Unit 2 MSD Cerebral Palsy PDF

Summary

This document presents an overview of Unit 2 on Cerebral Palsy, covering developmental and acquired motor speech disorders, in addition to outlining the broad categories of neurological insult in children.

Full Transcript

Unit 2

Cerebral Palsy
1) Developmental motor speech disorders:

(i) Developmental dysarthria / anarthrias: due to
congenital or genetic causes

A] Cerebral palsy
B] Others: Eg Muscular dystrophy, Craniostenosis,
Congenital hydrocephalus etc

(ii) Developmental apraxia of speech (DAS)

2) Acquired motor speech disorders:
various etiologies such as vascular pathologies,
tumours, trauma etc. which is acquired in nature
 In children, clinical manifestation of insult to
nervous system falls under 6 major categories:

Neurosensory Eg; Hearing impairment
Neurointellectual Eg Mental retardation
Neurobehavioral Eg; ADHD
Seizural Eg Any type of epilepsy
Neuroperceptual Eg LD, APD etc

Neuromotor Eg: Cerebral palsy
 Cerebral palsy/cerebral
dysfunction

First identified/described by John Little who
was a physiotherapist (polio patient) and
work with orthopaedic cases. He saw that
there was one more condition which
resembled polio but not actually polio and he
called it Little’s disease. He found that one
way to distinguish this condition from polio
and myopathies was its non progressive
nature.
Term “Cerebral Palsy” first coined by Phelps
(orthopaedic surgeon)
 In 1947, a group of specialists (Neurosurgeons,
neurologists, orthopaedic specialists,
physiotherapists, occupational therapists, speech
therapists) formed the AACP (American Academy
for Cerebral Palsy) to form structured programs
on diagnosis, treatment, technological
development, perinatal care etc. of cerebral
palsied children.
In 1977- AACP retermed as AACPDM because they
realized that there were other similar disorders
which came under childhood disability conditions.
DM-Developmental medicine means a branch of
medicine that deals with developmental
disabilities of children.
 Definition of CP

According to American Academy for Cerebral
Palsy and Developmental Medicine (1977),
cerebral palsy refers to a nonprogressive CNS
deficit.
The lesion may be in a single or multiple
locations of the brain, resulting in definite
motor and possible sensory abnormalities.
It occurs as a result of inutero factors, events at
the time of labor and delivery (congenital CP) or
a variety of factors in the early developing
years (acquired CP).
In addition to motor deficit, other associated
disorders may be found.
 The definition identifies two varieties of CP:
Congenital (85%)
Acquired (15%)

Congenital: (birth to 3-6 months, others say strictly
birth to 15 days) conditions in which etiology is traced
to intrauterine, natal and perinatal factors. Very
common cause in CP

Acquired: caused in the post natal period (6 mths to 2
years) controversial
CNS infections, intracranial hemorrhage due to
vascular pathologies (primary and secondary), late
onset hydrocephalus or inadequately treated
hydrocephalus, trauma, neoplastic growths in brain,
toxicity, infections such as meningitis, encephalitis
etc.
 Sometimes anoxia due to following may lead
to acquired variety
Strangulation
High altitude
Deep pressure
Hypoglycemia (reduced blood sugar)
Poisoning

Genetic: some well documented clients of
spastic paraplegia with autosomal dominant
trait
CP is a static motor deficit with definite motor
nature of the problem which distinguishes this
from other disorders such as MR syndromes,
organic brain deficits, autism or emotional
disorders
Incidence of CP
ASHA statistics: 1 to 2 in 1000
M:F = 1.75 or 2:1
Etiologies of CP
I Congenital
A] Intrauterine factors
1) Prematurity: high risk factor ( may or may be at high risk
depending on GA and BW)
Small for gestational age (SGA- age of the foetus) and
birthweight(BW)
In premature children, if BW is appropriate for GA, lesser
risk, but if BW less and not appropriate for GA, then high
risk for acquiring developmental disabilities including CP
 2) Asphyxia / Respiratory distress syndrome
3) Intracranial haemorrhage (especially
MCA)
4) Intrauterine malnutrition
5) Intrinsic developmental disability or
abnormal development
6) Disproportionate CNS maturation
7) Maternal prenatal condition: general
health, effects of drugs, alcohol, tobacco,
radiation, environmental pollutants and
chemicals, malnutrition of placenta,
maternal infection (Rubella, toxoplasmosis,
cytomegalovirus, herpes)
 B] Perinatal factors

