘hypo’, where the blood glucose levels fall below the normal range of 4–8 mmol/L, they need to eat carbohydrate-containing foods (preferably those with a high GI) to restore their blood sugar levels to normal quickly. For example, eating five jellybeans will help to raise blood glucose levels quickly.
How much you eat is also important
The amount of the carbohydrate-containing food you eat will also affect your blood glucose levels. For example, even though pasta has a low GI, it is not advisable for people with diabetes or impaired glucose tolerance to have a large serve. This is because the total amount of carbohydrate, and therefore the kilojoules, will be too high.
The glycaemic load (GL) is a concept that builds on GI, as it takes into account both the GI of the food and the amount of carbohydrate in a portion. GL is based on the idea that a high GI food consumed in small quantities would give the same effect on blood glucose levels as larger quantities of a low GI food. GL is easily calculated by multiplying the GI by the amount of carbohydrates (in grams) in a serving of food.
GI and weight loss
A low GI diet has commonly been promoted as an effective way to help lose weight by controlling blood sugars and appetite. When high and low GI diets are compared head-to-head, however, scientific evidence has shown that there is little additional benefit for weight loss of a low GI diet over a similar diet of nutrient composition that is high GI.
While GI can be a useful guide in planning a diet and controlling blood sugar levels, it should not be the only consideration. Both the serving size of foods and the nutritional quality of the diet are just as important to consider.
GI and exercise
Eating low GI foods two hours before endurance events, such as long-distance running, may improve exercise capacity. It is thought that the meal will have left your stomach before you start the event, but remains in your small intestine releasing energy for a few hours afterwards. On the other hand, high GI foods are recommended during the first 24 hours of recovery after an event to rapidly replenish muscle fuel stores (glycogen).
High GI foods are influenced by low GI foods
Generally, eating low GI foods and high GI foods at the same time has the effect of ‘averaging’ the GI. This is important, as most foods are eaten as part of a meal and this affects the GI value of foods. For example, eating cornflakes (a higher GI food) with milk (a lower GI food) will reduce the effect on blood sugar levels.
GI scale examples
Some examples of the GI rating of various carbohydrates include:
- low GI (less than 55) – soy products, beans, fruit, milk, pasta, grainy bread, porridge and lentils
- medium GI (55 to 70) – orange juice, honey, basmati rice and wholemeal bread
- high GI (greater than 70) – potatoes, white bread and short-grain rice.
Factors that affect the GI of a food
Factors such as the size, texture, viscosity (internal friction or ‘thickness’) and ripeness of a food affect its GI. For instance, an unripe banana may have a GI of 30, while a ripe banana has a GI of 51. Both ripe and unripe bananas have a low GI.
Fat, protein, soluble fibre, fructose (a carbohydrate found in fruit) and lactose (the carbohydrate in milk) also generally lower a food’s glycaemic response. Fat and acid foods (like vinegar, lemon juice or acidic fruit) slow the rate at which the stomach empties and slow the rate of digestion, resulting in a lower GI.
Other factors present in food, such as phytates (used to store phosphorus in plants) in wholegrain breads and cereals, may also delay a food’s absorption and thus lower the GI.
Cooking and processing can also affect the GI – food that is broken down into fine or smaller particles will be more easily absorbed and so has a higher GI. Foods that have been cooked and allowed to cool (potatoes, for example) can have a lower GI when eaten cold than when cooked.
GI symbol on packaged foods
Food Standards Australia New Zealand allow companies to make nutrient content claims regarding the GI of a food. The GI symbol, G – Glycemic index tested, indicates the GI rating of packaged food products in supermarkets. It ranks food products based on the speed at which they break down from carbohydrate to sugar in the bloodstream. However, this labelling is not compulsory for food companies to follow.
The GI symbol only appears on food products that meet certain nutrient criteria for that food category. High and intermediate GI soft drinks, cordials, syrups, confectionery and sugars are excluded. Jams, honey and other carbohydrate-containing spreads are not necessarily excluded.
Using the GI as a guide to healthy eating
The GI can be used as a guide to healthy eating, as long as you are aware of the limitations. For example, the GI of some fruits, vegetables and cereals can be higher than foods that are considered to be treats, such as biscuits and cakes.
This does not mean we should replace fruit, vegetables and cereals with treats, because the first are rich in important nutrients and antioxidants and the treats are not. GI can be a useful concept in making good food substitution choices, such as having oats instead of cornflakes, or eating grainy bread instead of white bread.
It is not always possible or necessary to choose all low GI foods. There is room in a healthy diet for moderate to high GI foods, and many of these foods can provide important sources of nutrients. If you mix a low GI food with a high GI food, you will get an intermediate GI for that meal.
Tips for healthy eating
Some practical suggestions include:
- Use a breakfast cereal based on oats, barley or bran.
- Use grainy breads or breads with soy.
- Enjoy a range of fruit and vegetables.
- Eat plenty of salad vegetables with vinaigrette dressing.
- Eat a variety of carbohydrate-containing foods. If the main sources of carbohydrates in your diet are bread and potatoes, then try lentils, legumes, pasta, basmati rice and pita breads.
- Focus more on the serving size of foods, rather than just their GI rating.
Expert medical supervision
If you have a medical condition, such as diabetes, it is important to seek the advice of your doctor or specialist before making any changes to your diet.
Where to get help
- Your doctor
- Dietitians Association of Australia Tel. 1800 812 942
- Nutrition Australia (Vic) Tel. (03) 8341 5800
- Diabetes Australia Tel. 1300 136 588
Things to remember
- The glycaemic index (GI) rates carbohydrates according to how quickly they raise the glucose level of the blood.
- The glycaemic load (GL) rates carbohydrates according to the glycaemic index and the amount of carbohydrate in the food.
- A low GI rating of a food does not mean you can eat a larger serve of that food – the total amount of carbohydrate and kilojoules consumed are still important.
- Choose a diet containing plenty of fruits, vegetables and legumes, but with smaller helpings of potatoes and less highly refined grain products and concentrated sugar.
You might also be interested in:
- Diabetes and healthy eating.
- Sporting performance and food.
- Weight loss and carbohydrates.
Want to know more?
Go to More information for support groups, related links and references.
This page has been produced in consultation with and approved by:
(Logo links to further information)
Deakin University - Faculty of Health and Behavioural Sciences
Last reviewed: July 2013
Content on this website is provided for education and information purposes only. Information about a therapy, service, product or treatment does not imply endorsement and is not intended to replace advice from your doctor or other registered health professional. Content has been prepared for Victorian residents and wider Australian audiences, and was accurate at the time of publication. Readers should note that, over time, currency and completeness of the information may change. All users are urged to always seek advice from a registered health care professional for diagnosis and answers to their medical questions.
Content on this website is provided for education and information purposes only. Information about a therapy, service, product or treatment does not imply endorsement and is not intended to replace advice from your qualified health professional. Content has been prepared for Victorian residence and wider Australian audiences, and was accurate at the time of publication. Readers should note that over time currency and completeness of the information may change. All users are urged to always seek advice from a qualified health care professional for diagnosis and answers to their medical questions.
For the latest updates and more information, visit www.betterhealth.vic.gov.au
Copyight © 1999/2014 State of Victoria. Reproduced from the Better Health Channel (www.betterhealth.vic.gov.au) at no cost with permission of the Victorian Minister for Health. Unauthorised reproduction and other uses comprised in the copyright are prohibited without permission.