High-Intensity Training [YLMSportScience 2015]
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Transcript of High-Intensity Training [YLMSportScience 2015]
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HIGH-INTENSITY TRAINING
Yann LE MEUR1
1 French Institute of Sport, Paris, France Jornadas de actualización en rendimentio deportivo
Vittoria-Gasteiz, 12th September 2015 @YLMSportScience
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Introduction
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Introduction
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Potential of varying quantities of both high-intensity interval training and continuous
high-volume, low intensity training on performance in highly trained athletes
HIT involves repeated short-to-long bouts of rather high-intensity exercise
interspersed with recovery periods
Introduction
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1920’s - Paavo NURMI 14 minutes 36 seconds (5000m)
Short interval training at an intensity superior to a
specific velocity such as 6 × 400m in 60 seconds inside a slow run of 10 to 20km in the woods
1950’s – Emil ZATOPEK (5k – marathon) 4x Olympic champion & WR holder
100x 400m at 1min12s!!!!!
A little history of HIT
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Adaptations to the heart itself ↗ Left ventricular chamber size
↗ Wall thickness ↗ Myocardial contractility ↗ Ventricular compliance
Decrease in total peripheral resistance ↗ Capillary & arteriole vasodilatation
Cardiovascular adaptations
HIT-induced adaptations
More fatigue resistant fast twitch fibres ↗ Oxidative capacity
↗ Lactate endling
Neuromuscular adaptations
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❶ Improved endurance performance ❷ Improved repeated-sprint performance ❸ Increased tolerance to overload periods
HIT-induced adaptations
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3 main questions
❶ How to manipulate the HIT variables ? (The
puzzle)
❷ How to program HIT sessions ?
❸ How much HIT is enough ?
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Introduction
❶ HOW TO MANIPULATE THE HIT VARIABLES ? (THE PUZZLE)
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The Bible of HIT
The following section is an illustrated summary of this review
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From long-interval training to repeated sprint training (3 – 7s sprints, r < 60 s) or sprint interval training (30 s
all-out efforts, r = 2–4 min)
One concept, many declensions
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HIT FORMAT
❶ Long intervals (≥ 45s)
❷ Short intervals (< 45s)
❸Repeated-sprint training
≤10 s, all-out
sprints,interspersed
with recovery periods
❹ Sprint interval training
20–30 s all-out
sprints, interspersed with recovery periods
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The pieces of the puzzle
Buchheit & Laursen, 2013
5x (3min [90% vVO2max], r = 90s [0%])
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The pieces of the puzzle
Prescribtion of HIT consists of the manipulation of at least 9 variables; any of each has a likely effect on the acute metabolic
& neuromuscular response
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« The ability of the coach to understand the isolated acute responses to various HIT formats may assist with selection of the most appropriate HIT session to apply, at the right place and time»
Buchheit & Laursen, 2013
Manipulating HIT: the puzzle
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An example
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Metabolic demands
(1) splitting of the stored
phosphagens;
(2) anaerobic glycolytic
energy production;
(3) the oxidative
metabolism
Neuromuscular load & Musculoskeletal
strain
Primary variables of interest: VO2, cardiovascular work, stored
energy and cardiac autonomic stress
Secondary variables of interest: anaerobic glycolytic energy
contribution & neuromuscular load/musculoskeletal strain
Understanding HIT
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Short intervals (< 60s) Sprint interval
training
Long intervals (> 60s)
Repeated sprint training
Speed strength
Manipulating HIT
Buchheit & Laursen, 2013
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HIT FORMAT
❶ Long intervals (≥ 45s)
❷ Short intervals (< 45s)
❸Repeated-sprint training
≤10 s, all-out
sprints,interspersed
with recovery periods
❹ Sprint interval training
20–30 s all-out
sprints, interspersed with recovery periods
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How to maximize the
time spent at or near
VO2max during HIT
sessions ?
