The Glycemic Index Diet for Dummies (17 page)

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Authors: Meri Raffetto

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BOOK: The Glycemic Index Diet for Dummies
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Consuming a protein source and a fat source at each meal is a great way to slow down your bods digestion and conversion of carbohydrates into sugar to provide long-term fullness and nutritional health . . . both of which are keys to long-term weight loss!

Eating the right amounts of low-glycemic fruits and vegetables along with portion-controlled low-glycemic starches is great, but if you're pairing those foods with excessive amounts of butter, oils, or high-fat meats, your hard work may all be for naught. Pay attention to your portion sizes. Fats in particular are very calorie dense, so keep a close eye on 'em. One teaspoon of oil, 1 tablespoon of nut butter, or six almonds, for example, is plenty.

Chapter 4
:
Taking Portion Size into Account with the Glycemic Load

In This Chapter

Seeing how glycemic load improves the practicality of the glycemic index

Determining a particular food's glycemic load

Using the glycemic load to increase the kinds of foods you can eat

Looking at the glycemic load levels of common foods

T
he glycemic index is a wonderful tool for determining your best carbohydrate-containing food choices. But like many things in life, it has its limitations, specifically those relating to the amount of food you'd actually eat in a serving, mixed foods, and even different food-preparation methods. As the glycemic index diet has grown more and more popular, new concepts and information are doing their part to lessen the impact of some of these limitations.

One such concept is the glycemic load. Although the glycemic index shows you the quality of your carbohydrates (as explained in Chapter 2), the
glycemic load
breaks those carbs down into the quantity you'd typically eat at one sitting, which can turn a high-glycemic food into a low-glycemic food. Glycemic load is one of the most important concepts to understand so you can make the best food choices based on a realistic portion size. That's why I share the basics of it with you in this chapter.

Going from the Glycemic Index to the Glycemic Load

The
glycemic load,
which is based on the idea that a high-glycemic food eaten in small quantities produces a blood sugar response that's similar to the response produced by low-glycemic foods, is a much more useful tool for your day-to-day use. It allows you to have more food choices than the glycemic index does alone. That's good news because no one wants to be too restricted in what he or she can eat. But to create the glycemic load, researchers first had to come up with the glycemic index.

The glycemic index concept was developed in 1981 by two University of Toronto researchers, Dr. Thomas Wolever and Dr. David Jenkins. Their research compared the effect of 25 grams of carbohydrates (just picture two slices of bread if you're not familiar with the metric system) to that of 50 grams of carbohydrates (picture four slices of bread) to see whether the smaller amount created a lower glycemic response in the human body based on the lower quantity of carbohydrates.

However, with the amount of carbohydrates varying so much in different foods (for instance, some fruits and vegetables have only 5 grams of carbohydrates whereas starches have up to 15 grams), 50 grams of carbohydrates (the standard amount used for glycemic index testing) doesn't always depict the portion size a person may typically eat. To account for this variation, in 1997, Harvard University's Dr. Walter Willet created the glycemic load,
which calculates the quality and quantity of carbohydrates at a meal. The fact that the glycemic load takes portion size into account is quite helpful because the average person is far less likely to eat 50 grams of a particular food in one sitting.

Looking at portion sizes and carbohydrate grams can give you a better understanding of the glycemic load. Although foods vary, Table 4-1 breaks down the average amount of carbohydrates in each carbohydrate-containing food group based on a particular portion size.

As you can see from Table 4-1, the amount of carbohydrates in a serving of a particular food depends as much on the portion size as it does on the food itself. So consuming 50 grams of carbohydrates (which is definitely more than one serving) will have a dramatic impact on your blood sugar. Take carrots, for example. Carrots have a high glycemic index when cooked (41 to be exact), yet they're considered a nonstarchy vegetable. To consume 50 grams of carbohydrates in carrots, you'd have to eat 5 cups! I don't know about you, but even though I like carrots, 5 cups is a bit much (not to mention it may turn your skin orange). Because the amount of carbohydrates in carrots is so low compared to their average portion size, the glycemic load of carrots is low as well.

On the other hand, a serving of instant white rice, another high-glycemic food with a glycemic index of 72, has around 15 grams of carbohydrates per 1/3-cup serving. To eat 50 grams of carbohydrates in instant white rice, you'd have to eat slightly more than 1 cup of rice — a fairly typical portion size for most people. This portion size means the glycemic load for instant white rice doesn't change much from the food's glycemic index.

The glycemic index compares the potential of foods with equal amounts of carbohydrates to raise blood sugar. The purpose of the glycemic load is to have a usable indicator of the glycemic index that takes portion size into account. Although adding glycemic load to the mix may cause the glycemic index of some foods, such as white rice, to remain the same, it opens up the door for enjoying more foods that may have a high glycemic index but a low glycemic load based on different portion sizes.

Calculating Glycemic Load

Whereas calculating the glycemic index requires human clinical trials (as explained in Chapter 2), the glycemic load is a little simpler to dermine. As long as you have some key pieces of information, you can calculate the glycemic load number and then see whether that number fits into the low, medium, or high category. The next few sections walk you through the basics.

Doing the math

The glycemic load uses a specific calculation. So as long as you know the glycemic index of a food and the grams of available carbohydrates (total carbohydrate minus fiber) in that food, you can figure out that food's glycemic load. Here's the calculation:

Glycemic index
×
Grams of carbohydrates ÷ 100

Try working out the calculation for a 1/2-cup serving of raw carrots, which have about 8.6 grams of available carbohydrates and a glycemic index of 45. (
Note:
I've rounded the numbers for simplicity's sake. Feel free to do the same in your own calculations.)

45
×
8.6 = 387 ÷ 100 = 3.9 glycemic load

Want to calculate the glycemic load of instant white rice instead? Well, a portion size of around 2/3 cup of white rice has about 36 grams of available carbohydrates and a glycemic index of 72. Here's the math:

72
×
36 = 2,592 ÷ 100 = 26 glycemic load

To find the amount of available carbohydrates in packaged foods, simply check the nutrition facts label. If the food is raw, like carrots or apples, you can use Table 4-1 as your reference for estimating the amount of available carbohydrates because it gives you the average grams of carbohydrates for the listed portions.

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