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运动员的蛋白质需求量(nsca)

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发表于 2012-1-12 10:41:34 | 显示全部楼层 |阅读模式
Protein Needs for Athletes
Protein Needs for Athletes 2
www.nsca-lift.org
Introduction
How much protein do athletes need on a daily basis? What sources of protein are the best? Are the times that protein is
ingested important for gaining lean muscle mass and strength? These are the most pertinent questions that athletes, coaches,
and trainers ask on a consistent basis in relation to protein intake. While carbohydrates are the key nutrient for fueling
intense training, protein is the key nutrient for maximizing training adaptations (i.e., maintaining and improving muscular
strength, endurance, and power) (2, 3). In addition to facilitating training adaptations, proteins are essential components
of muscle, cell membranes, hormones, antibodies, enzymes, and many other body tissues and components. The following
article will discuss protein needs, sources of dietary protein, and the relatively new science of protein timing as it applies to
athletic populations.
Protein Needs
Protein ingestion is associated with the following functions (2, 6, 7, 10, 13, 14, 21):
• Increased rates of protein synthesis
• Increased lean muscle mass accretion
• Improved strength
• Improved recovery from exercise
• Improved immunity
• Decreased musculoskeletal injuries
The health and performance of an athlete is directly related to each of these factors. Therefore, the fact that athletes need
dietary protein is not the question, but rather, the pertinent question is related to the quantity of protein that should be
ingested on a daily basis for athletes training at a high intensity (such as those engaging in sport-specific practices and resistance
exercise programs which can easily accumulate to over 10 hours of intense activity on a weekly basis). The adequacy of
dietary protein intake is typically assessed using the nitrogen balance technique. Nitrogen balance is a laboratory technique
by which both consumption and excretion of all nitrogen is quantified and the net difference calculated. The amount of
protein necessary to elicit balance (when intake equals excretion) is thought to be the dietary requirement (16).
Currently, the RDA for protein in healthy adults is 0.8 g/kg body weight per day (11). The purpose of this recommendation
was to account for individual differences in protein metabolism, variations in the biological value of protein, and nitrogen
losses in the urine and feces. However, many factors should be considered when determining an optimal amount of dietary
protein for training athletes, such as (1):
• Protein quality
• Energy intake
• Carbohydrate intake
• Mode and intensity of exercise
• Timing of protein intake
Protein Needs for Athletes 3
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The current recommended level of protein intake (0.8 g/kg/day) is estimated to be sufficient to meet the needs of nearly
all (97.5%) healthy men and women age 19 years and older. This amount of protein intake may be appropriate for nonathletes,
but it is likely not sufficient to offset the oxidation of protein/amino acids during exercise training (approximately
1 – 5% of the total energy cost of exercise) nor is it sufficient to provide substrate for lean tissue accretion or for the repair of
exercise induced muscle damage (12, 22). In fact, some of the leading research organizations serving athletes have published
recommendations that exceed the 0.8 g/kg/day threshold (1, 12, 20).
The National Strength and Conditioning Association recommends athletes consume 1.5 to 2.0 g/kg of body weight of
protein to ensure adequate protein intake (20). Athletes involved in moderate amounts of intense training (2 – 3 times per
week for 30 – 45 minutes per session) should consume levels at the lower end of this range (110 – 130 grams/day for a 75kg
athlete) while athletes involved in high volume intense training should consume levels at the upper end of this range (130
– 150 grams/day for a 75kg athlete) (1). There has not been an abundance of scientific studies investigating the optimal
amount of dietary protein intakes for athletes. Of the few well-controlled studies that exist, there is a consistent observation
that 0.8 g//kg of body weight is not sufficient for supporting whole body protein synthesis or inducing a positive net protein
balance (8, 9, 17 – 19, 23).
Sources
As mentioned above, protein quality is one of the primary factors to consider when considering which types of protein to
ingest. When looking at the quality of a protein, the amino acid composition of a protein must be considered. Proteins are
primarily classified as complete or incomplete depending on whether or not the protein contains adequate amounts of the
essential amino acids. Of the twenty amino acids used to make proteins (skeletal muscle proteins, antibodies, hormones,
enzymes, etc.) in the body, eleven are considered nonessential, meaning that the body is able to adequately synthesize them,
and 9 are essential, meaning that the body is unable to adequately synthesize them. These essential amino acids, therefore,
must be supplied through the diet.
The quality of protein depends on the level at which it provides the essential amino acids needed for overall body health,
maintenance, and growth. Animal proteins, such as eggs, cheese, milk, meat, and fish, are considered high-quality, or complete,
proteins because they provide sufficient amounts of the essential amino acids in addition to the nonessential amino
acids. Plant proteins, such as grain, nuts, corn, and vegetables are lower-quality proteins because many plant proteins lack
one or more of the essential amino acids, even though they may contain all of the nonessential amino acids.
An internationally used method known as the protein digestibility corrected amino acids score (PDCAAS) is recognized as
the best method of comparing proteins for humans (4). A protein with a PDCAAS of 1.0 indicates that the protein exceeds
the essential amino acid requirements of the body and is therefore an excellent source of protein. This method of determining
protein quality reveals that soy, egg, and milk proteins (casein and whey) are classified as high-quality proteins. Because
these sources of proteins are of the highest quality, it is recommended that athletes consume a majority of their protein from
these sources. An attempt should be made to obtain protein requirements from whole foods, but supplemental protein is a
safe and convenient method of ingesting high quality dietary protein.
