KIN 410 MC Unit 3b Resistance Training PDF

Summary

This document contains notes on resistance training, including discussions of factors influencing exercise performance, and practical applications of certain types of training methods.

Full Transcript

11/13/2024

KIN 410 MC unit 3b
Resistance Training

1

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How
should people weight
strength resistance train?

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Why
do people resistance train?

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Why
do people resistance train?
Changes in Changes in
performance in  performance in
the gym transfers desired task, usually
outside gym

NOT considered from this point in the discussion:
o Osteoporosis concerns
o Improved Psychology
o Cometics (Wt loss, body building etc.)
o Social aspects
o etc.

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Why
do people resistance train?
Changes in Changes in
performance in  performance in
the gym transfers desired task, usually
outside gym

25% increase in  25% increase in
the gym transfers task outside gym

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Review transfer in previously
discussed: Sale 1988

But don’t
EXCESSIVELY
OVER
emphasize this
principle…

What is expected transfer of reverse direction?
e.g.,using leg extensions or leg press to prepare for volleyball jumping or skiing
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AN INCREASE IN STRENGTH DOES NOT TRANSFER TO ALL SPEEDS
AT WHICH THE TRAINED MUSCLE MOVES

Subjects trained at 1.05,
3.14, 5.24 rad/sec, 8 weeks

(From Behm & Sale 1993)

KIN 410 MC unit 3b Resistance Training 7

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AN INCREASE IN STRENGTH DOES NOT TRANSFER TO ALL SPEEDS
AT WHICH THE TRAINED MUSCLE MOVES
Subjects trained at 1.05,
3.14, 5.24 rad/sec, 8 weeks

slow speed training group showed
greatest strength increases at slow
speed test
fast speed training group showed
greatest strength increases at fast
speed test
middle speed training group showed
similar strength increases at all
speeds

(From Behm & Sale 1993)

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F = M *A
A=F/M
But the strongest
person, of same
weight, does not
accelerate the Which neural Which neural
adaptions are being adaptions are being
fastest developed? developed?

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Summary:
TRAINING AT A FAST SPEED:
DEVELOPS THE ABILITY TO RAPIDLY
PRODUCE (ISOMETRIC) FORCE, &
MAXIMIZES STRENGTH GAINS AT FAST
SPEEDS.

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Summary:
TRAINING AT A FAST SPEED:
DEVELOPS THE ABILITY TO RAPIDLY
PRODUCE (ISOMETRIC) FORCE, &
MAXIMIZES STRENGTH GAINS AT FAST
SPEEDS.
At what
speed do
MOST
people LIFT
weights?

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Summary:
TRAINING AT A FAST SPEED:
DEVELOPS THE ABILITY TO RAPIDLY
PRODUCE (ISOMETRIC) FORCE, &
MAXIMIZES STRENGTH GAINS AT FAST
SPEEDS. At what
At what speed do
speed do MOST people
MOST PERFORM
people LIFT sports?
weights?

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Velocity specificity of weight training for kayak sprint performance
Liow DK, Hopkins WG. Med Sci Sports Exerc. 2003 Jul;35(7):1232-7.

PURPOSE: investigated the effect of slow and explosive weight training on kayak
sprint performance.
METHODS: sprint kayakers were randomized to slow weight training, explosive weight
training, or control (usual training) groups.
RESULTS: Over the first 3.75 m, the improvements were: slow, 7.1%; explosive, 3.2%;
control, 1.4%. Over the last 7.5 m, the improvements were: slow, 2.1%; explosive, 3.0%;
control, -0.8%.

CONCLUSIONS: Slow weight training is likely to be more effective than explosive
training for improving the acceleration phase of sprinting, when force is high
throughout the length of the stroke. Explosive weight training may be more
effective in speed maintenance, when forces are developed rapidly over a short

period at the start of the stroke

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WTP:

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What is the speed of performance of
a shot put throw?

https://drive.google.com/file/d/1r3FaHqS__vSNE258hjk1OVN1sO_9biq4/view?usp=share_link

https://youtu.be/sV03TDM3URs
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SO... What speed should
you train at

“Data… supports velocity specificity and
demonstrate the importance of training at
fast, moderate, and slow velocities to
improve isokinetic force production across
all testing velocities”
Fundamentals of resistance training: progression and exercise prescription. Kraemer WJ, Ratamess NA. Med Sci Sports
Exerc. 2004 Apr;36(4):674-88.

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But:
Velocity specificity of training may
apply mainly to people who are
trained, and not for untrained
people
Kraemer, WJ and RU Newton. (2000). Training for muscular power. Phys
Med Rehab Clin North Amer. 11(2): 341-368.