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Maximizing the Time Spent at or Near VO2max
Session 1: 5x (3min [90% vVO2max], r = 90s [0%])
Session 2: 5x (5min [92% vVO2max], r= 2.5min [46% vVO2max])
Session 3: 3x (2x(2min [100% vVO2max], r = 2min [50% vVO2max]))
Session 4: 3min45 [SSG] / 30s[0%] / 3min45 [SSG]
Session 1 Session 2 Session 3 Session 4
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Exercise intensity & interval duration
❶ Exercise Intensity
❷ Interval duration
Work intensities of ≥90% vVO2max are recommended for maximizing TVO2max during long intervals
Option 1
Time needed to reach VO2max + 1 or 2 min
Option 2 ≥ 2–3 min and adjust in accordance with the athlete’s training status (with the less trained performing lower training loads, but longer intervals)
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Relief characteristics
❸ Relief duration & intensity
Maximizing work capacity during
subsequent intervals (by increasing blood
flow to accelerate muscle metabolic
recovery)
Maintaining a minimal level of VO2 to reduce the time
needed to reach VO2max during subsequent
intervals
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Recovery: active or passive?
Passive recovery is recommended when the relief interval is less than
2–3 min in duration
Active recovery can
↘ Muscle oxygenation, ↘ PCr resynthesis (O2 competition) ↗ Anaerobic system engagement during the following effort
May negate subsequent interval performance when recovery < 3min
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Volume of HIT with long intervals
❹ Volume of HIT
Cumulated high-intensity ([90% v/pVO2max) exercise time during typical sessions in well trained athletes has been reported to be 6x 2min 5x 3min 4x 4min 6x 4min 4x 6min 5x 6min
From 10 min > 90 % to 4–10 min > 95 % at VO2max
4x 16min
vs 4x 8min
vs 4x 4min
(max tolerable
intensity)
Seiler et al. 2013
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Anaerobic Glycolytic Energy Contribution
❺ Anaerobic glycolytic energy contribution
Increased by
↗ Intensity ↗ Interval duration ↘ Recovery interval (when the duration of the exercise interval is fixed)
While HIT with long intervals is likely the best format for adapting cardiopulmonary function, blood lactate accumulation (and likely anaerobic glycolytic energy contribution) will still reach high levels (end-session values >10 mmol/L)
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HIT FORMAT
❶ Long intervals (≥ 45s)
❷ Short intervals (< 45s)
❸Repeated-sprint training
≤10 s, all-out
sprints,interspersed
with recovery periods
❹ Sprint interval training
20–30 s all-out
sprints, interspersed with recovery periods
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Exercise intensity
Selection of a work bout intensity that ranges between 100 % and 120 % of vVO2max may be optimal to elicit high VO2 responses
With very-high-exercise
intensities (>120 %
vVO2max), total
T@VO2max for a given HIT
series is usually low
❶ Exercise Intensity
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Work interval duration
Work intervals >10 s appears to be required to elicit
high VO2 responses during HIT involving short intervals (100–120 % vVO2max)
During very short runs (<10 s)
ATP requirements in working
muscle are met predominantly by
oxidative phosphorylation
Recovery: oxymyoglobin stores
rapidly restored ► cardiopulmonary
responses of such efforts are
relatively low, unless exercise
intensity is set at a very high level
❷ Interval duration
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Work interval duration
Increasing the work interval
duration, while keeping work
relief intervals constant
increases T@VO2max
Longer work intervals (e.g. 30 s/30 s vs.
