Intro To Motor Development PDF

Summary

This document discusses the development of human locomotion, focusing on different stages of movement from crawling to walking and running. It examines the factors influencing each stage, including stability, mobility and the role of affordances in learning.

Full Transcript

4
-study exam

CHAPTER 5
DEVELOPMENT OF HUMAN LOCOMOTION
What Is Locomotion? Early Locomotion
moving lifting do
act of head to prone
-

to
-

Moving from place to place Crawling - moving on hands and abdomen
Moving on one, two, or four limbs Creeping - moving on hands and knees
-Crawling, walking, running
-Hopping, skipping, galloping, using other modes js+
-

types

Walking -

both feet on
ground followed by single support
Early Walking
Walking is the first form of upright, M Maximizes stability and balance over mobility:
bipedal locomotion -Arms are in high guard
-Feet are out-toed and spread wide apart
Walking is defined by the following:
-No trunk rotation -short steps
-50% phasing between the legs -

opposite leg
opposition -Independent steps are taken -

independent
unstable ,
each step

-Period of double support (both feet on -Rate controllers are strength (to support body
the ground) followed by period of single on one leg) and balance
S
support atypical walking

Affordances learned for crawling must Developmental Changes delays

Early childhood
(treadmill)
be learned for walking -

what constraints
afford me to crawl
-By 4 years, essential components of an
Proficient Walking upright bipedal gait
-
advanced walk are present
Stability is traded for mobility -Support time on the stance leg lengthens
-Stride length increases -Velocity increases
-Base of support is reduced wider stance -

Midadolescence 10 years
-

-Increased range of motion
-Pelvis is rotated -Stride length increases with fuller range of
-Opposition (arms to legs) occurs motion and growing legs
-Pattern improvements are subtle
Walking in Older Adulthood
Maximizing stability over mobility Running
-Out-toeing increases Occurs 6 to 7 months after walking starts
-Stride length decreases Running is defined by the following:
-Pelvic rotation decreases
-Speed decreases -50% phasing between the legs
-Objects are used as balance aids -Flight phase followed by single support Speed

Early Running change speed
-
in Proficient Running
Stability over mobility Reduce stability to increase mobility:
-Arms in high guard -Increased stride length -greater force
-Limited range of motion -Planar movement
-Decreased stride length -Sagital plane – arms and legs move forward
-Little rotation -Narrow base of support
-Trunk rotation
coordination ,
strength , balance -Opposition between arms and legs
 CHAPTER 5
DEVELOPMENT OF HUMAN LOCOMOTION
Development Changes of Running
Later running (~ adulthood)
Patterns help increase stability and balance
Decreases appear in: qualitative physical improved
-stride length not long
as changes ↓ growth
and
I
quantative
of
in
-range of motion running maturation
measures -

running
-number of strides running
-speed
Rate controllers are balance and strength
Exercise can allow seniors to run for years

Rate Controllers in Later Running Describing change in motor patterns
Running requires greater Quantitatively product -
fastoutcome : How
, How far

generation of force and ability to
balance Qualitatively – relative to mature
Smaller changes in constraints can patterns developmental sequence/movement
-

pattern

affect later running decrease Strength
in

An individual may have the ability Body component approach Steps qualitative change
,

to run but may not have the
opportunity to do so or chooses not
to
Early Jumping
Other Types of Locomotion
Begin simple jumping before 2 years
Jump - propels self off ground with 1
or 2 feet -> lands on 2 feet Vertical or horizontal
Early characteristics:
Hop - propels self off ground with 1 -Jumping only vertically
foot -> lands on same foot complex
more
-1 foot takeoff or landing
-No or limited preparatory movements ~
walk into
it

Leap - propels self off ground with 1 -Continual growth in body size and strength contribute to quantitative
improvements
foot -> extended flight period -> lands -It is not guaranteed that every child will eventually master jumping
on opposite foot
Proficient Hopping
Early Hopping Swing leg leads hip and moves
Hopping starts later than jumping through full range of motion

