Chapter 15

Chapter 15 • Body Composition and Nutrition for Sport

Chapter 15 Overview • Body composition in sport • Assessment • Sport performance • Weight standards • Achieving optimal weight • Nutrition and sport • Classification of nutrients • Water and electrolyte balance • Dehydration and exercise performance • Athlete’s diet • Sport drinks

Body Composition in Sport • Body composition: body’s chemical and molecular composition • General models of body composition • Chemical model • Anatomical model • Two-compartment model

Figure 15.1

Body Composition in Sport:Assessment • Provides more information • Height and weight not enough to know fitness status –  Percent body fat,  performance • Body composition measured several ways • Densitometry/hydrostatic weighing • DEXA • Air plethysmography • Skinfold • Bioelectric impedance

Body Composition in Sport:Assessment • Densitometry: measures body density • Hydrostatic (underwater) weighing • Muscle heavier than water, fat lighter than water • Most commonly used method • Limitations of hydrostatic weighing • Lung air volume confounding • Conversion of body density to percent fat • Fat-free density varies among people

Figure 15.2

Body Composition in Sport:Assessment • DEXA • Dual-energy X-ray absorptiometry • Quantifies bone and soft-tissue composition • Precise and reliable but expensive and technical • Air plethysmography (Bod Pod) • Another densitometry technique • Air displacement (instead of water) • Easy for subject, difficult for operator, expensive

Figure 15.3a

Figure 15.3b

Figure 15.4

Body Composition in Sport:Assessment • Skinfold • Most widely used field technique • Measures thickness at a minimum of three sites • Uses quadratic equations, reasonably accurate • Bioelectric impedance • Electrodes on ankle, foot, wrist, hand • Current passes from proximal to distal sites • Fat-free mass good conductor, fat poor conductor • Reasonably accurate, could be better

Figure 15.5

Figure 15.6

Body Composition in Sport:Sport Performance • Fat-free mass (includes muscle) • Important variable for athletes to know –  Good for power, strength, muscle endurance • But bad for aerobic endurance (more mass to carry) • Relative body fat (percent body fat) • Fat: dead weight but useful energy store • Less fat usually = better performance • Exceptions: sumo wrestler, swimmer, weight lifter

Body Composition in Sport:Weight Standards • Guide for optimal body size and composition for a given sport • Can be misleading • Elite athletes define optimal performance • But do elite athletes define optimal body? • Not always the case

Figure 15.7

Body Composition in Sport:Weight Standards • Inappropriate use of weight standards • Seriously abused by coaches, players • Misconception that small weight loss good, large weight loss better • Can lead to  performance, eating disorders • Making weight: severe weight loss • Wrestling, boxing, etc. • Weight classes can force extreme weight loss • Compete in class too low  injury, poor health

Body Composition in Sport:Risks With Severe Weight Loss • Dehydration • Fasting, extreme caloric restriction  water loss • 2 to 4% weight loss as water  impaired performance • Risk of kidney, cardiovascular dysfunction, death • Chronic fatigue • Underweight  fatigue   performance, injury • Mimics overtraining and chronic fatigue syndromes • Underweight  substrate depletion

Body Composition in Sport: Risks With Severe Weight Loss • Eating disorders • Weight standards can  disordered eating • Anorexia nervosa, bulimia nervosa • More prevalent with women in lean sports • Menstrual dysfunction • Delayed menarche, oligomenorrhea, or amenorrhea • Prevalent in low-body-weight sports • Due to caloric intake < caloric expenditure

Body Composition in Sport: Risks With Severe Weight Loss • Bone mineral loss • Serious consequence of athletic amenorrhea • Anorexia  fracture rate 7 times higher • Female athlete triad • Eating + menstrual + bone mineral disorders • Seen with women in lean-physique, low-body-weight, or endurance sports • Skating, dance, gymnastics, running, swimming