15 s/15 s) are preferred for individuals
with slow VO2 kinetics (i.e. older/less trained), or for exercising on a bike
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Relief characteristics
15s / 15s: absolute T@VO2max might not differ between active and passive recovery conditions 30s / 30s: relief interval intensities around 70 % vVO2max should be recommended to increase both T@VO2max and the T@VO2max/exercise time ratio
❸ Relief duration & intensity
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Series duration, Sets and T@VO2max
Total session volume should enable athletes to spend between 5 (team and racket sports) and 10 (endurance sports) min at VO2max
Example for an endurance athlete:
3x (10x 30s [110% vVO2max], r= 30s [50% vVO2max])
Example for team sports athletes:
2x (10x 30s [110% vVO2max], r= 30s [50% vVO2max])
T@VO2max/total
exercise time ratio
❹ Volume of HIT
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Anaerobic Glycolytic Energy Contribution
❺ Anaerobic glycolytic energy contribution
Increased by
↗ Work interval intensities (110/60% > 100/70% > 90/80%) ↗ Work/relief ratio (at a fixed work interval)
Two solutions if you want to limit anaerobic glycolytic energy contribution: Reducing the work/relief ratio and using passive recovery Use submaximal work interval intensities (i.e. ≤ 100 % vVO2max, which is less likely to trigger anaerobic glycolytic energy contribution, with active recovery periods (≥ 50 % vVO2max)
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Anaerobic Glycolytic Energy Contribution
Field-based HIT formats with short intervals are generally associated with lower initial rates of blood lactate accumulation compared with long intervals
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Neuromuscular load during Short- and Long- Intervals
Greater load associated with short intervals
Modulated by
Change of direction Surface (hard, grass, sand)
Locomotion mode (running, cycling, rowing)
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HIT FORMAT
❶ Long intervals (≥ 45s)
❷ Short intervals (< 45s)
❸Repeated-sprint training
≤10 s, all-out
sprints,interspersed
with recovery periods
❹ Sprint interval training
20–30 s all-out
sprints, interspersed with recovery periods
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RSS and T@VO2max
VO2max is often reached and sustained for 10–40 % of the entire RSS duration (i.e. ~2-3 min when 3 blocks is programmed)
15x (40m/120s[0%])
6x (25m COD 90° +
Jump, r= 21s [45%])
% of athletes who
reached VO2max
% time spent >
90%VO2max
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❷ Sprints/efforts should last at least 4 s
❶ Recovery
should be
active and less
than 20 s
To increase T@VO2max during repeated-sprint sessions
❸ Include change of direction and/or jumps after sprinting
Active recovery
RSS and T@VO2max
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High-interindividual variability
T@VO2max during repeated-sprints sequences is inversely correlated
with VO2max ► RSS may be questionable to apply in some athletes,
especially those of high fitness
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Anaerobic Glycolytic Energy Contribution
The initial rate of blood lactate accumulation during an RSS is largely correlated with its work/relief ratio, irrespective of the sprinting distance
Increased by 90° & 180° COD and jumps
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Neuromuscular load during RSS
RSS sequences are associated with high
NM demands: ↘ Speed
Change in stride pattern & running technique
Stiffness modulation
↗ Injury risk (if not controlled)
Increased by
↗ Sprint duration ↗ Number of sprints
↘ Relief duration ↗ COD & jumps
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HIT FORMAT
❶ Long intervals (≥ 45s)
❷ Short intervals (< 45s)
❸Repeated-sprint training
≤10 s, all-out
sprints,interspersed
with recovery periods
❹ Sprint interval training
20–30 s all-out
sprints, interspersed with recovery periods
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SIT and T@VO2max
Tissue oxygenation
• Very short T@VO2max (no values > 90% VO2max in some athletes), • But very high muscle O2 demand • Progressive shift in energy metabolism during a SIT session, with a greater reliance on oxidative metabolism when sprints are repeated
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Anaerobic Glycolytic Energy Contribution
• SIT- type HIT formats are typically associated with elevated rates of blood lactate accumulation • Increased by
↗ Sprint duration (but < 45 s) ↗ Recovery duration
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Neuromuscular load during SIT
SIT sequences are associated with high
NM demands: ↘ Speed (large)
Change in stride pattern & running technique
Stiffness modulation
↗ Injury risk (if not controlled)
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It makes a lot of information to consider…
IN ONE SLIDE?