Early characteristics: Support leg extends fully at hip
-Support leg is lifted rather than used to
project body Oppositional arm movement
-Arms are inactive generates force
-Swing leg is held rigidly in front of body
Support leg is flexed on landing
Developmental Changes in Hopping
Few children under 3 can hop repeatedly Rate Controllers in Hopping
Adaptations of the neuromuscular system Depend on the postural system’s ability to balance the body
moderates the force of landing on one limb for a succession of hops
Due, at least in part, to an interaction of
individual constraints in the body and within the Ability to generate enough force to lift the body with one
framework of principles of motion limb, recover, and quickly generate enough force to hop again
 CHAPTER 5
DEVELOPMENT OF HUMAN LOCOMOTION

Galloping, Sliding, Skipping Early Galloping, Sliding, Skipping
Gallop and slide are asymmetric Arrhythmic and stiff movements
-Gallop - forward step on 1 foot -> leap on other Little or no arm movement
-Slide - sideways step on 1 foot -> leap on other Little or no trunk rotation
from the front
Exaggeration of vertical lift
Skip is symmetric: alternating step-hops on 1 foot, Short stride or step length
then on the other

Proficient Galloping, Sliding, Skipping Developmental Changes
The arms are no longer needed for balance Galloping is the first to emerge
~ 2-3 years
In skipping, the arms swing rhythmically in
opposition to the legs and provide momentum Sliding comes next

Child can use arms for another purpose Skipping is usually last to emerge
during galloping + sliding (e.g., clapping) ~ 4-7 years

Rate Limiters
Gallop Assessing LM Skills: TGMD-3
–Coordination (uncoupling legs) The locomotor scale is 1 of 2 subscales
–Differential force production (legs Skills: run, gallop, hop, skip, jump, slide
performing different tasks) Demonstration is followed by 1 practice
and 2 scored trials
Slide 3 to 5 performance criteria for each skill
-Coordination (turning to one side)
Scores for each skill can be summed to
provided a locomotor score out of 46
Skip
-Coordination (ability to perform 2 tasks
with 1 leg)
 assignment 4 =
Q 6.

soccer throw in
Newton's 1st law

baseball
-

soccer
-

CHAPTER 6
DEVELOPMENT OF BALLISTIC SKILLS

Throwing Characteristic of Early Throwing
Patterns / Forms: Limited trunk rotation
-Underhand (one- or two-hand) -Forward-backward movement
-Sidearm
-Overarm (one- or two-hand) Mostly arm action
Elbow is pointed up
Throw executed by elbow extension alone
Developmental Changes in Early Throwing No step -> homolateral step side Step
-
same

Throwers do not achieve same step for
each body component at same time
Some step combinations are more likely Throwing in (older) Adulthood
-Structural constraints limit possible Older adults demonstrate moderately
combinations advanced steps (but qualitatively different)
Not everyone reaches the highest step in -Structural (musculoskeletal) constraints
each component body size
strength
I likely to influence movement patterns strength -

-Girls and women often remain in Decline is usually gradual overnight
-
Not

intermediate boy -

likely
are more sports to be in those.
-Variability in movement patterns
Change is typically in the control rather
than coordination of movements
Throwing for Force pitching catcher Football
-
,.
-Slowed speed -
Force
less

Preparatory windup -Decreased range of motion control
-

less

-weight shifts to back foot
-trunk rotates back Throwing for Accuracy Force /distance -

-arm swings down and around s
Throwers may use lower developmental
Long step with opposite leg
Differentiated trunk rotation
Upper arm and forearm lag wer run force may
Trunk rotation
-
steps for throws requiring accuracy vs
fully extend-
Step size
ar m not ,

Movements are sequential to trunkrotatea When required to throw a greater
transfer momentum Flow -

* distance, differences between throws
differences
are minimal
gender
·

Sidearm Striking Char. of Early Striking
Arm remains at or below shoulder level Chopping motion (elbow
extension)
Various body parts can be used
Little leg and trunk movement
Implements can be used

Proficient Sidearm Striking
Sideways preparatory stance and long step
Differentiated trunk rotation
Horizontal swing through large range of motion
(arm extended beforecontact)
Sequential movements
 CHAPTER 6
DEVELOPMENT OF BALLISTIC SKILLS

Overarm Striking
Without an implement -
upward motion Char. of Early Overarm Striking
-e.g., volleyball serve
hitting objeca Trunk rotation limited
-

* -
bent elbow

With an implement -

hitting wh a
-
little/no lag
-e.g., tennis serve tool above head -
ball contact is low

Proficient Overarm Striking Developmental Changes in Overarm Striking
Lower and upper trunk are rotated (back) Elbow action in ball-contact phase
more than 90° rotational velocity -