WTP:

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P=F*V

Kraemer, WJ and RU Newton. (2000). Training for muscular power. Phys Med Rehab Clin North Amer. 11(2):
341-368.

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Is power training
important, and for whom

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What researchers in the physical training of athletes and the elderly
are saying:

“In many sports activities, the ability to
rapidly develop force is equally important or
even more important than the maximal force
itself”.
Duchateau & Hainaut, Mechanism of muscle and motor unit adaptation to explosive power training. In: Strength and power in sport, 2nd ed. Paavo V. Komi (ed),
Malden, MA: Blackwell Science, 2003, pp 315- 330.

“… in virtually all situations in sports and in daily
activities an efficient means of activating muscles
quickly, or of producing high impulses within given
time periods is much more desirable [than basic
MVC strength]…”
Albert Gollhofer, Proprioceptive Training: Considerations for Strength and Power Productions. In: Strength and power in sport, 2nd ed. Paavo V. Komi (ed),
Malden, MA: Blackwell Science, 2003, pp 331-342.

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“In normal human movement the time taken to produce a
certain submaximal force level may sometimes be as
important as the absolute force level itself. Aging leads to
declines in … maximal strength … but it has been shown to
lead to even greater worsening in explosive force
production.” “… modified power type of exercises could
also be useful as a part of an overall physical training for
older people”. K. Hakkinen, Ageing and neuromuscular adaptation to strength training. In: Strength and power in sport, 2nd ed.
Paavo V. Komi (ed), Malden, MA: Blackwell Science, 2003, pp 409-425.

“Muscle power recedes at a faster rate than strength with
age and may also be a stronger predictor of fall risk and
functional decline. The optimal training paradigm for improving muscle power in older
adults is not known, although some literature suggests high velocity, low load training is optimal in
young adults.”
de Vos NJ et al., Optimal load for increasing muscle power during explosive resistance training in older adults. J Gerontol A Biol Sci Med Sci.
2005 May;60(5):638-47

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Effect of strength and power training on
physical function in community-
dwelling older adults.
Miszko TA, Cress ME, Slade JM, Covey CJ, Agrawal SK, Doerr CE.
J Gerontol A Biol Sci Med Sci. 2003 Feb;58(2):171-5.

BACKGROUND: The performance of daily
tasks, such as stair climbing or lifting an
object, requires both muscle strength and
power. Age-associated reductions in
strength and power can affect an older
adult's ability to complete daily tasks such
as stair climbing and lifting a child.

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METHODS: The purposes of this study were to
determine whether power training was more
efficacious than strength training for
improving whole-body physical function in
older adults and to examine the relationship between changes in
anaerobic power and muscle strength and changes in physical function.
Thirty-nine men and women (mean age +/- SD = 72.5 +/- 6.3 years) with
below-average leg extensor power were randomly assigned to control (C, n =
15), strength-training (ST, n = 13) or power-training (PT, n = 11) groups. The
ST and PT groups met 3 days per week for 16 weeks; the C group maintained
usual activity and attended three lectures during the course of the study.
Primary outcome measures included the Continuous Scale Physical
Functional Performance test, maximal strength, and anaerobic power.

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RESULTS: After baseline was controlled for, the Continuous Scale
Physical Functional Performance test total score was significantly
greater for the PT group than for the ST (p =.033) and C (p =.016)
groups. Maximal strength was significantly greater for the ST group than for the
C group (p =.015) after the intervention. There was no significant difference
between groups for peak anaerobic power.

CONCLUSIONS: Power training was more
effective than strength training for
improving physical function in
community-dwelling older adults.

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Fragala MS, et al., Resistance Training for Older Adults:
Position Statement From the National Strength
and Conditioning Association. J Strength Cond Res.
2019 Aug;33(8):2019-2052. doi: 10.1519/JSC.0000000000003230.
Part 1: Resistance Training Program Variables
1. A properly designed resistance training program with appropriate instructions
for exercise technique and proper spotting is safe for healthy, older adults.
2. A properly designed resistance training program for older adults should include
an individualized, periodized approach working toward 2–3 sets of 1–2 multijoint
exercises per major muscle group, achieving intensities of 70–85% of 1 repetition
including power exercises
maximum (1RM), 2–3 times per week,
performed at higher velocities in concentric movements
with moderate intensities (i.e., 40–60% of 1RM)
3. Resistance training programs for older adults should follow the principles of
individualization, periodization, and progression.
WTP:

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Maximum power production involves speeds that are NOT slow
Power = force * (distance / time) = force * velocity

Bottinelli R. and Reggiani C. Human skeletal muscle fibres: molecular and functional diversity.
Progress in Biophysics and Molecular Biology. 2000; 73(2-4):195-262.

