Exercise Physiology Lecture Notes (30-9-24) PDF

Summary

This document is a lecture presentation on exercise physiology, focusing on nutrition and macronutrients. It covers the roles of carbohydrates, proteins, and lipids, as well as their recommended intakes and dynamics during various types of exercise. Detailed recommendations for optimal post-exercise nutrition and carbohydrate loading principles are also given.

Full Transcript

Course Title :Exercise physiology
Course Code :FM306
Department :Biochemistry

Lecture Title :
Nutrition in Exercise

Lecturer Name :
Dr. Nahla Anas Bashir Nasef
FOM-Tanta university
Lecture Objectives:
Each student at this lecture should be able to:
Identify the role of carbohydrates, lipids and proteins for
athelets
Identify the recommended intake of carbohydrates, lipids and
proteins during exercise
Identify the dynamics and the interplay between
carbohydrates, lipids and proteins during exercise
Content:
The role of carbohydrates, proteins, and lipids in exercise.
Recommended daily intake of macronutrients for athletes and
physically active individuals.
Dynamics of carbohydrates, proteins, and lipids during
different types of exercise
Recommendation for post-exercise nutrition in recovery and
muscle repair.
Macronutrient timing to optimize exercise performance and
recovery.
Nutrition in exercise
 Exercise nutrition
Exercise nutrition is the study and practice of nutrition and diet to
improve the athletic performance.

Nutrition is an important part of many sports training regimens in:
Strength sports (e.g. weightlifting and bodybuilding)
Endurance sports (e.g. cycling, running, swimming).
 Exercise nutrition
Exercise Nutrition focuses its studies on the type, the quantity of
fluids and food taken by an athlete.

In addition, it deals with the consumption of nutrients like, minerals,
supplements and organic substances that include carbohydrates,
proteins and fats.
Why study nutrition in exercise?
Athletes need to fuel their bodies adequately because exercise degrades
the body so the body needs nutrition to repair and recover.

This fueling process requires a specialized approach; therefore, athletes
should seek out professionals who are experts in sports nutrition and
experienced in developing individualized plans.
The Body must have:

Protein to rebuild muscle.

Carbohydrate for energy and to burn fat.

Vitamins + Minerals (Electrolyte Balance)

Antioxidants to stop Free Radicals (oxidative
stress caused by exercise).
Benefits of optimal nutrition in
exercise:
Delay fatigue and enhance energy levels... during exercise
and all day long.
Lead to better and faster recovery.
Reduce soreness and inflammation; enhance immunity.
Minimize injury risk... return to play time after injury or
surgery.
The Nutrient Of Ultimate Performance
Carbohydrates Carbohydrates
Carbohydrates
and Their Role Recommended
significance
in Exercise intake

Carbohydrates
Carbohydrate Carbohydrate
Dynamics in
timing Loading
Exercise
Carbohydrates and Their Role in
Exercise
Carbohydrates are the body's preferred energy source, especially
during high-intensity exercise.
When consumed, carbohydrates are broken down into glucose, which
is either used immediately for energy or stored as glycogen in
muscles and the liver.
During exercise, glycogen is the primary fuel for muscle contraction,
particularly in anaerobic and moderate-to-high intensity aerobic
exercise
 Carbohydrates Recommended
intake
For the general population: 45-65% of daily caloric intake.

Athletes and Active Individuals: 55-65 % of total energy
(not less than 55% of daily intake)
For moderate exercise: 5-7 grams of carbohydrates /kg/day
For intense endurance activities: 8-12 grams /kg/day.
Carbohydrates significance

Carbohydrate are nutrient-dense rich foods , it contains
dietary fiber, vitamins, minerals & various phytochemicals.

Main source of Energy especially for Glucose-dependent
cells

Supply Energy both aerobically and anaerobically
Carbohydrates significance
Mandatory for cognitive concentration and blood glucose
maintenance

Carbs have an important role in recovery from high-intensity
activity & are essential to replenish muscle fuel stores after
hard training or events

Protein sparing and ketosis hindering
Carbohydrates Dynamics in Exercise
Carbohydrates are the primary fuel for high-intensity
exercise because they are quickly metabolized for energy
through glycolysis and oxidative phosphorylation.
Carbohydrate availability directly affects exercise
performance, especially in endurance activities
 Carbohydrate Dynamics in Exercise
Glycogen Utilization:
During short bursts of moderate-to-high-
intensity exercise, muscle glycogen is the
dominant energy source, with depletion rates
dependent on intensity and duration.