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HIT Forms Intensity Work interval
duration Recovery
Time spent at VO2max
Observations
Short intervals (≤ 45 s)
100 – 120 % vVO2max
to elicit high VO2 response
10 – 45 s <30" : passive ≥ 30" : active Endurance sports:
7 – 10 min
Team sports & others:
5 – 7 min
Volume should depend of the
T@VO2max
/exercise time ratio (cf. original
paper)
[La-]b : + NM load: +
Long intervals (> 45 s)
≥ 90 - 110 % vVO2max to elicit
high VO2 response
Time needed to reach VO2max + 1 or 2 min
or ≥ 2 – 3 min
R < 3min: passive
R > 3min: active
Repeated sprint
intervals
All-out ≥ 4 s if high VO2
response is expected
R: active & ≤ 20 s if high
VO2 response is expected
~10 – 40 % of the entire RSS
duration (but possibly 0% in high
fitness athletes)
Can be associated with COD & jumps to elicit high VO2
response
[La-]b : ++ to +++ NM load: +++
Sprint interval training
All-out 2-5s
(~15 – 40 m) > 20 s
From 0 to a few seconds…
… but elicits high muscle O2 demand
[La-]b : +++
NM load: +++
High-Intensity Interval Training Summary #1
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Summary #2
❶ Most HIT formats, when properly manipulated, can enable athletes to reach VO2max,
❷ However, important between-athlete and between-HIT format differences exist with respect to T@VO2max,
❸ RSS and SIT sessions allow for a limited T@VO2max compared with HIT that involve long and short intervals,
❹ Long intervals and/or short intervals with a work/relief ratio > 1 should enable a greater T@VO2max / exercise time ratio during HIT sessions,
❺ The methods of maximizing long-term VO2max development and performance adaptations using different forms of HIT sessions is still to be determined
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Summary #3
❻ Choose and balance the level of neuromuscular engagement associated with a given HIT format, based on both the expected training-induced adaptations and the acute changes in neuromuscular performance (e.g. jump performance); ❼ Running pattern (e.g. COD, introduction of jumps during the recovery periods), exercise mode (e.g. cycling, running, bouncing) or ground surfaces (e.g. pavement, synthetic track, grass, sand, treadmill) and terrain (uphill, downhill) also may have direct implications on traumatic and overuse injury risk, and should be chosen for programming based on a risk/benefit approach.
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❷ PROGRAMMING HIT SESSIONS
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Understanding HIT-induced fatigue
❷ MUSCLE DAMAGES ❸ GLYCOGEN STORES
DEPLETION
❶ ANS
PERTURBATIONS
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How much recovery between HIT sessions?
~48 h should separate HIT
sessions to enable the
majority of athletes to perform
and train maximally
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By Malcolm Brown, Leeds Metropolitan University
In some exception cases, it may be different but
be careful not to ask too much
How much recovery between HIT sessions?
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Ro
nn
es
tad
et
al., 201
3
Block periodization of HIT: Study #1
2 + 2 + 2 + 2 HIT per week versus 3 + 1 + 1 + 1 per week
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Ronnestad et al., 2013
Higher improvement associated
with block periodization
Study #1
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Study #2
Ronnestad et al., 2015
5x 6 min > 88% HRmax, r = 3min
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Ronnestad et al., 2015
Higher
improvement
associated with
block
periodization
Study #2
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8.1% vs 11.0%
3.4% vs 6.2%
8.3% vs 14.2%
Study #3
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AND BETWEEN THE HIT SESSIONS?
THE ROLE OF TRAINING
INTENSITY DISTRIBUTION
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VT1 VT2
Training intensity (% VO2max)
Perc
en
tag
e o
f to
tal tr
ain
ing
tim
e
Seiler, 2010
Training intensity distribution: getting the balance right
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Seiler et al., 2007
Training intensity & ANS perturbations
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8 elite spanish runners (23 ± 2
years, 70 ± 7 ml.min-1.kg-1).
Training intensity distribution
quantified in 3 zones.
~ 70 km.week-1
Correlation between time
spent in Z1 and performance
change during a 4-km race,
Same result when
considering a 10-km race.