1] Neonatal asphyxia: due to
Obstetrical accidents (breach presentation, precipitated
delivery, dry delivery, pre term, post term, forceps
delivery, caesarian delivery etc)
Anaesthesia
Umbilical cord around neck or other mechanical problems
Intrinsic pulmonary deficits of the infant

2] Infection: Eg; sepsis (illness in which the body has a
severe response to bacteria or other germs, symptoms not
caused by the germs themselves. Instead, chemicals the
body releases cause the response, meningitis

3] Intracranial haemorrhage during delivery
 4] Hyperbilirubinemia (increased levels of
bilirubin in the blood) : RH factor

5] Blood group incompatibility: ABO groups

6] Fixed motor lesions due to:
CNS insult: hydrocephaly, anencephaly
(absence of skull or large part of brain),
encephalocele (bones of the skull do not
close completely, creating a gap through
which cerebral spinal fluid, brain tissue
and the membrane that covers the brain
(the meninges) can protrude into a sac-like
formation) etc
Other causes such as
neurofibromatosis (nerve tissue grows
tumors), syndromes
 Classification of CP

1] Physiologic (Motor)

A] By Denhoff
Spasticity
Athetosis: Tension, Nontension, Dystonia and Tremor
Rigidity
Ataxia
Tremor
Atonia
Mixed
Unclassified
 B] By Hardy

(i) Disorders of muscle tone: extent of tension
maintained in muscle group
Hypotonia → Atonia, Flaccidity
Hypertonia →Spasticity, Rigidity and Tension

(ii) Disorders of movement (kinesia)
a) Hyperkinesia (UMN lesion and excessive involuntary
movement)
I Dyskinesia: Athetosis, Chorea, Choreoathetosis

II General variety
Dystonia
Tremors
Myoclonus and spasmodic disorders
 b) Hypokinesia: LMN lesion (reduced movements,
rare in CP)

(iii) Disorders of coordination: Ataxia

2]Topographic

Monoplegia (symptoms are present only in one
limb)

Hemiplegia (one side of the body is affected –
usually spastic and occasionally athetoid)

Paraplegia (involvement of legs only - spastic and
rigid types usually)
 Triplegia (involvement of three extremities, more often
both legs and one arm (usually spastic)

Quadriplegia / Tetraplegia (involvement of all four limbs
where legs are most involved (usually spastic with
greatest involvement in arms, usually dyskinetic
including athetoid)

Diplegia (involvement of like parts on either side of the
body i.e. bilateral paralysis; both hands or both legs,
arms are affected to a lesser degree than legs)

Double hemiplegia (arms are more involved than legs.
Usually spastic in type)

3] Etiological: Genetic, congenital, acquired etc
 4] Neuroanatomical: Cortical, subcortical, UMN,
LMN, central, peripheral etc.

5] Supplementary:
(i) Psychological status: cognition, degree of MR etc

(ii) Physical status: (assessed by a paediatrician)
Physical growth evaluation- height, weight etc.
Developmental level- in different doamins like
sensory, sp-lang
Bone age (By biopsy)
Contractures (permanent fixed postures in body
when spasticity /rigidity is not reduced through
physiotherapy)

(iii) Convulsions/ seizures
Grandmal (tonic-clonic), petitmal (absence), focal
etc
 (iv) Posture and locomotive behavior pattern

(v) Eye hand behavior pattern
Eye dominance
Eye movements
Eye posture
Fixation (eye gaze)
Convergence
Prehensory approach (simultaneous eye hand coordination
exhibited on both sides)
Grasp
Manipulation
Hand dominance

(vi) Visual status
a) Sensory: amblyopia (astigmatism-a type of squint where
there is cross over of visual fields), field defects, myopia-
(distance object not clear, near object clear)
 b) Motor:

