SPS1111 Lecture 8 Training the Cardiorespiratory System PDF

Summary

This document provides lecture notes on training the cardiorespiratory system. It covers various aspects of aerobic and anaerobic training, including their intensity, duration, and volume.

Full Transcript

20/09/2022

TRAINING THE
CARDIORESPIRATORY SYSTEM
WEEK 6

1

The Physiology of Aerobic Training

2

Common Reasons to Embark on an
Aerobic Training Program

Why do aerobic training?

Are there any cases in which we would want to to
avoid aerobic training?

3

1
 20/09/2022

Acute Responses to Aerobic Exercise

Cardiovascular Responses (What happens?)
– Stroke Volume

– Heart Rate

– Oxygen Uptake

4

Chronic Responses to Aerobic
Exercise?

– Stroke Volume

– Heart Rate

– Oxygen Uptake

5

Chronic Adaptations to Aerobic Exercise

Respiratory Adaptations
– Training adaptations include increased tidal
volume and breathing frequency with
maximal exercise.

Neural Adaptations
– Efficiency is increased and fatigue of the
contractile mechanisms is delayed.

6

2
 20/09/2022

Chronic Adaptations to Aerobic Exercise

Less glycogen use during exercise and increased fat
utilization
Why would this be beneficial?

LT and OBLA occur at a higher percentage of the trained
athlete’s aerobic capacity

7

Chronic Adaptations to Aerobic Exercise

More rapid rate of lactate/H+ removal

Selective hypertrophy of Type 1
muscle fibers

Increase in the size and number of
mitochondria and myoglobin content

8

Chronic Adaptations to Aerobic Exercise

Bone and Connective Tissue Adaptations

Endocrine Adaptations
Aerobic exercise leads to increases in
hormonal circulation and changes at the
receptor level.

9

3
 20/09/2022

Key Points

One of the most commonly measured
adaptations to aerobic training is an
increase in maximal oxygen uptake
(VO2max) associated with an increase in
maximal cardiac output.
The intensity of training is one of the
most important factors in improving and
maintaining aerobic power.

10

Table 6.1

11

Table 6.1 (continued)

12

4
 20/09/2022

Table 6.2

(continued)

13

Table 6.2 (continued)

(continued)

14

Table 6.2 (continued) (continued)

15

5
 20/09/2022

Designing Aerobic Training Programs

16

Designing Aerobic Training Programs

Principle of Individuality
Requires the manipulation of 5 primary
program design variables.
– training frequency
– exercise duration
– training intensity
– exercise mode
– recovery (intra-session)

17

Training Frequency

Can be influenced by:
– training intensity
– duration of session
– status of athlete

Recommended training frequency: 3-5 days/ wk
– Dependent on intensity of training and status of athlete
– ESSA recommends 150 minutes of moderate intensity physical activity
per week
Some sports may require 6-7 days/ wk
– skill optimization or technique acquisition
Maintenance programs - lower frequency

18

6
 20/09/2022

Training Duration and Intensity

Duration:
– Influenced by the intensity of the session.
intensity & duration are usually inversely proportional.
– 20 minutes → hours
depends upon the goal of the session.
Intensity:
– Plays a key role in improving aerobic fitness.
– Varies depending upon the goal of the session.
LSD, pace/ tempo, interval, or fartlek.
– Can be prescribed in a variety of ways

19

Prescribing Training Intensity

% of HRmax
– HRmax=220-age
– HRmax = 207 – 0.7 x age (from Gellish et al. 2007,
MSSE)
– Athlete specific suggestions by Whyte et al. 2008
(Int J Sports Med)
male athletes: 202 – 0.55 x age
female athletes: 216 – 1.09 x age
– Training zone set to 60 - 90% when using %HRmax
In some cases can be >90% depending on type of training
(e.g., aerobic interval) and athlete status

20

Training Intensity:
Karvonen Method
% of Heart Rate Reserve (HRR)
– Considered more accurate/Gold Standard
– Training zone of 50 - 85% of HRR
– HRR = [(HRmax- Resting HR)*Training
intensity]+Resting HR