Esteve-Lanao et al., 2005
The polarized training model
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Esteve-Lanao et al., 2007
12 elite spanish runners (MAS :
21.5 km.h-1).
2 groups of 6 : same training load
but different training intensity
distribution: 80%/12%/8%
(polarized, Z1) vs. 65%/27%/8%
(control, Z2)
High improvement during a
10.4km race after 18 weeks for
the polarized group 80%/12%/8%
(-157 ± 13 s vs. -122 ± 7 s, p =
0.03)
The polarized training model
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Ingham, Fudge & Pringle IJSPP 2012
+0.5% +0.9
%
+1.4
%
The more HIT you do, the better?
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ATP → AMP
PGC-1α
% Type I
fibers
↑ Mitochondrial
biogenesis
↑ Lipolytic
capacity
High-intensity
contractions Contractions
répétées
↑ [Ca2+]
AMPK CaMPK
Interval-training Peripheral factors
Low-intensity
training
↑ GLUT 4
↑ Glycogen store
Laursen 2010
Coffey & Hawley, 2007
Low intensity training is not useless
Illustration with LIT-induced peripheral adaptations
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But keep in mind the specificity of your sport
Pre-Season In-Season
A pattern where about the same numbers of training sessions are performed in
low lactate, lactate threshold, and high intensity training zones was reported
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Lovell et al. IJSPP 2013
But keep in mind the specificity of your sport
In Rugby League
Team-sport athletes complete a
greater proportion of higher-
intensity training sessions than
endurance athletes
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But keep in mind the specificity of your sport
Moreira et al. IJSPP 2015
Same observation in
Australian Football
Lower overall training loads typically
reported in team-sport athletes vs.
high-level endurance athletes,
Lower level of aerobic fitness,
Increased need for larger body
mass, greater strength and power,
increased need for recovery
between regular competitions
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Summary #4
❶ ~48 h should separate HIT sessions to enable the majority of athletes to perform and train maximally,
❷Potential of varying quantities of high-intensity each week regularly (block periodization) ❸ Potential of varying quantities of both high-intensity interval training and continuous high-volume, low intensity training on performance and to reduce the risk of overreaching / injury in endurance athletes
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❸ HOW MUCH HIT IS ENOUGH?
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Too much of a good thing?
High-intensity interval training is very stressfull and may increase the risks of persistent fatigue when too many sessions are prescribed
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TRAINING RECOVERY
COACH
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Where is the limit?
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Acute fatigue 24/36h
performance baseline
From several days to 2/3 weeks
performance baseline
Functional overreaching
> 3 weeks
performance baseline
Non functional overreaching
…
> One month
performance baseline
Overtraining syndrome
The different stages of training-induced fatigue
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To examine whether the
development of a functional
overreaching state leads to
greater performance
supercompensation in
comparison to acute fatigue
strategy
?
Functional overreaching, the key for supercompensation?
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Functional overreaching, the key for supercompensation?
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Functional overreaching, the key for supercompensation?
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Functional overreaching, the key for supercompensation?
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Multistage fitness test
Functional overreaching, the key for supercompensation?
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Phase III
(3 weeks)
TR
AIN
ING
LO
AD
(%
hab
itu
al lo
ad
)
100%
60%
130%
Control
group (n = 12)
Phase II
(1 week)
Simulated Taper
(4 weeks)
Pre
Phase I
(3 weeks)
Post
T1
T2
T3
T4
Overloading
100%
60%
130%
Phase I
(3 weeks) Phase II
(1week)
Overload
training group
(n = 28)
Simulated Taper
(4 weeks)
Post
T1
T2
T3
T4
Pre
Phase III
(3 weeks)
Aubry et al. MSSE 2014
Study design
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TRA
ININ
G L
OA
D (
% h
abit
ual
load
)
Overloading
100%
60%
130%
Phase I (3 weeks)
Phase II (1 week)
Phase III (3 weeks)
Overload training group
(n = 23)
Simulated Taper (4 weeks)
Post
T1
T2
T3
T4
Pre
Functional overreaching, the key for supercompensation?