Body Composition in Sport:Weight Standards • Appropriate weight standards • Inappropriate standard risks athlete health • Body composition, not total body weight • Optimal range of percent body fat • Account for sex differences • Weight standards not always appropriate • Technical measurement errors • Not all athletes perform best at ideal composition

Table 15.1

Body Composition in Sport:Achieving Optimal Weight • Avoid fasting and crash diets • Cause more water and muscle loss, less fat loss • Ketosis accelerates water loss • Optimal weight loss:  fat mass,  FFM • Moderate caloric restriction + exercise • Caloric deficit ~200 to 500 kcal/day • Lose no more than 0.5 to 1 kg/week • When near goal, slow weight loss further

Nutrition and Sport • Recommended macronutrient balance • Carbohydrate: 55 to 60% of daily kilocalories • Fat: <35% (<10% saturated) • Protein: 10 to 15% • Optimal for both performance and health

Nutrition and Sport:Classification of Nutrients • Recommended Daily Allowance (RDA) • Outdated—not bad, just insufficient • Estimated safe, adequate dietary intakes and minimum vitamin and mineral requirements • Daily Recommended Intake (DRI) • Current standard • Groups intakes by nutrient function, classification • Four reference values: EAR, RDA, UL, AI

Nutrition and Sport:Classification of Nutrients • Carbohydrate (CHO) • Fat (lipid) • Protein • Vitamins • Minerals • Water

Nutrition and Sport:Classification of Nutrients—CHO • Molecular composition • Monosaccharide, disaccharide, or polysaccharide • Monosaccharides: glucose, fructose, galactose • Functions in body • Energy source (sole source for nervous system) • Regulate fat and protein metabolism • Consumption and storage • Excess CHO stored as glycogen • Dietary CHO intake determines glycogen stores

Nutrition and Sport:Classification of Nutrients—CHO • Determinants of glycogen replacement • CHO intake • Exercise type (eccentric   glycogen synthesis) • Glycogen maintenance • Requires 5 to 13 g CHO/kg body weight per day • In athletes, hunger often insufficient drive for CHO consumption • Insufficient CHO intake  heavy, tired feeling

Figure 15.8

Figure 15.9

Nutrition and Sport:Classification of Nutrients—CHO • Glycemic index (GI) categorizes food based on glycemic (blood sugar) response • High GI (GI >70): sport drinks, jelly beans, baked/fried potatoes, cornflakes, pretzels • Moderate GI (GI 56-70): pastry, pita bread, white rice, bananas, soda, ice cream • Low GI (GI ≤55): spaghetti, legumes, milk, apples/pears, peanuts, M&M’s, yogurt

Nutrition and Sport:Classification of Nutrients—CHO • GI not perfect • Individual GI response varies • Some complex CHOs have high GI • Fat + high GI = lower GI • GI calculations differ depending on reference food (glucose vs. white bread) • Glycemic load (GL) • Improved CHO index • GL = (GI x CHO, g)/100

Nutrition and Sport:Classification of Nutrients—CHO • CHO factors that  exercise time • Normoglycemia, low-GI preexercise snack • CHO loading (1-3 days prior) • CHO feedings during exercise • CHO factors that  exercise time • Hypoglycemia, high-GI preexercise snack • No CHO loading (lower glycogen stores) • No CHO feeding during exercise

Figure 15.10

Figure 15.11

Nutrition and Sport:Classification of Nutrients—CHO • CHO during exercise • Unlike preexercise CHO, does not trigger hypoglycemia • Improved muscle permeability to glucose? • Insulin-binding sites altered during exercise? • CHO intake after exercise essential • Glycogen resynthesis high <2 h after exercise • Protein + CHO intake enhances glycogen stores • Stimulates muscle tissue repair

Figure 15.12

Nutrition and Sport:Classification of Nutrients—Fat • Fat essential for body function • Fuel substrate (triglycerides  FFAs + glycerol) • Component of cell membranes and nerve fibers • Required by steroid hormones and fat-soluble vitamins • Saturated versus unsaturated FFAs • Total fat <35% of total daily kilocalories (0 trans fat) • Saturated fat <10% total daily kilocalories • Cholesterol <300 mg/day