1. Very small or very large angle
2. Intermediate angle (2° to 89°)
Elbow is held between 90°and 119 ° at start 3. Ideal angle (90° to 119°)
of forward movement generate -
more room to force

Spinal and pelvic range of motion
Racket lags behind arm in forward swing 4. Rotation of less than 45°
Force a time
generate more

5. Rotation of 45° to 89°
Movement is sequential flow ,
full range of motion
6. Rotation of > 90°

Racket action
Jagacinski.
Greenberg ,
& liao (1997) 1.No racket lag
- iron Shot
2.Racket lag
-
older
golfers reach peak Force earlier in swing. 3.Delayed racket lag
older
may need more Force than
-

younger

Haywood & Williams (1995)
Kicking
-
tennis "first" Serve (more force) Kicker strikes ball with foot
-
older servers at moderate levels

Kicker must have perceptual abilities and
early Intermediate eye–foot coordination to make contact
Steps Forward wh -Stationary -> moving ball
·KickinglSeward
·
non-

kicking leg.
·
Bends Knee
·
No Step is taken
limited kickers
-

arm/trunk
young use action
·
movement
wh
non-kicking leg
just leg

from hands
Proficient Kicking punting dropped

Preparatory windup early-tossed up rather dropped
6
-trunk is rotated back -

contacts ball w/ toes

O -kicking leg cocked + knee bent
Elongated step (~ leap) will based
pattern change
Trunk rotates forward -> full ROM
-

distance (of steps , follow
through)
on

Movement is sequential
-thigh rotates forward -> lower leg extends
-follow through (full ROM)
Arms move in opposition to legs
-in response to trunk and leg motion
 Consider how you
hold certain objects

catching is harder
g
CHAPTER 7
get/maintain object DEVELOPMENT OF MANIPULATIVE SKILLS

Fundamental Manipulative Skills Early Catching
·
Catching is a
manipulative skill · little force absorption
very
do after
something
-

·
Hug (arms wide) , Scoop/trap
·
performer control of
object
gains possession or

away head
·
turn or close
eyes

Proficient Catching Developmental Changes in Catching
·
hands
position of
prior to catch & Task constraint speed
glove size distance ball size
:
, , ,

-
weight trajectory
,

balls +
·

Fingers up for High Specific to environment/fast
constraints
down for low balls

interception
Success
Catcher
·
moves side to side or
Assessment of Catching
ball
forward/back to intercept the

·
task/environmental constraints consistent
"give" bend for
·
arms

force absorption ·
How
many times catch scored)
they

Anticipation Dev’t of Coincidence Anticipation
·
movement
anticipating completion of
·
Speed (change performance)
to coincide arrival accuracy
wh of
moving.
object
·
· younger
is better wh larger balls
practice & repitition helps
·
flatter
trajectory

Perception–Action Perspective Catching in Older Adulthood
⑨ ·
considers all info in the environment improve wh practice repetition
at the same time.
·

w h at
-
movement does this environment provide to me?
not a lot of
change/research
Invariants stable patterns movement their speed of motion reach affect
range
charaistic of set of
-

, ,

constraints
optical array how patterns are perceived by eye
&

expands when
getting closer light waves

How Do Children Learn to Arrive at the Right Place?
·
practice , repetition ,
experience
still ball
they stand
· I catch a
ratio is when

·
teacher , coach , parents

affordance -

action or behavior
 CHAPTER 7
DEVELOPMENT OF MANIPULATIVE SKILLS

Reaching and Grasping Grasping
· 2
* prehension-grasping w/
single skill I or 2 hands

forward ·
arm reaches power grip
to
precision grip-influenced
Snape or size
by

hand
·

grasps object
constraints impact how they pick it up

by 9
·
mo.
Shape hands by looking
Body Scaling in Grasping -
doesn't matter * ·
VISION 7
age => good at age