Example- Age: 26; Resting HR: 72; Training
zone set between 75%-85%
– [(194-72)*.75]+72=164 bpm
– [(194-72)*.85]+72=176 bpm

21

7
 20/09/2022

Heart Rate Zones

HEART RATE ZONE 1: 50–60% OF HRMAX
– Very light. More for recovery.
HEART RATE ZONE 2: 60–70% OF HRMAX
– Light. Improves general low-intensity aerobic and fat metabolism.
HEART RATE ZONE 3: 70–80% OF HRMAX
– Moderate intensity. Increases cardiovascular function.
HEART RATE ZONE 4: 80–90% OF HRMAX
– Hard intensity. Improves speed endurance and carbohydrate
metabolism. Anaerobic threshold occurs at about 85% HRmax
HEART RATE ZONE 5: 90–100% OF HRMAX
– Maximum intensity. Improves high-intensity endurance and
resistance to build-up of metabolic by-products.

22

Training Intensity: VO2max

%VO2max method:
– training zone of 50 - 85%
– up to 90% and above for elite athletes
– impractical due to equipment
requirements

VO2 Reserve Method:
– target VO2 =
(intensity fraction)(VO2max – VO2rest) + VO2rest
– resting VO2 = 3.5 ml.kg-1.min-1
– Then target VO2 =
(intensity fraction)(VO2max – 3.5) + 3.5

23

Source: Foss, M.L. & Keteyian, S.J. (1998). Fox’s physiological basis for exercise and sport (6th ed.). Dubuque: WCB McGraw-Hill.

24

8
 20/09/2022

Prescribing Training Intensity

Exercise velocity (pace) method:
– limited use outside of a controlled environment.

Blood lactate method:
– invasive, potentially expensive, & inconvenient

25

Onset of blood lactate accumulation
(OBLA)

Source: Weltman, A. (1995). The blood lactate response to exercise. Current Issues in Exercise Science, 4. Champaign: Human Kinetics.

26

Training Intensity: RPE Method

RPE method
– Requires
athletes/clients to be
trained in use of RPE
scales
– Can be influenced by
various external
factors
passive distractors &
environmental
temperature

27

9
 20/09/2022

Types of Aerobic Training

28

Continuous Training

Continuous
– LSD (long slow distance)
75 - 85% HRmax or 60 - 70%
VO2max
Training is longer than race
distance

– Pace/ tempo (high intensity
continuous)
Intensity at or slightly above
competition intensity, corresponding
to the lactate threshold

29

Continuous Training

– Fartlek (speed play)
strictly speaking it is a form of continuous training
Easy running (~70% VO2max) combined with hills
or short, fast bursts (~85-90% VO2max)

Can be adapted for cycling and swimming

30

10
 20/09/2022

Types of Aerobic Endurance Training

– Interval work
close to or slightly above VO2max pace
– 1:1 or 1:0.5 work:rest ratio

– Repetition work (REPS)
> VO2max pace
work bouts of 30 - 90 secs
work: rest ratio of ~ 1:5
anaerobic type training - useful for final kicks &
breakaways

31

Source: Potteiger, J.A. (2000). Aerobic endurance exercise training. In T.R. Baechle & R.W. Earle (Eds.), Essentials of strength and conditioning
(2nd ed.). Champaign: Human Kinetics.

32

Source: Foss, M.L. & Keteyian, S.J. (1998). Fox’s physiological basis for exercise and sport (6th ed.). Dubuque: WCB McGraw-Hill.

33

11
 20/09/2022

TRAINING FOR
ANAEROBIC FITNESS

34

TRAINING FOR ANAEROBIC FITNESS

High intensity events lasting 30-120 seconds.
– majority of energy drawn from anaerobic pathways.

Success often involves development of one
or more of the following areas:
– muscular strength and/ or hypertrophy.
– maximal power.
– maximal sprinting velocity.
– sustained sprinting ability.
– repeated high-intensity sprinting ability
– fatigue resistance.
– fuel (substrate) storage.