Conjugate deviations
Fixation defects
Spasmus fixus (fixation deficit due to sudden
spasm in extra and intraocular muscles)
Strabismus fixus (fixation deficit due to
squint)
Esotropia (type of squint when eyeballs
deviate towards midline)
Exotropia (deviate away from midline)
Hypertropia (deviate towards head)
Hypotropia (deviate towards mouth)
 Nystagmus (involuntary movements of
eyeball)
Pseudopalsy of external eye muscles
(appears as palsy of eyeballs, severe
spasticity in and around eyeballs , but not
eyeballs)

(vii) Auditory disorders (e.g. in athetoid
due to kernicterus, the could be high
frequency sloping SNHL)

(viii) Speech / language and
communication disorders
 6] Functional capacity

Class I: no practical limitation of capacity
Class II: Mild to moderate limitation of capacity
Class III: Moderate to severe limitation of capacity
Class IV: Non ambulatory

7] Therapeutic classification

Class A: Not requiring treatment
Class B: Requires minimal therapy
Class C: Requires team approach
Class D: Requires long term institutionalization and
treatment
Motor development in typically developing children and in
children with cerebral palsy
Typically developing children
Based on neural commands from motor areas, the
structures of the body act-i.e. muscles, tendons and joints
Various degrees of (a) flexion and extension (b) contraction
(c) force physiology possible (precision, range, speed,
force)

CP children: lesion and topography of disorder affects the
motor movement to various degrees
difficulty to initiate movement
total arrest of movements
stereotyped movements
involuntary movements
incoordinated movements
 abnormal posture patterns
Contractures

Definition of :
A] Milestones-motor, sensory, social and adaptive,
speech and language, visual, auditory etc.
B] Critical period (embryogenesis and fetal
developments)
C] Sensitive period (periods when a child may learn
particular skills more easily than others)

Motor milestones
1] Gross motor development
2] Fine motor development
 The functional system for speech is not
present at birth. The neural functional system
for speech is not in place until the end of
second year of life

Neural correlates of milestone acquisition:
maturation of nervous system
1] Synaptic connections
2] Myelination (increase in thickness for faster
conduction)
3] Neurotransmitters (quality and function
change for faster conduction)
4] Cell morphology (increase in cell size and
morphology)
5] Dendritic arborization (branching of
dendrites- faster conduction)
 Motor development/ control in normal children
The direction of motor development is always
proximodistal (arms first control-> fingers) and
cephalocaudal (head control first->arms->legs)
Initially arms are flexed/adductedabducted/extension
Initially only reflexive motor activities/behaviour
(primitive reflexes) which is later modified into
voluntary activities (becoz cortex not mature in new
born, movements controlled by lower centres. As
maturation occurs, function taken over by brainstem,
midbrain and then cortex by one to one and a half
years)

Lower order nervous system (age of onset and
completion of neural correlates faster than higher order
nervous system)

Higher order nervous system
 Jackson’s concept
Evolution of the nervous system
Dissolution of the nervous system

Dr. Jackson regarded the CNS as an hierarchy
in which each grade controls the grade below
and is controlled by grade above

Each centre in the lowest grade represents a
limited portion of the organism and each
centre in the highest grade represents the
whole of the organism
 Principle of evolution: Because the higher structures
are immature and the lower structures are
responsible for the control of motor actions and as
and when the higher structures mature the function
of the lower centers are controlled by the higher
centers.

Principle of dissolution: When an individual incurs
damage to the cortical structures, the cortical
structure loses its control over the lower structures
and the function of the cortical structures are taken
over by the lower structures.
 Duplex’s symptomatology- explained the same
concept as symptoms

When disease affects the nervous system, there are
two sets of manifestations, negative and positive: loss
of function and excess of function

The functions lost are those of the centers diseased

The functions in excess are those of the centers
subordinate to centres diseased

Postive symptoms→gain of functions of the higher
centers by the lower order nervous system
Negative symptoms→loss of function of higher order
nervous system
 Reflexes
Definition: stereotyped involuntary motor
response to a stimulus which is mediated
through the nervous system

Types:
1] Superficial: from skin or cutaneous layer
2] Visceral: from visceral systems
3] Deep: from tendons, ligaments etc.
[ Neuromuscular units-muscles (striated and
unstriated), tendons (muscles to bones),
ligaments (bones to bones)
 Receptors

