3. Sequences of Physical Development
Cephalocaudal and Proximodistal
• Cephalocaudal
– Development proceeds from the upper part of the head to the
lower parts of the body
– Due to the importance of brain regulation such as breathing
– Head develops more rapidly than the rest of the body during
embryonic stage
• Proximodistal
– Development proceeds from the trunk outward
– From body’s central axis toward the periphery
– Brain and spinal cord follow a central axis down through body
due to necessity for nerves to be in place before infant can
control arms and legs
4. Differentiation
• As children mature, physical reactions become
– less global
– more specific
• Neonate’s response
– to stimuli such as a burn may include thrashing about, crying,
withdrawing the burned finger
• Toddler’s response
– may cry as well and withdraw finger, but thrashing about as a
response to the pain is gone
5. Patterns in Height and Weight
• Most dramatic gains in height and weight occur during
prenatal development
• Weight gains
– 5 months Double birth weight
– 1st
year Triple weight
– 2nd
year Gain 4 to 7 pounds
• Height gains
– Infants grow in spurts and do not follow smooth growth chart
– 1st
year Height increases by 50%
– 2nd
year Grow 4 to 6 inches:
7. Changes in Body Proportions
• Head
– Neonate head is about one-fourth the length of body
– Gradually diminishes in proportion to the body
– Doubles in size by adulthood
• Arms and legs
– Equal in length in the neonate
– Arms grow more rapidly than the legs at first
– Arms grow longer than legs by 2nd
birthday
– Legs will soon catch up and surpass the arms
• Neck lengthens by first birthday
9. Failure to Thrive (FTT)
• Organic FTT (OFTT)
– A biological underlying health problem accounts for infant’s
failure to obtain or make use of adequate nutrition.
– Does not make normal gains in weight
• Nonorganic FTT (NOFTT)
– A nonbiologically based underlying health problem accounts for
the infant’s failure to obtain or make use of adequate nutrition.
– Has psychological roots, social roots, or both
– Does not make normal gains in weight
10. Failure to Thrive Problems
• FTT infants typically have feeding problems.
– Variable eaters
– Less hungry
• Slow physical growth
• Cognitive, behavioral, and emotional problems
11. Catch-Up Growth
• Organic factors
– Illness and diet can slow child’s genetically determined growth
pattern
• If problem is addressed,
– child’s rate of growth frequently accelerates to approximate its
normal curve
– Referred to as canalization
12. Nutrition: Fueling Development
• Infant nutrition guidelines
– From birth, should be fed breast milk or iron-fortified infant
formula (first year or longer) AAP
– Solids generally introduced 4-6 months of age
– Cow’s milk should be delayed until 9-12 months of age
– Avoid overfeeding or underfeeding
– Provide some fat and cholesterol
– Do not overdo high-fiber foods
– Avoid added sugar and salt
– Encourage eating of high-iron foods
14. Breast Feeding versus Bottle Feeding
Past to present
• Breast feeding has become more popular
• 70% of American mothers now breast feed for some
time
Pros of breast milk
• Considered to be the best nourishment for infants
• Does not upset the infant’s stomach
• Is adequate nourishment for first 6 months after birth
• Conforms to human digestion processes & changes to
help meet infant’s changing needs.
15. Breast Feeding versus Bottle Feeding (cont’d)
Benefits for infant
• Improved immune system
functioning
• Protects against childhood
lymphoma
• Decreased likelihood of
– developing allergic responses
and constipation
– developing obesity later in life
– developing serious cases of
diarrhea
• Better neural and behavioral
organization
Benefits for mother
• Reduces the risk of early
breast and ovarian cancer
• Stronger bones and reduced
likelihood of hip fractures that
result from osteoporosis
following menopause
• Helps shrink uterus after
delivery
16. Pros of Bottle Feeding
• Allows for others to feed the infant
• Breasts are not sore and tender
• Mother is not sole provider for nourishment
17. Development of the Brain and NervousDevelopment of the Brain and Nervous
SystemSystem
18. Development of the Brain and Nervous System
• People are born with 100 billion neurons.
– Each neuron has a cell body, dendrites, and an axon
– Dendrites
• Short fibers that extend from cell body and receive incoming
information
– Axon
• Extends trunk-like from the cell body and accounts for much of the
difference in length in neurons
– Neurotransmitters
• Message-carrying chemicals released from axon terminals
20. Myelin
• Myelin sheath
– Fatty, whitish substance that encases and insulates axons
• Myelination
– Process by which axons are coated with myelin
– Not completed at birth
– Myelination of brain’s prefrontal matter continues into the 2nd
decade of life
• Multiple sclerosis
– Myelin is replaced by hard, fibrous tissue that disrupts the timing
of neural transmission, interfering with muscle control
– PKU and congenital infection with HIV affect the myelination
process
21. Structures of the Brain
• Medulla
– Vital in the control of basic functions such as heartbeat and
respiration
– Part of brain stem
– Nerves that connect spinal cord to higher levels of the brain
pass through here
• Cerebellum
– Helps child maintain balance, control motor behavior, and
coordinate eye movements with bodily sensations
• Cerebrum
– Two hemispheres that become more wrinkled as child develops,
coming to show ridges and valleys called fissures
– Contributes to human learning, thought, memory, and language
23. Growth Spurts of the Brain
• Formation of neurons completed at birth
• First growth spurt
– During 4th
and 5th
month of prenatal development
– Due to formation of neurons
• Second growth spurt
– Between 25th
week of prenatal development and the end of the
2nd
year of life after birth
– Due to proliferation of dendrites and axon terminals
26. Brain Development in Infancy
• Myelination contributes to what infants are able to do.
