About half of shoppers report reading nutrition labels “most of the time” or “always”. However, reading labels and understanding them are two different things. Even professional such as myself with extensive knowledge of nutrition can have trouble interpreting food labels. How much more confusing must it be for the average consumer? In addition, food-labeling regulations are complex and can contain excessive jargon. Still, with some basic guidance, I hope I can change that.
Translating the “Alphabet Soup” of Nutrient-Intake and Food-Labeling Standards
To make sense of food labels, you have to be able to distinguish among multiple individual nutrient-intake standards—which can apply to people of different ages, genders and life stages (i.e. pregnancy) and the nutrient intake standards used in food labeling. A two- or three-letter acronym represents each of these standards; here’s a look at the principles behind them:
- Recommended Dietary Allowances (RDA) were first published by the Food and Nutrition Board of the U.S. Institute of Medicine in 1943 and were revised every 5-10 years as new scientific information became available. Still updated periodically, RDAs are now a subcategory of the Dietary Reference Intakes.
- Dietary Reference Intakes (DRI) were introduced in 1997 when the IOM (Institute of Medicine) broadened its scope by including not only RDAs but also new nutrient-intake standards that apply to several life-stage and gender groups.
- Daily Values (DV) are defined by the U.S. Food and Drug Administration; they’ve been required on food labels since 1994.
- Daily Reference Values (DRV) can vary depending on caloric requirements. Information on the labels is intended to apply to people aged 4 years and older. DRVs typically apply to daily diets of 2,000 and 2,500 calories, although there are also DRVs for 3,200 calories.
- Reference Daily Intakes (RDI)are similar to the U.S. RDAs found on food labels before 1994. RDIs apply mainly to essential vitamins and minerals, with four sets that apply to infants, toddlers, people aged 4 years and older, and pregnant or lactating women. One problem with DVs on food labels is that many foods, like breakfast cereals, are consumed by people with dramatically different individual nutrient requirements. Owing to space limitations, labels on most food packages will list DRVs for two calorie levels and one set of RDI numbers (typically the 4-and-older category). Thus, DVs provide only a general guideline for comparison, and they won’t necessarily match the specific nutrient needs of the consumer of that product.
- Trans Fats, Sugars, % of DV You may have noticed that food labels have no DVs for trans fats or sugars. That’s because the IOM simply advises consumers to keep their trans fat intake as low as possible; it does not offer a specific recommendation. As for sugars, the IOM advises that no more than 25% of our overall energy intake should come from added sugars. Unfortunately, sugar values reported on the Nutrition Facts panel do not distinguish between added sugars and naturally occurring sugars. You also might have noticed that some products list a “% Daily Value” for protein, while others do not. If a product makes a claim like “high protein,” its protein content must be listed in grams and % DV). Otherwise, listing the protein content only in grams is acceptable.
Understanding Serving Size, Calories, and Calories From Fat
- Serving size.The FDA has established serving sizes, or Reference Amounts Customarily Consumed, for 139 food product categories. For example, a typical RACC for a beverage is 8 fluid ounces. Be careful to note the serving size and number of servings per container on food labels. For example, the label on a 20-ounce bottle of soda may list 120 calories per 8-ounce serving, but if you drink the whole bottle, all the label values (and % DV) must be multiplied by 2.5. Failing to take the number of servings into account is one of the most common slip-ups consumers make when reading food labels.
- Calories. Carbohydrates, proteins and fats have 4, 4 and 9 calories per gram, respectively, so the calorie value on a food label should be represented by this mathematical formula: (fat grams x 9) + (carbohydrate grams x 4) + (protein grams x 4). However, the calorie value on the label will not always exactly match this calculation. Dietary fiber is included in the carbohydrate gram count, and dietary fibers typically have 0-2 calories per gram. In addition, some rounding is allowed.
- Calories from Fat.This percentage is calculated by dividing the calories from fat by the total calories in the food and then multiplying that result by 100.
Interpreting the Ingredient Listing
Ingredients in a food are listed in decreasing order by their weight in the product. Thus, ingredients at the top of the list are more plentiful than ingredients at the end
FDA rules come from the Food Allergen Labeling and Consumer Protection Act of 2004. The FDA has identified eight major food allergens that account for more than 90% of all food allergies: milk, eggs, fish, crustacean shellfish (crab, lobster, shrimp), tree nuts (for example, walnuts, almonds and pecans), peanuts, wheat and soy. The law requires that the label list the food source name of all major allergens used to make the food. Good manufacturing practices dictate that food companies appropriately clean food-manufacturing equipment between processing batches of allergen-containing and non-allergen-containing foods to avoid cross-contamination. However, some manufacturers may say on the label that the product is made on equipment that is also used to process a food containing a particular allergen. It is important to note that FDA guidance for the food industry states that food allergen advisory statements such as “may contain [allergen]” or “produced in a facility that also uses [allergen]” should not be used as a substitute for adhering to current good manufacturing practices and must be truthful and not misleading.
Understanding Definitions for Nutrient Content Claims
The FDA has definitions for a large number of terms related to nutrient content claims. For example, if a product claims to be a “good” source of vitamin A, it must have at least 10% of the DV; if it claims to be an “excellent” source of vitamin A or be “high in” vitamin A, it must have at least 20% DV.
Interpreting food labels can be confusing. I hope that this article will help you clear up some of your uncertainties about food labels. Being a skilled label reader can be of great help for making better nutritional choices.
See you tomorrow for Day 7 of the 12 Days of Fitness
Til next time, train smart, eat well, and be better.
Just in case, here’s what you might have missed:
Day #1 – Top 10 Reasons Why People Don’t Exercise
Day #2 – The Dangers of Dieting
Day #3 – The New Rules to Strength Training
Day #4 – How to Stay in Shape When You’re Busy
Day #5 – How Natural is “Natural Flavoring”?