1] Exteroceptors (placed externally to body structure-
skin, hair follicles etc)
2] Interoceptors (intestine, heart)
3] Proprioceptors (its relation to deep tendon reflexes-
status of given joint structure)

Reflex arcs/paths
1) Monosynaptic reflex arcs:
Receptors/ Afferent/
Sensory→internuncial/integrating neurons→effector/
efferent/ motor

2) Multisynaptic reflex arcs
 Reflexes are controlled at 4 levels –
from the lowest level i.e. spinal cord,
then pons and MO, then midbrain
and then the cortex. i.e. internuncial
neurons are located at each of these
levels for different reflexes.
Most primitive reflexes-controlled at
the spinal cord level (crude level of
functioning)
 Types of reflexes:
1] Primitive reflexes: some reflexes appear during specific
age range and disappear after a period, e.g., sucking, hand
grasp etc. These reflexes following this pattern are called
primitive reflexes
2] Postural reflexes: As a child matures there is
coordination in the child’s movements. 2 types of
development seen
(a) Righting reactions
(b) Equilibrium reactions
Righting reactions- ability of the body to maintain or stick on
to the axis of the body. Can be elicited in all positions
Equilibrium reactions- ability to maintain equilibrium, i.e.
balance the body against gravity
Both these give postural stability to the child. Occurs
because of increase in myelination of increasing
maturation of CNS

These two reactions if are appropriately developed gives rise
to appropriate postures and perfect voluntary movements
 Most “infant” reflexes do not last beyond
the first year.
Infant reflexes may not completely
disappear.
– May be inhibited by maturing CNS.
– May be integrated into new movements.
Primitive reflexes critical for human survival.
Concept of pathological reflexes: Late
appearance and late disappearance or
persistence of primitive reflex beyond a
specified age range –gives clue reg. possible
neuromotor involvement
Keen observation of reflexes necessary
 -Reflexes can determine level of neurological
maturation.
– Reflexes are age-specific in normal, healthy
infants
– Severe deviations from normal time frame may
indicate neurological immaturity or
dysfunction.
– minor deviation in reflexes-suspicion
Each reflex has to be elicited in a particular
manner- a particular pattern of movement is seen
which is common across all normal children
What happens in cerebral palsies?
Postural reflexes disturbed in CP, because of
damage to higher centers-movements are
incoordinated, reflexive and crude, nonsegmental
(mass reflex action without fine control in the
movements
 Babinski:till 4m
S: Stroke bottom or lateral portion of foot
R: Great toe turns downward
Sl. Reflex Stimulus Response Normal
No reaction

Primary / primitive reflexes
1. a) Suckling Introduce a Sucking action of the lips and jaw Upto 3
b) Sucking finger into the month
mouth s

2 Rooting Touch baby’s Head turns towards stimulus Upto 3
cheek month
s

3 Cardinal a) Touch a) Lower lip of this corner lowers and Upto 2
points corner of tongue moves towards the point of month
reaction mouth stimulation. When finger slides away s
from the corner, head also turns in this
direction and follows the finger

b) Central b) Upper lip elevates, tongue moves
portion of towards the point of stimulation. If
upper lip is finger slides along the oronasal
stimulated groove, the head extends upwards