• Reflexive functions such as breathing due to myelination
• Myelination of motor pathways allows neonates to show
stereotyped reflexes.
• Myelination will allow the disorganized movements of
the neonate to come under increasing control.
– Myelination of motor area of the cerebral cortex begins at
the 4th
month of prenatal development.
– Myelination of the nerves to muscles is largely developed by the
age of 2 years.
– Some myelination continues to some degree into adolescence.
27. Brain Development in Infancy (cont’d)
• Sensory development
– Vision, hearing, and skin senses are less well myelinated at
birth.
– Myelination progresses and allows for increasingly complex and
integrated sensorimotor activities.
– Hearing
• Myelination begins at 6th
month
• Continues through age 4
– Vision
• Myelination begins only shortly before full term
• Completes process by 5th
or 6th
month
28. Nature and Nurture in Brain Development
• Sensory stimulation and physical activity during early
infancy sparks growth of the cortex.
• Infants have more connections among neurons than
adults.
– Connections activated by experience survive
– Others are pruned
• Lack of stimulation
– Can impair motor development and adaptability
30. Motor Development
• Motor development follows cephalocaudal and
proximodistal patterns and differentiation.
• Neonates can lift head up aiding in avoiding suffocation.
– First they lift head
– Then they lift chest
• Heads must be supported when held
– Can hold up head between 3 to 6 months old
32. Control of the Hands: Getting a Grip
• 3 months
– Infants make clumsy, swiped movements toward objects
– Ulnar grasp
• 4 to 6 months
– Infants are more successful at grasping objects
– Can transfer objects back and forth between hands.
– Good age for giving rattles, large plastic spoons, mobiles, and
other brightly colored hanging toys that are kept out of reach
• 9 to 12 months
– Pincer grasp gives infants ability to pick up tiny objects
– Oppositional thumb comes into play
• 15 to 24 months
– Children show progression in stacking ability
34. Locomotion
• 6 months
– Infants roll over, turn from back to stomach
– Infants can sit if supported
• 7 months
– Infants usually sit on their own
• 8 to 9 months
– Infants begin to crawl or creep
– Standing overlaps with crawling and creeping
– May walk with support of adult
• 11 months
– Infants can pull themselves up
35. Locomotion (cont’d)
• 12 to 15 months
– Walk on their own, earning the name of toddler
– Run in bowlegged manner
– Fall easily because they are top heavy
• Some toddlers fall without notice and get back up
• Others cry
• Toddlers differentiate between shallow slopes and steep
ones, choosing to slide or crawl down steep ones
• Age 2
– Child can climb one step at a time, run well, walk backward, kick
a large ball, and jump several inches
36. Locomotion (cont’d)
• Myelination and differentiation of the motor areas of the
cortex must occur to master skills
• Neonate’s stepping and swimming reflexes
– disappear when cortical development inhibits some functions of
the lower brain
– reappear later, yet differ in quality
• Effects of training
– Early introduction to extensive motor skills training levels off
(Arnold Gesell study, 1929)
• Iranian infants (unlike Hopi children) in orphanage were
exposed to extreme social and physical deprivation
– They did not overcome motoric retardation (Dennis study, 1960)
38. Visual Acuity, Peripheral Vision, and
Preference
• Neonates
– Extremely nearsighted at about 20/600
– Have poor peripheral vision
• Expands to 45 degrees by the age of 7 weeks
– Prefer stripes and curved lines
– Prefer and identify mother’s face
• After 8 hours of contact over 4 days
– Prefer edges of face such as chin
• May be due to attention to movement and contrast
• Most dramatic gains in visual acuity made between birth
and 6 months of age
– Acuity reaches about 20/50
• By 3 to 5 years,
– visual acuity generally approximates adult levels about 20/20
41. Depth Perception
• Infants generally respond to depth cues by 6 to 8
months
• Visual cliff study, Gibson and Walk (1960)
– Identified age at which infants have depth perception
– Ability to crawl indicated in ability to perceive depth
• Campos et al. (1970) study
– Heart rate increased when infants placed on edge of cliff at 9
months of age
– Newly walking infants more afraid of falling off
– Different postures involve the brain in different ways and
influence infants’ avoidance (Adolph, 2000)
43. Development of Perceptual Constancies
• Perceptual constancy
– Tendency to perceive an object to be the same even though the
sensations produced by the object may differ under various
conditions
• Size constancy
– Tendency to perceive the same objects as being the same size
even though their retinal sizes vary as a function of their
distance
– Present in early infancy (Bower, 1974)
• Shape constancy
– Tendency to perceive that the shape of objects remains the
same regardless of the retinal image being received
– At 4 to 5 months old, infants grasp shape constancy under
certain conditions.