Maximum, mechanical power is produced at a
resistance of 30% of maximum isometric strength,
which corresponds to a velocity of muscle shortening
of approx. 30% of maximum Kraemer, WJ and RU Newton. (2000). Training for muscular power.
Phys Med Rehab Clin North Amer. 11(2): 341-368

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1 3
2

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Power Training and Load Variations
by Kevin Cronin, MS, CSCS,*D, USAW, Dec 2012
http://www.nsca.com/Education/E-learning/Power-Training-and-Load-Variations/
It can be said that the most important neuromuscular function in many sports is
the ability to generate force in a rapid manner (maximal muscular power). … it is
important to note that power can and should be trained across a continuum.
This continuum ranges from lighter loads moving at very high velocities
(typically in m/s) to heavier loads moving at slower velocities (Figure 1).

…target all regions of the force-velocity
curve and the power continuum in an
attempt to augment power output across
the entire spectrum.

WTP: How to train for power?

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“…with such a light weight [30% 1RM] multijoint
power exercises are difficult to execute properly
with typical resistance training equipment
because the athlete can not sufficiently overload
the muscles and still control the bar’s
deacceleration at the end of the exercise ROM”.
Recommend:
Power Training for: % 1RM Reps
Single event effort (e.g., 80-90 1-2(fast)
throw)

Multi-effort event (e.g., 75-85 3-5(fast)
volleyball jumping)
Baechle & Earle Essentials of Strength Training and Conditioning, 3rd Ed. 2008, pg 400-404

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Raoul F. Reiser et al.,

Between the Beginning and End of
a Repetition: How Intrinsic and
Extrinsic Factors Influence the
Intensity of a Biceps Curl.
Strength and Conditioning Journal, 29(5) (October
2007) 64-76

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How to train at speeds that are not slow?
“… performing traditional pressing
movements rapidly with light loads does not
create the ideal loading conditions … with
regard to maximal power production.” Due
to increased duration of the deceleration
phase as the athlete must slow the bar to a
complete stop at the end of the range.
Kraemer, WJ and RU Newton. (2000). Training for muscular power. Phys Med Rehab Clin North Amer. 11(2): 341-368.

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“Ballistic” Resistance training
= athlete throws or jumps
with the weight
“Being able to release the mass at
the end of the range of motion is
vital to promoting power and
acceleration”

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Sample Ballistic Training Methods
Plyometrics
Easy to Implement Medicine ball training
Weighted jump squats, Pushups (weight needed?)
Speed up typical exercises (e.g., up stairs, out of
chair, do some typical machine or free lifts faster)
Add chains (see next slide) or elastics to some
free lifts & do them fast
Lift & throw sandbags (weightlifting or other
movements)
Olympic weightlifting movements (see next slide)
Life Fitness cable machines (certain models with
extra vertical cable loops) (see next slide)
Lift and throw and drop weigh into sand pit (e.,g
weightlifting movements without the catch)
Air resistance (e.g., Keiser brand)
Computerized weight equipment that allows the
release of the mass
Difficult to Implement

Kraemer & Newton. (2000). Training for muscular power. Phys Med Rehab Clin North Amer. 11(2): 34
341-368.

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Do people who train
athletes really think
about things like the
force velocity
curve???

Matt Solomon, Joe Dolcetti, Troy Jones and Sam Portland, How Just
100g Of Resistance Can Change The Sprinting World, Science For
Sport Podcast #215, https://scienceforsport.fireside.fm/215

Goal of KIN 410: You have the basic
knowledge to go on and engage/read/listen
to the cutting-edge people in the human
movement fields, and can understand the
KIN 410 MC unit 3b Resistance Training
issues and use their information. 38

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WTP: How to train for power (part 2)?

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Ballistic resistance training…

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Discuss Bilateral Deficit

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Leads to discussion of:

Unilateral training:

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Mike Boyle text 2004, page 213. Advances in Functional Training: (Motor Control unit 3c, Guideline #8, example #2)

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Listen to:
Unilateral training (versus bunny hopping?)
(Motor Control unit 3c, Guideline #8, example #1)

Sean Hayes, Buffalo Bills strength coach,
StrengthCoach.com podcast episode 3, 11-30-07

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Unstable versus stable training
Example #1 (Motor Control unit 3c, Guideline 15, example #1)
2/18/08 Interviews with Juan Carlos Santana & Bill Kraemer.
Stability versus balance training, and muscle activation levels (2.5 min)

Example #2 (Motor Control unit 3c, Guideline 15, example #2)
Matt Solomon & Christian Woodford, Science for Sport Podcast Episode 113. Kill
Sport Specific Training: The Truth Behind Maximising Sport Performance.
https://scienceforsport.fireside.fm/113 (41 sec)

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BOSU Ball: The Good, Bad, and
Ugly
by Eric Cressey 06/23/14 http://www.t-nation.com/training/bosu-ball-the-good-bad-
and-ugly/print

Where It All Began
Unstable surface training's original application was in clinical rehabilitation
settings, particularly with respect to functional ankle instability.
But what about making athletes bigger, stronger, faster, and more agile?