Children
·
of hand
object
·
ratio to more dependent on visual Feedback
at hand
·
looking
Consistent Stable the lifespan
·
for from
over
transitioning
I hand to 2 hands

weight ,
Fragile
Hand–Mouth Movements
Learning to Reach -

learn to control arms
·
3-4 :
moving
hand to mouth
(practice)
·
random arm movements 0-12 mo.
·
Smo : open mouth as
object arrives

repeated
·
practice prereach to reach

3
·
+
04 mo.
Bimanual Reaching + Manipulation
toyl food motivated

↳mo.
pulling apart/insertion objects , as tools

Bimanual Reaching + Manipulation D #mo.
manipulate wh both hands cooperatively

·
2 mo
-
bilateral arm extension
#mo-practice/more efficient

·
l-reach for objects w/ both arms

hand first
one
gets there

* Manual Performance in Adulthood
·

Imo.
reach wh or 2 arms as
approviate for object
·
decline in speed + coordination 50 yr
cross midline

oo
· manipulate wh both hands cooperatively
-
·
can be maintained wh practice

·
declined
strength
&

Role of Posture ·
loss in
handwriting-
·
adjust posture to reach (4mo
·
maintain postural control Rapid Aiming Movements
reaching improves when

·
arm
picks up speed , slows once close

·
more deceleration in older
 anaerobic power-rate at meet
which someones body can
demand for short intense
activity
anaerobic capacity max
oxygen deficit a person

Chapter 10
can tolerate

Development of Cardiorespiratory Endurance

Importance of Physical Fitness CR Endurance and Children
fitness
Physical individual Constraint reflects
ability to sustain
vigorous activity

Relationship w/ CR systems related to endurance level

growth +
aging
-

cardiac , vascular.
respiratory systems

Training
-

· children have risk for heart disease

Physiological Responses to Short-Term Exercise Developmental Changes in Anaerobic Performance
anderobic -
who
oxygen body size

anaerobic
system helps less + aerobic takes over metabolize fuel in muscles

reserve muscle mass
energy
Individual Differences in Anaerobic Performance meant
peak improve
small effec t
maturity =

gender difference =
muscle mass difference *

neuromuscular coordination -

training
Anaerobic Training in Youth
more mature -
more muscle mass -
more anaerobic -
small training of both sexes have
higher peak/mean power
· -

boys increase after
puberty Stop training , peak / mean power decrease

training improves

Anaerobic Performance in Adulthood Gender Differences
adult body size is attained men have
higher anaerobic
power
anaerobic performance is stable

men t women decline sharp after 70
older adulthood loss of muscle mass
* women decline faster (less muscle mass
,

↓ 2
type muscle fibers = decrease

atrophy Anaerobic Training in Adulthood
Assessing Anaerobic Performance resistance
training
10-30 seconds Wingate bicycle
Total
Quebec , 1-mile run
Peak Oxygen Uptake
work output , mean ,
peak power

VO2 of
Physiological Responses to Prolonged Exercise peak-highest rate
Oxygen
consumed by muscles
aerobic power-rate at which term
long
demand is met
oxygen related to lean body mass

aerobic capacity total available
energy
-

childhood & adolescence
for
prolonged activity
increases
throughout

endurance declines in
cardiac output
= HRx Stroke
I til 13
adulthood
in girls
 Chapter 10
Development of Cardiorespiratory Endurance

Aerobic Performance During Childhood Changes in Aerobic Performance During Childhood
smaller stroke volume t smaller Cardiac output with
growth/maturation
-heart size
higher resting heart rate

hemoglobin
-

increase

need more blood to muscles

lower
hemoglobin (blood protein
Sustain exercise related to
carries 02) body size/mature
cannot exercise for that long trained men have an
advantage

Training Effect in Children Aerobic Performance - Adulthood
considered
growth/maturation Maximal
falls about
O2 uptake
1%
per kilogram of
body weight
per year after 20s

Training intensity
:
improvement
aerobic
training leads to improvement after
puberty
Respiratory Structure + Function
·

aging
Assessing Aerobic Performance -

lung +issue
decrease
Vital decrease
Treadmill 1600m
capacity
, run ,
cycle
down 4% to S%
per decade
↑ intensity
Performance graded in
stages

Long-Term Training Effects
women wh more DE in exercise
youth more

adult level
Youth sport participation predicts young activity

men who stay engaged had
highest maximal O2 uptake

Effects of Diseases on Endurance Performance
diseases always impact

Never max
testing
 CHAPTER 11
Development of Strength and Flexibility

Strength Muscle Mass and Strength
· ·
force follows
ability to exert
sigmoid
a
pattern
· ·
enhances performance in
sports/daily living depends on cross-sectional