35

BACKGROUND INFORMATION

Many individual and team sports require bursts of
high-intensity activity during competition.
– bursts vary in length (e.g., weightlifting vs 400 metre)
– intensity & duration determine degree to which ATP-PC &
Anaerobic systems are stressed.

To excel in high-intensity events, ATP turnover must
be rapid.

ATP-PC, Anaerobic Glycolysis, & O2 systems have
different fuel capacities and ATP turnover rates.

36

12
 20/09/2022

ATP and PCr During Sprinting

37

Glycolysis (SHORT TERM)

Medium energy capacity.
– muscle glycogen & blood glucose.

High ATP delivery power.

Rapid activation
– O2 independent (does not require O2)

Does not reach maximal power until after 5 secs.

Extended demand on system implicated with fatigue.

38

Aerobic Metabolism (LONG TERM)

Large potential fuel capacity.
– Low ATP delivery power.

2-3 minute lag time to get up to speed.
– Unsuitable for major energy supplier during high-intensity
ex.

Smallest contribution to energy production during
high-intensity short term exercise.
– 100 metre sprint - 95-98% ATP-PC; 2-5% Anaerobic
glycolysis; negligible O2.

39

13
 20/09/2022

ANAEROBIC TRAINING METHODS:
Resistance Training

Resistance Training:
– method of choice for increasing
hypertrophy & strength.
– useful for increasing power (Olympic
lifts).
– need to determine:
contraction modes.
training velocities.
intensity, volume and recovery between
sets to suit goals of specific phase.
core stability work should be incorporated.

40

ANAEROBIC TRAINING METHODS:
Plyometrics
Stretch-Shortening Cycle Exercises:
– Should be geared towards sports specificity
Ex: triple jumpers should perform split squat jumps.
– begin with low intensity and build gradually.

Muscle spindle Interneuron is
detects lengthening signaled

Muscle contract

41

ANAEROBIC TRAINING METHODS

– set volume (# of contacts per session).
beginner - 80 to 100.
intermediate 100 to 120.
advanced 120 to 140.
– Source: Potach & Chu, 2000

– Must follow the principles of progressive overload
High volume & low intensity--> high intensity & low volume

– discontinue session if technique deteriorates.

42

14
 20/09/2022

ANAEROBIC TRAINING METHODS:
Sprint Training

Sprint Training:
Speed, agility, & quickness (SAQ).
Interval training
– ATP-PC system
– glycolytic system
active versus passive recovery

43

ANAEROBIC TRAINING METHODS:
High Intensity Interval Training (HIIT)

High-intensity work with low-intensity relief (or full
rest):
Requires sufficient rest
Ratios of ~1:2-1:4 (glycolysis) or >1.5 (ATP-PC)
Duration of work is usually no longer than 60
seconds

44

FREQUENCY OF
ANAEROBIC TRAINING

Generally the more frequent and longer duration
programs produce greater improvements in
performance.
– 4 times/wk superior to 2.
– 16 week program superior to 4 week.
Athletes seldom spend 100% of a training session
working the anaerobic energy system.
– possible exception is pure sprint sports such as 100 m.
– too taxing on the body if entire session is devoted to this.
– should spend some time working the aerobic system.
important for improving PCr resynthesis.

45

15
 20/09/2022

DURATION OF
ANAEROBIC TRAINING

Duration of the work effort:
– ATP-PC system training:
5 - 10 seconds.
very high-intensity.
ideally should stress the muscles used in competition.
30 s rest to replenish around 50% of PC
3 min to replenish 90-100% ATP
8-10 min to replenish 100% of PC
– Anaerobic Glycolysis system training:
20 - 60 seconds.
high intensity.
active or passive rest depending upon goal of session.

46

VOLUME OF ANAEROBIC TRAINING

Beginners/ inexperienced:
– begin low and build gradually.

Advanced/ elite athletes:
– volume depends upon phase of periodized plan.
– generally remains quite high.
– undulates with intensity (which also usually remains fairly
high).
– caution should be practiced to avoid overtraining.

47

QUESTIONS?

48

16