As glycogen stores decline, fatigue sets in,
reducing performance, often referred to as
"hitting the wall."
 Carbohydrate Dynamics in Exercise
Blood Glucose Maintenance:
For prolonged exercise, liver glycogen is broken
down into glucose and released into the bloodstream
to maintain energy levels.
Once glycogen stores are exhausted, the body starts
utilizing alternative energy sources, primarily fats,
but at the cost of exercise intensity.
 Carbohydrate timing
Carbohydrate Intake Before, During, and After Exercise:
Pre-Exercise: A meal high in carbohydrates 1 -4 gm/kg about 1 -4
hours before exercise
Aim
Optimize glycogen stores to ensure an adequate fuel supply
Maintain blood sugar
Optimize hydration
Avoid Hunger
 Carbohydrate timing
During Exercise:
For Brief exercise (< 45 mins) Not needed
For activities lasting longer than 90 minutes, consuming 30-60g of
carbohydrates per hour (e.g., glucose or maltodextrin)
Aim
Sparing muscle glycogen
Prevent hypoglycemia effect on CNS
Better performance & delay fatigue
 Carbohydrate timing
Post-Exercise: athlete should consume 1 to 1.5 gm carbohydrates
/kg immediately after exercise (within 30 minutes) to accelerate
recovery. This period, often called the "glycogen window,"
Aim
To replace muscle glycogen stores as trained muscle store more glycogen
than untrained one especially in those who trained more than once per
day
To decrease muscle breakdown
 Carbohydrate Loading
Carbohydrate Loading is a strategy used by endurance athletes to increase muscle
glycogen stores before competition. It is a performance- enhancement strategy (
fights fatigue)
 Carbohydrates loading principle
Two phases are met :

Glycogen depletion phase: the amount of glycogen is depleted to
some degree by
Dietary manipulation
Moderate calorie restriction
Increased training.
Glycogen replenishment phase :
Training intensity is reduced
Carb content is greatly increased.
 Applying Carbohydrates loading
Beginning 6 days before your competition.
1- Carb depletion phase : 3 days
Maintaining very high training intensity.
Eat 5- 6 meals daily.
Caloric ratio:
20% fats
60% protein
20% carbohydrates
 Applying Carbohydrates loading
2- Carb loading phase: last 3 days
Reduced training during the first 2 days & none on the last day before competition.
Rest a lot & keep workouts very high intensity & only 30 minutes duration
CHO intake 10- 12 gm/kg /day
Caloric ratio:
15% fats
15% protein
70% carbohydrates.
The Nutrient of Muscle building
The Favorite Nutrient of athletes
Proteins and Proteins
Their Role in Recommended
Exercise Intake

Protein Timing and
Dynamics in Quality of
Exercise Protein Intake
Proteins and Their Role in Exercise
Proteins are essential for muscle repair, recovery, and
growth.

During exercise, especially resistance training, muscle
fibers are damaged, and protein is necessary to repair
and build stronger muscle tissue.

Proteins are also involved in the synthesis of enzymes,
hormones, and immune function, which are critical for
overall health and performance
 Proteins Recommended Intake
General Population: 0.8 grams of protein /kg/day.
Athletes:
Endurance athletes: 1.2-1.4 grams /kg/day, particularly during prolonged
activities like marathon running.
Strength athletes: 1.6-2.0 grams /kg/day as they require more protein for
muscle repair and growth as they experience more muscle damage during
resistance training.
 Protein Dynamics in Exercise
Muscle Protein Breakdown and Synthesis (MPB vs. MPS):
Exercise, especially resistance training, leads to muscle damage, increasing
muscle protein breakdown (MPB).
Post-exercise protein consumption promotes muscle protein synthesis
(MPS), essential for recovery and hypertrophy.
The balance between MPB and MPS determines muscle growth or loss.
Protein Dynamics in Exercise:
Protein Oxidation During Prolonged Exercise:
While not a major energy source, amino acids from protein can be
oxidized during prolonged, glycogen-depleting exercise.
This occurs particularly when carbohydrate stores are low, forcing
the body to rely on alternative substrates.
 Timing and Quality of Protein Intake:
It is important to Get Enough & Get it on Time
The success of achieving a positive muscle protein balance
appears to be dependent upon:
The amino acid composition of the food ingested
The amino acid concentration of the blood supplying the muscle cells
The timing of the protein feeding
Timing and Quality of Protein Intake:
Pre-Exercise: Moderate protein intake before exercise can minimize muscle
breakdown.
Post-Exercise: A combination of high-quality protein (20-30g) within 30 minutes to 2
hours and carbohydrates post-exercise accelerates recovery and promotes muscle
repair.
Anabolic window(90-120 min)
Whey protein, for example, has an excellent distribution of the essential amino
acids and contains leucine, a key amino acid that stimulates muscle protein synthesis.
The most misunderstood macronutrient
 Lipids and Lipids
Their Role in Recommended
Exercise Intake

Timing and
Lipid Dynamics
Quality of
in Exercise
Protein Intake
 Lipids and Their Role in Exercise
Lipids (fats) serve as a concentrated source of energy
They are vital for long-term endurance activities as they provide a
stable, long-lasting fuel source when carbohydrate stores are
depleted.
Lipids are also essential for cell membrane integrity, hormone
production, and the absorption of fat-soluble vitamins (A, D, E, and K).
 Lipids and Their Role in Exercise
Omega 3 fatty acids such as
Docosaheaxaenoic acid (DHA) and
Eicosapenatenoic acid (EPA) :
Have beneficial effects on
cardiovascular system
act as moderators of
inflammation
play positive role in improving
strength and aerobic
performance
Lipids Recommended Intake

General Population: 20-35% of daily caloric intake (0.5-1.5
g/kg/day) should come from fats, with an emphasis on
healthy fats such as monounsaturated and polyunsaturated
fats (from sources like nuts, seeds, avocados, and fish).