·
involved
(Notes) !! neurological
Assessment of Strength ·

strength is not proportional to muscle size

remainstates *
tension
first
· motor unit recruitment strength goes
Force resistance
against
isotonic/isokinetic if limbs move -
dumbbell
Developmental Changes in Strength
*
controlled speed

isometric if exerted immorable resistance
against · similar strength until puberty
in movement
no
change
·
peak strength follows peak muscle increase
·
specify muscle
group , movement , speed ,
joint angle · the child who reaches maturation first are
stronger

Strength in Adolescence and Young Adulthood
· males add more muscle mass I
stronger
in
arms/ shoulders Strength in Middle + Older Adulthood
·
·
Size does for differences 30s
not account all
gender strength declines after lifestyle

related
· ·
done its to loss
after
training
in than muscle mass
growing
more
strength

·
coord involved in decrease
muscular
strength
Flexibility ·
affected
by less exercise

·
ability to move
joints through
full
range
of motion

·
benefit
sport/dance performance
Assessment of Flexibility
·
limited be factor in
·
measured for assessed
joint
each
can a
injury

· ·
Specific to each
joint goniometer
·
sit
a test
Developmental Changes in Flexibility
reach

flexible
Flexibility in Adulthood
·
infants are
very
·
decline starts in childhood

· flexible people maintain/improve levels
·
gradually lose flexibility
little used + after 50
·
in
joints
girls generally more flexible

·

training
maintain = maintain levels

Flexibility Training
training
·
can maintain of
range motion in those w/ full
range
· limited
training can improve range of motion in those w/
range
 ↑ motor
physical activity
=
comp

CHAPTER 12
WEIGHT STATUS, FITNESS & MOTOR COMPETENCE

Body Composition * Impt of Body Composition
·
how
·
2 of tissues L someone looks
types
lean (muscle bone
organs)
*
-
, ,
·
related to overall health
adipose (fat)
-

% fat limits Motion
· ·
of fat free and fat
excess
range of
tissues make up body comp.

· related to WORK CAPACITY

Body Composition and Youth
·
+ factors
Body Composition + Exercise Teenage Boys
genetic environmental

2 100 4
years (10 7-14 7y)
for
· ·
environmental factor can be manipulated boys..

diet + exercise 4 activity level)
·

No groups
Body Composition + Exercise Teenage Boys ↓ most active ( (h/week
>
basketball
/track)
41 3
years (14 7).
2
boy 1-10
·..

intermediate

active was weighs more).
3
-

heavier at 16 7.
muscle

·
16 4
boys 6 years. least active
unorganized
·
by variable/reflected lifestyle active maintained fat levels
-

21· fat
weight was

Body Composition + Exercise Boys vs Girls Body Composition + Exercise Teenage Girls
boy&
·
32 45
non-training
·
from 12-16 +
girl gymnast
swimmers

12 5 (12/13-16/17)
age , both about same years
·

age 15 ,
boystaller ,
heavier , leaner
girls who didn't train
gained fat

both showed increased body
·
who trained
lean mass
girls
at
expense of fat weight
add fat
weight
-

no overall trend to

Body Composition + Exercise Adulthood -

gained subcutaneous fat
during inactivity
·

middle fat-free body and lose fat
loses
again muscle-training
-

age mass

fat
gains -

increase caloric intake

·

regular exercisers maintain levels

resistance training
motor comp- common foundational movement skill that enable participation in
everyday activities
 CHAPTER 12
WEIGHT STATUS, FITNESS & MOTOR COMPETENCE

Exercise to Reduce Obesity Obesity in Childhood
· ·
the ↓ in
offset
rate that
basal metabolic
increasing everywhere ,
all
age
accompanies caloric restriction
·
obese kids are obese adults
· muscle tissue which needs of
promotes more ,
amount
·
more calorie maintenance
energy
needed
one-quarter of US kids/adults
to sustain vital

expends calories
9%
·
Functions -
13 % children obese

·
effective to control obesity

Fitness + Physical Activity
Obesity -
30 0. + BMI ·
↓ fitness during childhood associated

wit walking/running during addescence
1%
*
·
less than metabolic t
thyroid disorders

↓ performance
·
·
rapid increase -
environment rather
genetic factors
tied to ↓ in PA

*
less active
people
↓ ↑ ↑ body
-