History

Ex Nutr c5-CHO History • Krogh and Lindhardt 1920 • RER change after high fat diet • Levine, Gordon and Derick 1924 • Boston marathon, blood glucose decline • Christensen 1932 • Exercise intensity increased, carbohydrate utilization increased • Bergstrom and Hultman 1966-67 • Muscle biopsy technique • Muscle glycogen • Costill, Coyle, Sherman 1980’s • High carbohydrate diet vs endurance capacity • Costill 1973 • Isotope technique 同位素 (2H, 3H) (13C, 14C)

Ex Nutr c5-CHO Role of Carbohydrate • Glycogen – • Muscle glycogen • 12~16 g/kg • Liver glycogen 80~100g • Maintain blood glucose level • Fuel for brain ~0.1 g/min • May down to < 20 g after overnight fast • Hepatic glucose output • liver +kidney

Ex Nutr c5-CHO

Ex Nutr c5-CHO Sources of blood glucose

Ex Nutr c5-CHO Hypoglycemia • blood glucose < 3 mM • During exercise, when liver glycogen depleted • Glucose production rate insufficient for glucose uptake by muscle • Symptoms: • Rate of glucose uptake by brain insufficient • Dizziness, nausea, cold sweat, reduced mental alertness, loss of motor skill, increased heart rate

Ex Nutr c5-CHO

Ex Nutr c5-CHO Carbohydrate Before Exercise • Carbohydrate Supercompensation • Carbohydrate loading 肝醣超載 • Classic protocols • Low CHO diet (25%) for 3 days, followed by 3 days high CHO diet (75%) • Moderate protocols • Mixed diet 3 days (50% CHO) followed by 3 days high CHO diet (70%) • During taper period, gradually decreased training: 75%VO2max for 90 min on 1st day, to complete rest on 6th day

Ex Nutr c5-CHO Classical vs moderate protocol

Ex Nutr c5-CHO Stage 1: 100 g CHOstage 2: 400-625 g CHO (classical)

Ex Nutr c5-CHO Moderate protocol

Ex Nutr c5-CHO Carbohydrate Supercompensation • Classic protocols disadvantages • Hypoglycemia • Practical problems • GI problem • Poor recovery • Uncomfortable on training • Mood disturbance

Ex Nutr c5-CHO Benefits • 20% increases time to exhaustion • ↑2%-3% in Time trial • At least 90 min before the benefits • Improve performance in team sports involving high-intensity intermittent exercise and skills • Soccer, hockey • No effect on Sprint performance, or repeated bouts of high-intensity ex • Athletes in high-intensity training still need high CHO in diet • Low CHO diet impaired endurance capacity

Ex Nutr c5-CHO CHO loading improve soccer performance In second match (3 days after 1st match)

Ex Nutr c5-CHO

Ex Nutr c5-CHO Supercompensation Strategies in Sport • Endurance sports • Consecutive days • May be difficult for supercompensation • Marathon and triathlon • High intensity exercise (95-100% VO2max) not a limit factor • 1 g glycogen – 3 g water……increase mass

Ex Nutr c5-CHO Carbohydrate Intake 3-5 hour before Exercise • Can ↑muscle and liver glycogen • CHO within 1 hr before exercise only ↑liver glycogen • Overnight fasting – liver glycogen depleted • CHO-rich meal (140-330 g) • Bread, jam, honey, cereals, bananas, canned fruits, juice • increase muscle glycogen • improved endurance performance • For practice • 200-300 g CHO 3-4 hours before exercise • Especially when CHO is unavailable during exercise

Ex Nutr c5-CHO Carbohydrate Intake 3-5 hour before Exercise • Transient fall in plasma glucose at onset of exercise • ↑CHO oxidation,↑glycogenolysis • Compensated by ↑CHO availability • Blunting FA mobilization and fat oxidation • NO detrimental effect to exercise performance

Ex Nutr c5-CHO Carbohydrate Intake 30-60 min before Exercise • Ingestion CHO Within 1 h before exercise • Largely elevated blood glucose and insulin • Transient fall in plasma glucose with the onset exercise • Increased CHO oxidation rate • Blunting of FA mobilization (insulin-mediated inhibition of lipolysis), and ↓fat oxidation in muscle • Transient fall in plasma glucose with the onset exercise • Hyperinsulinemia • Muscle contraction stimulate muscle glucose uptake • Exercise-induced normal liver glycogen output inhibited by CHO ingestion • Still improved endurance exercise performance • Individual variations, try and error

Ex Nutr c5-CHO Carbohydrate Intake 30-60 min before Exercise • Glycemic Index (GI) 升糖指數 • [Area under curve (AUC) (X) / AUC (glucose)] x 100

