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Sports Nutrition |
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Sports nutrition is built upon an understanding of
how nutrients such as carbohydrates, fats, and protein
contribute to the fuel supply needed by the body to perform
exercise. These nutrients get converted to energy in the
form of adenosine triphosphate or ATP. It is the energy
released by the breakdown of ATP that allows muscle cells to
contract. Each nutrient has unique properties that determine
how it gets converted to ATP.
Carbohydrates are the main nutrients that fuel
exercise of a moderate to high intensity, while fats
can fuel low intensity exercise for long periods of time.
Proteins are generally used to maintain and
repair body tissues, and are not normally used to power
muscle activity.
Tips for athletes - How to eat for sports performance and recoverySports Nutrition - Carbohydrates - Carbs Carbohydrates are arguably the most important source of energy for athletes. No matter what sport you play, carbs provide the energy that fuels muscle contractions. Once eaten, carbohydrates breakdown into smaller sugars (glucose, fructose and galactose) that get absorbed and used as energy. Any glucose not needed right away gets stored in the muscles and the liver in the form of glycogen. Once these glycogen stores are filled up, any extra gets stored as fat.
Glycogen
is the source of energy most often used for exercise. It is
needed for any short, intense bouts of exercise from
sprinting to weight lifting because it is immediately
accessible. Glycogen also supplies energy during the first
few minutes of any sport. During long, slow duration
exercise, fat can help fuel activity, but glycogen is still
needed to help break down the fat into something the muscles
can use.
Adequate
carbohydrate intake also helps prevent protein from being
used as energy. If the body doesn’t have enough
carbohydrate, protein is broken down to make glucose for
energy. Because the primary role of protein is as the
building blocks for muscles, bone, skin, hair, and other
tissues, relying on protein for energy (by failing to take
in adequate carbohydrate) can limit your ability to build
and maintain tissues. Additionally, this stresses the
kidneys because they have to work harder to eliminate the
byproducts of this protein breakdown.
Carbohydrates have other specific functions in the body
including fueling the central nervous system (CNS) and
brain.
Storing Carbohydrates One gram of carbohydrate provides four calories of energy. Athletes often talk about carbohydrate loading and carbohydrate depletion which refers to the amount of carbohydrate energy we can store in our muscles. This is generally around 2,000 carbohydrate calories, but we can change this number through depletion and loading. During depletion (from diet, exercise or a combination) we use up the stored carbohydrate.
If we
don’t replenish these stores, we can run out of fuel for
immediate exercise. Athletes sometimes refer to this as
"hitting the wall." In the same way, eating large amounts of
carbohydrates can increase these stores. This is often
referred to as carbohydrate loading or carbo-loading. Our
maximal carbohydrate storage is approximately 15 grams per
kilogram of body weight [15 grams per 2.2 pounds]. So, for
example, a 175-pound athlete could store up to 1200 grams of
carbohydrate [4,800 calories]; enough energy to fuel high
intensity exercise for quite some time.
How Carbohydrates Fuel Exercise Carbohydrates stored as glycogen are an easily accessible source of energy for exercise. How long this energy supply lasts depends on the length and intensity of exercise and can range anywhere from 30 to 90 minutes or more. To avoid running out of energy during exercise, start with full glycogen stores, replenish them during exercise and refill them after exercise to be ready for the next workout. Types of Carbohydrates Carbohydrates are also divided into simple and complex forms. Simple sugars (carbs) are absorbed and converted to energy very quickly and provide a rapid source of energy. Fruit and energy drinks are a good source of simple carbohydrates.
Complex
carbohydrates take a bit longer to be digested and absorbed
into the body. They also take longer to breakdown and
therefore provide energy at a slower rate than simple
sugars. Examples of complex carbohydrates are breads, rice
and pasta. Starch and fiber are also considered complex
carbohydrates but fiber can’t be digested or used for
energy. Starch is probably the most important energy source
in an athlete’s diet because it is broken down and stored as
glycogen. Foods high in starch include whole grain breads,
cereals, pasta, and grains.
Sports Nutrition – Fat
Dietary
fat is often blamed for many health problems; however, fat
is an essential nutrient for optimal health. Adipose tissue
(stored fat) provides cushion and insulation to internal
organs, covers the nerves, moves vitamins (A, D, E, and K)
throughout the body and is the largest reserve of stored
energy available for activity. Fat is stored when we consume
more calories than we use. There is an optimal level
of body fat for health and for
athletic activity. When that optimal level is exceeded, too
much dietary fat can lead to problems with health as well as
athletic performance.
Types
of Dietary Fat
How
Fat Provides Energy for Sports
Fat provides the highest concentration of energy of all the nutrients. One gram of fat equals nine calories. This calorie density, along with our seemingly unlimited storage capacity for fat, makes fat our largest reserve of energy. One pound of stored fat provides approximately 3,600 calories of energy. While these calories are less accessible to athletes performing quick, intense efforts like sprinting or weight lifting, fat is essential for longer, slower lower intensity and endurance exercise such as easy cycling and walking.
Fat
provides the main fuel source for long duration, low to
moderate intensity exercise (endurance sports such as
marathons, and ultra marathons). Even during high intensity
exercise, where carbohydrate is the main
fuel source, fat is needed to help access the stored
carbohydrate (glycogen).
Using fat
as fuel for exercise, however, is dependent upon these
important factors:
For these
reasons, athletes need to carefully time when they eat fat,
how much they eat and the type of fat they eat. In general,
it’s not a great idea to eat fat immediately before or
during intense exercise.
Sports Nutrition - Protein
Proteins
are often called the building blocks of the body. Protein
consists of combinations of structures called amino acids
that combine in various ways to make muscles, bone, tendons,
skin, hair, and other tissues. They serve other functions as
well including nutrient transportation and enzyme
production. In fact, over 10,000 different proteins are in
the body.
Adequate,
regular protein intake is essential because it isn’t easily
stored by the body. Various foods supply protein in varying
amounts with complete proteins (those containing 8 essential
amino acids) coming mostly from animal products such as
meat, fish, and eggs and incomplete protein (lacking one or
more essential amino acid) coming from sources like
vegetables, fruit and nuts. Vegetarian athletes may have
trouble getting adequate protein if they aren’t aware of how
to combine foods.
Protein Needs for Athletes
Athletes
need protein primarily to repair and rebuild muscle that is
broken down during exercise and to help optimize
carbohydrate storage in the form of glycogen. Protein isn’t
an ideal source of fuel for exercise, but can be used when
the diet lacks adequate carbohydrate. This is detrimental,
though, because if used for fuel, there isn’t enough
available to repair and rebuild body tissues, including
muscle.
Recommended Daily Protein Intake
How
Much Protein is that?
Not much, as it turns out. Here is a list of some high protein foods.
Food,
Amount, Protein
Fish, 3 oz, 21 grams Chicken, 3 oz, 21 grams Turkey, 3 oz, 21 grams Meat, 3 oz, 21 grams Milk, 8 oz, 8 grams Tofu, 3 oz, 15 grams Yogurt, 8 oz, 8 grams Cheese, 3 oz, 21 grams Peanut butter, 2 tbsp, 8 grams Eggs, 2 large, 13 grams |
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