Athletes: Fat intake should generally fall between 20-35% of
daily calories, but endurance athletes may consume slightly
more to fuel long-duration activities.
 Lipid Dynamics During Exercise
Triglyceride Storage and Mobilization:
Fatty acids stored as triglycerides in adipose tissue are mobilized and broken down into
free fatty acids (FFAs) during exercise.
FFAs are transported to mitochondria, where they undergo beta-oxidation, producing
acetyl-CoA, which enters the Krebs cycle to produce ATP
 Lipid Dynamics During Exercise
At Rest and Low-Intensity Exercise: Lipids are the primary fuel source
During Prolonged Exercise (Long-Term Energy Source): As exercise continues
and glycogen stores are depleted, the body increases its reliance on fat
oxidation to sustain energy.
 Lipids timing
Low-fat food are recommended before exercise
Avoid high fat intake just before & during sport
Small to moderate amounts of fat post exercise is appropriate
(Immediately after exercise CHO & Proteins are required)
Consuming much lipids just close to exercise time result in GI
distress in some athletes
 carbs vs. lipids as source of Energy
Fat Carbohydrates
Much more energy and Sufficient fuel for Less energy and Insufficient fuel for exercise
exercise
metabolized aerobic only metabolized aerobic and anaerobic

Slow source, abundant supply fast source, limited supply

the most efficient fuel for resting muscles the most efficient fuel for working active
muscles
 Interplay Between Carbohydrates, Proteins,
and Lipids During Exercise
The utilization of carbohydrates, proteins, and lipids during
exercise is dynamic and depends on the intensity, duration,
and type of activity performed.
 Interplay Between Carbohydrates, Proteins, and Lipids
During Exercise
High-Intensity, Short-Duration Exercise (e.g., sprints, weightlifting):
Carbohydrates are the primary energy source, with minimal use of fats. Protein's role is
repair and recovery after the exercise.

Moderate-Intensity, Long-Duration Exercise (e.g., cycling, running):
Carbohydrates provide energy early on, but as exercise continues, fats become more
important for sustaining energy. Protein may also be used as an energy source when
glycogen is depleted.

Recovery:
Post-exercise recovery should focus on replenishing glycogen stores through carbohydrate
intake, repairing muscle with protein, and maintaining overall health with balanced fat
consumption
Post-Exercise Nutrition
Recommendations
Carbohydrates: Aim to consume 1.0-1.5 grams/kg within 30 minutes post-
exercise to replenish glycogen.(Glycogen window)

Protein: 20-30 grams of high-quality protein immediately post-exercise
enhances muscle recovery.

Fats: While fat should not be the focus post-exercise, moderate intake is
beneficial for overall health and hormonal balance
 In summary
Carbohydrates are vital for high-intensity activities.

Proteins are essential for recovery and muscle growth.

Lipids provide long-lasting energy for endurance events
Questions
1. Identify carbohydrates loading and how to apply?
2. Compare between carbohydrates and lipids as a source of energy
3. Enumerate significance of lipids
Questions
During prolonged, moderate-intensity exercise, which of the
following macronutrients becomes the predominant energy
source?
A) Carbohydrates
B) Proteins
C) Lipids
D) Vitamins
Questions
What is the recommended daily protein intake for strength
athletes aiming to optimize muscle growth?
A) 0.8 grams per kilogram of body weight
B) 1.0 grams per kilogram of body weight
C) 1.2-1.4 grams per kilogram of body weight
D) 1.6-2.0 grams per kilogram of body weight
Questions
What is the primary role of proteins post-exercise?
A) Providing quick energy for recovery
B) Repairing and synthesizing muscle tissue
C) Increasing glycogen storage
D) Enhancing fat oxidation
Questions
Which of the following is the primary energy source for
high-intensity exercise?
A. Proteins
B. Lipids
C. Carbohydrates
D. Vitamins
Questions
Which strategy is used to maximize glycogen stores before
an endurance event?
A) Protein loading
B) Carbohydrate loading
C) Fat adaptation
D) Electrolyte replenishment
References:
1 Lippincott’s: Illustrated Review Biochemistry.
2 Harpers Illustrated Biochemistry
Thank You
SUE