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The Problem
… UST effectively ignores the principle of specificity of training, at least in
the lower body. Most athletic endeavors take place on stable surfaces, with
instability applied further up the kinetic chain. While the lower extremity
functions in predominantly closed-chain motion, the torso and arms often
encounter instability in open-chain motion while the base is stable.
Generally, in athletics, this "base" is the feet, and in a standing position.
Conversely, lower body instability training should be imposed in much more
sport-specific ways via several training modalities on stable surfaces.
Remember, this is all about specificity; as an example, a running back's
legs and body get hit by opposing players, but the ground never moves
underneath him.
As we've always known, if you train slowly - as with UST - you'll be slow.
To make things a bit geekier, activation of antagonist musculature
increased with UST as a mechanism to increase joint stability. This
acute modification works contrary to one long-term benefit of
resistance training that's conducive to strength gains: reduced
antagonist activity. {Chalmers notes: unstable surface training
INHIBITS a desired neural adapatation to resistance training!}
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Graph of stability range of exercises with :
 Prime mover activation (PM)
 Stabilizer (including antagonists) activation (Stabilizers)
 NET force delivery in prime mover direction

High

Low

Very
Very
Stable
Unstable
Exercise
EG? Exercise
EG? EG?
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Continuation of Cressey article… Practical Applications
…so what do we do instead? Very simply, we look to specificity. For example, a
destabilizing torque might be applied further up the kinetic chain with the athlete's feet
fixed on the ground, essentially simulating what happens when a football players is
tackled. Anti-rotation drills in half-kneeling, tall kneeling, and standing positions
are good examples.

Unilateral lower-extremity exercises are, by
nature, instability training because of the smaller base of
support, which is also constantly changing with lunge variations. And, when you
use variations where the weight is positioned up at the
shoulders, you actually increase the amount of instability, as the center of
mass is moved farther up from the base of support.

Uneven loading also has merit, as the positioning of this
weight moves the center of gravity closer to the edge of the base of support, so the
athlete must counteract it with muscular activation. This applies to the cable
exercises noted above (as well as rotational medicine ball drills), but also
asymmetrically loaded drills like one-arm farmer's walks and one-arm lateral lunges,
to name a few.
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Example #3 Steve Magness, The Science of Running: How
to find your limit and train to maximize your
performance (2014), Origin Press

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Loading for Unilateral training: not the
reverse of the bilateral deficit
WHY?

Hint: Mike Boyle’s explanation of stabilizer
and neutralizers (i.e. antagonists)
activation during unilateral training.

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Oilers Video

Discuss observed:
 Planes of motion (producing challenges to neural coordination)
 Range of stability challenges (and how stability is challenged) (producing challenges
to neural coordination)
 Range of load & velocity combinations

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lowest degree of Increasing challenge and complexity for nervous system Highest degree
freedom Increasingly realistic movement of freedom

* Bilateral * Bilateral movement * Bilateral movement * Unilateral hand or foot movement
movement * 2 hands or feet fixed together * 2 hands or feet NOT fixed together
* 2 hands or feet
fixed together
* load & often
body stabilized
for you
Not single plane

Not single plane

Not single plane
Single plane of

Single plane of

Single plane of
3 major planes

3 major planes

3 major planes
of 3 major

of 3 major

of 3 major
planes

planes

planes

0 12 2 2 4 8 3
12 19
= machine = Traditional free 17
weights lifts (Squat, bench
press, barbell
bicep curl)

11
Not used by Data for Oilers Exercise Video
Oilers

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lowest degree of Increasing challenge and complexity for nervous system Highest degree
freedom Increasingly realistic movement of freedom

* Bilateral * Bilateral movement * Bilateral movement * Unilateral hand or foot movement
movement * 2 hands or feet fixed together * 2 hands or feet NOT fixed together
* 2 hands or feet
High fixed together
* load & often Prime mover activation
body stabilized
for you

Not single plane

Not single plane

Not single plane
Single plane of

Single plane of

Single plane of
3 major planes

3 major planes

3 major planes
of 3 major

of 3 major

of 3 major
planes

planes

planes
0 12 2 2 4 8 3
Low 12 19 Why is this level of
= machine = Traditional free 17
weights lifts (Squat, bench stability important to
press, barbell
bicep curl) include?
Very Very
Why is this level of
Stable 11 Unstable
stability important to
Exercise
Not used by Data for Oilers Exercise Video Exercise
Oilers include?
What exercise examples are TOO EXTREME on stability range axis?