44. Development of Hearing
• 1 month
– Infants perceive differences between speech sounds that are
similar.
– Infants exposed to normal backdrop of moderate noise levels
become habituated to them and not likely to awaken unless
there is a sharp, sudden noise.
• 3 ½ months
– Can discriminate parent’s voices
• 18 months
– Hearing is similar to adults’
• Exposure to native language causes gradual loss of
capacity to discriminate sounds that are not in their
native language
46. Development of Coordination of the Senses
• Young infants recognize that objects experienced by
one sense are the same as those experienced through
another sense.
• Five-month-old infants look at novel stimulation longer
than familiar sources of stimulation.
– Infants looked at unfamiliar objects longer than objects they had
held in their hands.
– This shows a transfer of information from the sense of touch to
the sense of vision
47. The Active-Passive Controversy in
Perceptual Development
• Changes in perceptual processes of children develop
from passive, mechanical reactors to the world into
active, purposeful seekers and organizers of sensory
information.
• These changes include
1) intentional action replacing “capture”
• automatic responses to stimulation
2) systematic search replacing unsystematic search
3) attention becoming selective
4) irrelevant information becoming ignored
48. The Role of Nature and Nurture
Evidence for the role of nature
• Neonates born with sensory skills and perceptual skills
– can see nearby objects, hearing is fine, able to track moving
objects, prefer certain kinds of stimuli
• Sensory and motor changes linked to maturation of
nervous system
Evidence for the role of nurture
• Children have critical periods in their perceptual
development.
– Failure to receive adequate sensory stimulation can result in
permanent sensory deficits
• Health problems with vision in child’s eye where patch is
needed extensively can result in permanent visual
impairment
Hinweis der Redaktion
Figure 4.1: Growth Curves for Weight and Height (Length) from Birth to Age 2 Years.
The curves indicate the percentiles for weight and length at different ages. Lines labeled 97th show the height and weight of children who are taller and heavier than 97% of children of a particular age. Lines marked 50th indicate the height and weight of the average child of a given age.
Children at age 8 ½ diagnosed with FTT during infancy :
remained smaller
were less cognitively advanced
were more emotionally and behaviorally disturbed than normal children
Infants from poor families more likely to display signs of poor nutrition such as anemia and FTT
Only 2 in 5 women continue to breast-feed after 6 months
Only 1 in 5 is still breastfeeding after 1 year.
Whether to breast feed or to bottle feed is a personal decision
Many mothers opt to combine breast feeding with bottle feeding
Figure 4.2: Anatomy of a Neuron.
“Messages” enter neurons through dendrites, are transmitted along the axon, and are sent through axon terminals to muscles, glands, and other neurons. Neurons develop by proliferation of dendrites and axon terminals and through myelination.
Figure 4.3: Growth of Body Systems as a Percentage of Total Postnatal Growth.
The brain will triple in weight by the infant’s first birthday, reaching nearly 70% of its adult weight.
As myelination progresses and interconnections between different areas of cortex thicken, children are more capable of complex and integrated sensorimotor activities
Inadequate fetal nutrition
especially during prenatal growth spurt of the brain
results in small brain size, formation of fewer neurons, and less myelination
Infants handled carelessly can develop neck injuries
Figure 4.6: Motor Development in Infancy.
Motor development proceeds in an orderly sequence, but there is considerable variation in the timing of marker events.
Stacking progressions:
2 blocks at 15 months
3 blocks at 18 months
5 at 24 months
Locomotion – movement from one place to another; variation in age of ability
Creep – infants move themselves along up on their hands and knees
Figure 4.7: Preferences for Visual Stimuli in 2-Month-Olds.
Infants appear to prefer complex to simple visual stimuli. By the time they are 2 months old, they also tend to show preference for the human face.
Figure 4.8: Eye Movements of 1- and 2-Month-Olds.
One-month-olds direct their attention to the edges of objects. Two-month-olds “move in from the edge.”
Figure 4.9: The Visual Cliff.
This young explorer has the good sense not to crawl out onto an apparently unsupported surface, even when mother beckons from the other side.
Bower (1974) conditioned 2 ½ to 3 month old infants to turn their heads to the left when shown a 12-inch cube from a distance of 3 feet. His study found that size constancy is present at birth.
Transfer of information from the sense of touch to sense of vision at this age occurred when five-month-old infants shown pictures of objects that they had not held in their hands
Today, most developmentalists agree on the nature nurture interaction to shape perceptual development.