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• HIGH PERCEIVED FATIGUE
• PRESERVED & ENHANCED
PERFORMANCE
• VERY HIGH PERCEIVED FATIGUE
• DECREASED PERFORMANCE
ACUTE FATIGUE
n = 12
FUNCTIONAL
OVERREACHING
n = 11
The overload group
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†††
†††
##
†# ††
†
* vs. Pre # vs. CTL † vs. F-OR -4
-2
0
2
4
6
8
Pre Post T1 T2 T3 T4
Perf
orm
an
ce c
ha
ng
e (
% P
re)
Control
Acute Fatigue
Functional overreaching
Aubry et al. MSSE 2014
The performance rebound
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Altogether, these results suggest that
greater gains in performance and VO2max
occur when the habitual training load
increases before the taper… but question
the usefullness of inducing functional
overreaching to maximize the
performance rebound
Summary #5
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DO IT SIMPLY…
BUT DO IT
WELL!
MONITOR PERFORMANCE
& QUANTIFY TRAINING LOAD
DEMONSTRATE EMPATHY
& ACCEPT TO REGULATE
+
Summary #5
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Oxygen uptake
Ventilatory parameters
Cardiac output
Blood lactate
concentration
Plasmatic
catecholamines
concentration
Arterial blood
pressures
Le Meur et al. JAP 2014
What does happen when you train too much?
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* Different from Pre, p < 0.05
4100
4200
4300
4400
4500
4600
4700
Control Acute Fatigue F - Overreaching
Maxim
al o
xyg
en
up
take
(ml/
min
/kg
)
Pre
Post
T2
*
VO2max
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Different from Pre, p < 0.05; † Different from Post, p < 0.05
An altered cardiac response
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Different from Pre, p < 0.05; † Different from Post, p < 0.05
An altered cardiac response
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Different from Pre, p < 0.05
† Different from Post, p < 0.05
Catecholamines response
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Parameters Usefullness
Good
response to
training
Overreaching
(intensified
training)
Resting HR ++ ↘
↘ Uusitalo et al. 1998
Hedelin 2000 Le Meur 2013 & 14
HRex ++ ↘
↘ Lehmann 1991 Hedelin 2000 Bosquet 2001 Coutts 2007 Dupuy 2012
Le Meur 2013 & 14
HRR (+) ↗
↗ Dupuy 2012
Thompson 2015 Under review
HR monitoring in overreached athletes
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60
80
100
120
140
160
180
200
Heart
rate
(b
pm
)
Time
►Illustration with 2 athletes
►Same endurance-oriented overload period (+40% of habitual training load)
►Maximal incremental running test (+1km/h each 3 min, r = 1min)
ATHLETE B
Functional overreaching
↘ Maximal aerobic speed
↘ HRex
↘ HRmax
↗↗ RPE
↗↗Perceived fatigue
60
80
100
120
140
160
180
200
Heart
rate
(b
pm
)
Pre
Post
Time
↗ Maximal aerobic speed
↘ HRex
→ HRmax
ATHLETE A
Good adaptation to training
HR monitoring in overreached athletes
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Resting HR and exercise HR are sensitive to changes in the training
status. There likely the most usefull monitoring tools but they should
always be interpretated with other psychometric and performance
markers to correctly interpret the data
Parameters Usefullness
Good response
to training
Overreaching
(intensified
training)
Resting HR ++ ↘ ↘
Resting HRV Difficult to implement with a squad
HRex ++ ↘ ↘
HRR (+) ↗ ↗
HRmax ++ = ↘
RPE +++ ↘ ↗
Perceived
fatigue +++ normal
High to very
high
Performance +++ ↗ ↘
HR monitoring
+ muscle soreness & NM performance
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But always keep in mind that…
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But always keep in mind that…
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But always keep in mind that…
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http://YLMSportScience.blogspot.fr
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