Ex Nutr c5-CHO

Ex Nutr c5-CHO Carbohydrate during Exercise • Ingestion CHO during exercise (>45 min) improved endurance capacity and performance • Mechanisms • Maintaining blood glucose and high level of CHO oxidation • Glycogen Sparing • Promoting glycogen synthesis during exercise • ↓glycogen breakdown, ↑glycogen syn in low-intensity ex • Affecting motor skill • Especially involving fast running, rapid movement, explosive • Affecting the central nervous system

Ex Nutr c5-CHO

Ex Nutr c5-CHO Carbohydrate during Exercise • Feeding schedule: bolus vs intervals • Little effect on exogenous CHO oxidation • Amount of CHO • Maximal exogenous CHO oxidation rate 1-1.2 g/min • 70 g/h = 1L sports drink = 600 ml cola = 3 banana = 1.5 power bar, energy bar • Type of CHO • Glucose, maltose, sucrose, maltodextrins: up to ~1 g/min • Fructose, galactose: up to ~0.6 g/min, usually GI discomfort • Inclusion of 2-3 different CHO result in exogenous CHO oxidation rates ~1.3 g/min • Glucose, fructose, sucrose • Separate transporters across intestinal wall

Ex Nutr c5-CHO

Ex Nutr c5-CHO CHO consumption CHO oxidation

Ex Nutr c5-CHO Hr of exercise at ~60% VO2max

Ex Nutr c5-CHO Results in time trial and total power output during the time trial

Ex Nutr c5-CHO endogenous exogenous

Ex Nutr c5-CHO Carbohydrate during Exercise • Exercise intensity • <50%VO2max, exogenous CHO oxidation rate increase with increasing total CHO oxidation rate • >60%VO2max, no further increase of CHO oxidation • Limitation to Exogenous CHO oxidation • Gastric emptying not a limiting factor • Limited by rate of digestion, absorption, transport of glucose into systemic circulation • > 80% VO2max reduce blood flow to gut • Hepatic glucose output highly regulated, if supply from intestine too large, glycogen synthesis may be stimulated in liver • Infusion of glucose (> 10 mM in blood) can make Exogenous CHO oxidation >> 1 g/min

Ex Nutr c5-CHO

Ex Nutr c5-CHO Metabolic effects of CHO intake during exercise • CHO ingested at onset of exercise • ↑ insulin in first minutes of exercise • ↓lipolysis, ↓ FA, ↓fat oxidation rates • Also ↓transport of FA into mitochondria • CHO ingested later during exercise • Fat oxidation less affected because insulin release is inhibited by epinephrine

Ex Nutr c5-CHO

Ex Nutr c5-CHO Female runner in 100 Km run, Moran ST, 2011

Ex Nutr c5-CHO Carbohydrate After Exercise • Replenishment of muscle glycogen • Regulation of Glucose uptake and Glycogen Synthesis • Glucose uptake - GLUT-4 • Muscle contraction (Ca+) • Insulin secretion • Glycogen synthesis depends on • enzyme activity, especially glycogen synthase • transport glucose into cell, influenced by muscle glycogen concentration and insulin

Ex Nutr c5-CHO

Ex Nutr c5-CHO Glycogen synthesis • Rapid phase of glycogen synthesis • Glycogen synthase : Inactive D-form  active I form • Exercise, low muscle glycogen activate glycogen synthase • GLUT-4 translocation: last for only few hours in the absence of insulin • When muscle glycogen level low, enhanced glucose uptake may last longer • Slow phase of glycogen synthesis • Depends on insulin concentration • Muscle contraction increases insulin sensitivity, lasted for several hours • Increased GLUT-4 expression

Ex Nutr c5-CHO Carbohydrate After Exercise • Postexercise feeding and rapid recovery • Glycogen resynthesis very low without CHO ingestion • Timing of CHO intake • As soon as possible after exercise • Rate of CHO ingestion: up to 2 g/kg/h (1.2-2.0 g/min) • Type of CHO ingested: High GI • Especially in the first hours after exercise, ↑glucose availability • glycogen synthesis rate for fructose: 50% of glucose • Protein and CHO ingestion • Additive effect (< 1.2-2 g/kg/h CHO), certain amino acids stimulate insulin secretion • Some study showed no additional effect when CHO ingestion at 1.2 g/kg/h, some study showed addition effect even in high CHO intake • Solid versus Liquid • Similar results • High-GI

Ex Nutr c5-CHO

Ex Nutr c5-CHO Post-exercise recovery

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