Protein Needs for Athletes 4
www.nsca-lift.org
Table 1. Classification of Amino Acids
Essential Amino Acids Non-Essential Amino Acids
Histidine* Alanine
Isoleucine Arginine*
Leucine Asparagine
Lysine Aspartic Acid
Methionine Cysteine
Phenylalanine Cystine
Threonine Glutamic Acid
Tryptophan Glutamine
Valine Glycine
Proline
Serine
Tyrosine
* Essential in certain cases
Protein Timing
Over the past 10 – 15 years, there has been a growing body of scientific literature that has consistently demonstrated the
importance of ingesting protein soon after resistance exercise in order to maximize protein synthesis rates and lean mass (3,
5, 24 – 26). In a study conducted on United States Marines during basic military training, a post-exercise protein supplement
was compared to a non-protein containing supplement (7). At the end of the 54-day trial, researchers reported that
the recruits ingesting the protein supplement had an average of 33% fewer total medical visits, including 28% less visits due
to bacterial or viral infections, 37% less orthopedic related visits, and 83% less visits due to heat exhaustion. In addition,
post-exercise muscle soreness was significantly reduced in subjects ingesting protein when compared to the control groups.
It is important to note that most of the scientific investigations have studied protein intake in beverage form rather than
in whole food form. Protein digestion and absorption are more rapid in the liquid state. For these digestive reasons and for
applying the data that is in the published literature, it is recommended that athletes ingest their protein in beverage form, if
possible.
Protein Needs for Athletes 5
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Summary
Protein intake for athletes continues to be an area of active research. The amount and type of protein intake is continually
debated by athletes, nutritionists, trainers and coaches. The National Strength and Conditioning Association recommends
athletes ingest between 1.5 to 2.0 g/kg of body weight of protein on a daily basis. The exact amount of protein intake is influenced
by many factors, including total energy intake, protein quality, carbohydrate intake, mode and intensity of training,
and the timing of the protein intake. The types of protein that athletes should attempt to derive their intakes are complete,
high-quality proteins. These types of proteins are found in animal proteins (chicken, egg, beef, fish). The proteins found in
milk (whey and casein) are two of the most scientifically studied proteins in supplemental form and are of the highest quality.
Lastly, the timing of protein intake is also an important consideration for the athlete. Athletes should attempt to ingest
high-quality proteins in liquid form as soon as possible following training and/or competition.
References
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position stand: protein and exercise. Journal of the International Society of Sports Nutrition, 26,4:8. 2007.
2. Cribb PJ, Williams AD, Carey MF, and Hayes A. The effect of whey isolate and resistance training on strength, body composition, and plasma
glutamine. International Journal of Sport Nutrition and Exercise Metabolism, 16(5):494 – 509. 2006.
3. Cribb PJ, Williams AD, Stathis CG, Carey MF, Hayes A: Effects of whey isolate, creatine, and resistance training on muscle hypertrophy. Medicine
and Science in Sports and Exercise, 39(2):298 – 307. 2007.
4. Darragh AJ and Hodgkinson SM. Quantifying the digestibility of dietary protein. Journal of Nutrition, 130:1850S – 1856S. 2000.
5. Esmarck B, Andersen JL, Olsen S, Richter EA, Mizuno M, Kjaer M: Timing of postexercise protein intake is important for muscle hypertrophy
with resistance training in elderly humans. Journal of Physiology, 535(Pt 1):301 – 311. 2001.
6. Etheridge T, Philp A, Watt PW. A single protein meal increases recovery of muscle function following an acute eccentric exercise bout. Applied
Physiology, Nutrition, and Metabolism, 33(3):483 – 8. 2008.
7. Flakoll PJ, Judy T, Flinn K, Carr C, Flinn S. Postexercise protein supplementation improves health and muscle soreness during basic military
training in Marine recruits. Journal of Applied Physiology, 96(3):951 – 6. 2004.
8. Forslund AH, El-Khoury AE, Olsson RM, Sjodin AM, Hambraeus L, Young VR. Effect of protein intake and physical activity on 24-h pattern
and rate of macronutrient utilization. American Journal of Physiology, 276(5 Pt 1):E964 – 76. 1999.
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10. Holm L, Olesen JL, Matsumoto K, Doi T, Mizuno M, Alsted TJ, Mackey AL, Schwarz P, Kjaer M. Protein-containing nutrient supplementation
following strength training enhances the effect on muscle mass, strength, and bone formation in postmenopausal women. Journal of Applied
Physiology, 105(1):274 – 81. 2008.
11. Institute of Medicine of the National Academies: Dietary reference intakes for energy, carbohydrate, fiber, fat, fatty acids, cholesterol, protein,
and amino acids (macronutrients). Washington, DC , National Academies Press. 2002.
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of Canada. Medicine and Science in Sports and Exercise, 32(12):2130 – 2145. 2000.
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protein and amino acid supplementation on performance and training adaptations during ten weeks of resistance training. Journal of Strength and
Conditioning Research, 20(3):643 – 53. 2006.
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