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lowest degree of Increasing challenge and complexity for nervous system Highest degree
freedom Increasingly realistic movement of freedom

* Bilateral * Bilateral movement * Bilateral movement * Unilateral hand or foot movement
movement * 2 hands or feet fixed together * 2 hands or feet NOT fixed together
* 2 hands or feet
High fixed together
* load & often
body stabilized
for you
Not single plane

Not single plane

Not single plane
Single plane of

Single plane of

Single plane of
3 major planes

3 major planes

3 major planes
of 3 major

of 3 major

of 3 major
planes

planes

planes

0 12 2 2 4 8 3
Low 12 19
= machine = Traditional free 17
weights lifts (Squat, bench
press, barbell
bicep curl) TRX (ring)
Very Bench versus press Very
Stable Press 11 Unstable
Exercise
Not used by
Oilers
Data for Oilers Exercise Video Exercise
Matt Solomon & Tim Stevenson, Bulletproof Your Shoulders With Elite Level
What people Training,
reallyScience
NEED to bench
For Sport, Episode 181,press for
https://scienceforsport.fireside.fm/181

functional performance (besides Powerlifters, who
compete
KIN in3bthe
410 MC unit benchTraining
Resistance press)? 56

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Chalmers is not the only person who hates
machine weights! Why do we hate them?

Motor Control unit 3c, Guideline 1 Example 1:

Means: Neural adaptations learned on machine are the
WRONG patterns and these wrong patterns can impair
performance and can cause injury.

Vern Gambetta, Athletic Development: Art & Science of Functional Sports
Conditioning, Human Kinetics, 2007, Machines (pg 25):

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Machine safety & body position (Gambetta, pg 193):

“Certainly, athletes
who resistance train
in a seated position
would be well advised
to question their
KIN 410 MC rationale” (McGill
unit 3b Resistance 3rd ed pg
Training 58
94)

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Chalmers is not the only person who HATES biceps curls (and other single
joint/isolation exercises)! Why do we hate them?
Stone, M., Stone, M., Lamont, H. (2003) Explosive Exercise Retrieved December 16, 2003, from http://www.coachesinfo.com/article/242/
“Because of these alterations in activation patterns, selection of exercises for strength/power
training should be viewed as movement specific rather than simply training a
muscle(s). Improvement in the efficiency of intra and especially inter muscular activation implies
an enhanced coordinative ability and is an important mechanism contributing to improved strength
expression (Semmler and Enoka 2001).” Motor Control unit 3c, Guideline 4
Mike Bahn, MS, CSCS, Arizona Diamondbacks. (2004) Personal Communication
"Train movements, not muscles. And I agree that there is a place for isolation movements in early stages of
rehab, but other than that, not much use from a practical standpoint. Our programs don't even include isolation
movements like bicep curls or tricep extensions, as those muscles are used quite a bit in more functional
exercises (some guys do them at the end of our workouts for the "beach muscles", but that is their choice).

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EXCEPTION TO THE “TRAIN COORDINATED MULTIJOINT MOVEMENTS
CONCEPT” = certain isolation exercises are good (Motor Control unit 3c, Guideline 14)

More Advanced (WHY?)
Beginner (WHY?)

Beginner (WHY?)
More Advanced (WHY?)

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Why does Chalmers think she gets a LOT out of this exercise, she
would not get out of “traditional” lifts? How can you make it a bit
EASIER for another person? (you, or your clients, don’t have to do
EXACTLY what others do. You can see an exercise, use it as an idea, &
think about how you can modify this exercise, make it easier, harder,
keep the good parts)

If the above is too challenging, HOW
CAN YOU SIMPLIFY IT for your client?
Think about options to reduce the :
ROM demand
force & velocity demand
balance demand
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Why does Chalmers think stair walking is a GREAT exercise, especially
for middle aged to older people?
How can you make it a bit harder for this young person?

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What should I SEE you doing if I watch your resistance training over a
period of time (e.g. weeks or months)

What do you ensure you include in your resistance training to develop
your neuromuscular adaptations?

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