Nutrition and Sport:Classification of Nutrients—Fat • FFAs important fuel during exercise • Delay exhaustion after glycogen depletion • Body cannot metabolize triglycerides (dietary fat) • Must break down triglycerides into FFAs • High-fat versus high-CHO diets • High-fat intake   circulating FFAs (good) • High-fat intake   glycogen storage (bad) • No conclusive evidence on high-fat diets

Nutrition and Sport:Classification of Nutrients—Protein • Protein essential for body function • Cell structure, growth, repair, and maintenance • Used to produce enzymes, hormones, antibodies, and as buffer • Controls plasma volume via oncotic pressure • 20 amino acids: essential versus nonessential • Protein consumption • 15% of total daily kilocalories • ~0.80 g protein/kg body weight per day

Table 15.2

Nutrition and Sport:Classification of Nutrients—Protein • Protein requirements higher for athletes • 1.2 to 1.7 g protein/kg body weight per day • Endurance training: may use as fuel substrate • Strength training: needed for building muscle • Excessive protein intake  health risks • CHO + protein after exercise  improved glycogen and muscle protein synthesis

Nutrition and Sport:Classification of Nutrients—Vitamins • Small but essential organic molecules • Enable use of other ingested nutrients • Act as catalysts and cofactors in chemical reactions • Fat soluble versus water soluble • Fat soluble stored, can reach toxic accumulations • Water soluble excrete, toxicity difficult to reach • In general, unless vitamin deficiency exists, supplementation not helpful

Nutrition and Sport:Classification of Nutrients—Vitamins • B-complex vitamins (12+ total) • Essential for cellular metabolism, ATP production • Needed for pyruvate  acetyl-CoA, formation of FAD and NADP, erythropoiesis • Vitamin C • Important for collagen maintenance, antioxidant • Also, adrenal hormone synthesis, iron absorption • Vitamin E • Stored in muscle and fat • Potent antioxidant

Nutrition and Sport: Classification of Nutrients—Antioxidants • Free radicals • Cellular by-product of oxidative phosphorylation • Highly reactive, may precipitate fatigue • Antioxidants • Quench free radicals, prevent oxidant damage • Muscle antioxidant enzymes • Dietary antioxidants: vitamins E and C, b-carotene

Nutrition and Sport:Classification of Nutrients—Minerals • Minerals • Inorganic substances needed for cellular function • Macrominerals versus microminerals (trace elements) • Calcium • Bone density, nerve and muscle function • Concerns: osteopenia, osteoporosis • Phosphorus • Bound to calcium in bones • Important for metabolism, cell membranes, buffers, bioenergetics

Nutrition and Sport:Classification of Nutrients—Minerals • Iron • Critical for hemoglobin, myoglobin (O2 transport) • Deficiency  anemia • Excess iron  toxicity • Sodium, potassium, chloride • Na+, Cl- found primarily in interstitial fluid • K+ in intracellular fluid • Needed for nerve impulses, cardiac rhythm, fluid and pH balance • Excess intake dangerous

Nutrition and Sport:Classification of Nutrients—Water • 50 to 60% of total body weight • Fat-free mass 73% water versus fat mass 10% water • 1 to 6% body weight loss in sweat common for athletes • 9 to 12% loss can be fatal • 2/3 body water intracellular, 1/3 extracellular • Medium for transportation, diffusion • Regulates temperature • Maintains blood pressure

Nutrition and Sport:Water and Electrolyte Balance • Water gain at rest (33 ml/kg/day) • 60% from beverages • 30% from food • 10% from cellular respiration • Water loss at rest • Evaporation from skin, respiratory tract (30%) • Excretion from kidneys (60%) • Excretion from large intestine (5%) • Sweat (5%)

Chapter 15

Chapter 15

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Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

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Chapter 15:

Chapter 15

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