c) Central c) Lower lip is lowered and tongue moves
portion of towards the point of stimulation. If
lower lip is finger moves towards chin, the
stimulated mandible is lowered and head flexes
4 Hand Stroke ulnar Automatic opening of hand Upto 2
openi border of palm months
ng and little finger
5 Hand Hand grasp Press finger or other suitable Upto 3
grasp object into the palm from ulnar months
side
6 Moro Baby in supine There is abduction and Upto 4
reflex position. Head extension of arms and fingers. months
and shoulders are This reaction is followed by
raised from the adduction of arms and fingers
table and head is (as if in an attempt to embrace)
dropped back
suddenly
7 Startle Obtained by Elbow is flexed (not extended as Remains
reflex sudden noise or in moro) and the hand remains
by tapping the closed through
sternum out life
8 Foot Press the sole of a Fingers curl and there is Upto 9
grasp foot behind the grasping response of feet months
reflex toes
9 Placin Brush the anterior Child lifts the respective limb Upto 5
g aspect of foot or upto place / step onto table to 7
reflex hand against the months
Palmar/HandGrasping:7-
11m
MORO:4m
 Plantar Grasp :till 9 m
S: Touching the ball of foot
R:Toes grasp
10 Primary Hold the baby Reciprocal action of Upto 5
walking or upright and tilt flexion and to 7
automatic him/her forward, extension of legs is months
walk or with the sole of seen (which
reflex foot pressing resembles walking)
stepping against the table
11 Galant’s Stroke the back of Trunk flexes towards Upto 2
trunk the child (lateral to the side of the months
incurvation the spine) stimulus
12 Automatic Child in supine Child pulls to sitting Upto 2
sitting position. Pressure is position from supine months
placed on the thighs
and the head is held
in flexion
13 Flexor Child in supine Uncontrolled flexion Upto 2
withdrawal position. Head in response of months
reflex midline, legs stimulated leg
extended. Stimulate
the sole of foot
14 Extensor Child in supine Uncontrolled Upto 2
thrust reflex position. Head in extension of months
midline, one leg stimulated leg
extended and
Gallant’s trunk incurvation:
till 2m
1 Crossed Child in supine Opposite leg Upto 2
5 extensio position. Head in adducts months
n midline and legs internally,
extended. Stimulate rotates and foot
medial surface of plantar reflexes
one leg by tapping (typical scissor
position)
II Postural reflexes
1 Tonic Put the child in The child will be unable to Upto 2 to 5
labyrinthi prone (face dorsiflex head, retract months
ne reflex down) position shoulders, extend trunk,
(a)Reactio arms and legs. That is,
n to prone normal flexor tone is noted
position in newborn (fetal position).
Begins to disappear with
development of extensor
2 Reaction Put the child in tone Upto 2 to 5
to supine supine (face months
position up) position Extensor tone dominates
when arms and legs are
passively flexed. That is,
development of extensor
tone is seen for flexion in
supine, or total extension
(TLR)Tonic Labyrinthine: 5-
6m
2 Asymmetr Patient in supine Extension of arm Upto 3 to 4
ical tonic position. Head in and leg on face months (it
neck midline and arms side (i.e., is a rare
reflex and legs increase in reflex and
(ATNR) extended. In this extensor tone) usually
(Fencer’s position, turn the and flexion of arm pathologica
reflex) head of the and leg on skull l)
patient to one side (i.e. increase
side in flexor tone).
This resembles
Fencer’s posture
3 Symmetric Position: patient in
al quadruped position
Tonic neck (on all fours) or on
reflex the testers knees
(STNR)
(a) In the above Arms flex (or flexor It is a rare
position, when tone dominates) reflex and
the head is and legs extend (or usually
ventroflexed extensor tone pathological
dominates)

(b)In the above Arms extend (or
position, when extensor tone
(ATNR)Asymmetric tonic neck reflex: 8-9m
(STNR)Symmetric tonic neck
reflex:5-6m
4 Positive Child is In first 2 to 4 months, Upto3 to 5
support held there is reflexive months
ing vertically extension of legs and
reflex under arms some weight bearing is
and noted.
bounced on
balls of feet Between 5 to 7 months,
extension of legs is
followed by flexion and
kicking responses.

This becomes a more
voluntary standing
response from 6 months
onwards
5 Negative Child is held Child sinks (astasia) Upto 3 to 5
supporti vertically months
ng reflex under arms
(in weight
bearing
position)
Positive support:4m
 III Secondary reflexes (righting and equilibrium)
1 Automatic (a)When the Head extends Newborn to 2
head/neck child is held atleast in line months
righting supported under with the rest of
reflex stomach the body
Between 2 to 4
(b) When the Infant holds head months
child is held in steadily
sitting position
Between 4 to 6
(c) When the Head returns to months
child is held in midline to correct
vertical position for body position
under arms and
tilted sideways
2 Landau Suspend the child 1st stage: extension 1-3 months
reaction by holding him of head above
face down under shoulder level
his upper thorax
2nd stage: extension 3-6 months
of head and thorax

3rd stage: extension 6-12 months
of head, trunk, hips
3 Protective (a)Supine and prone: Lateral 6 months. / tilt patient on tilt board. curving of
reactions Arms and legs head and
(protectiv extended, tilt the thorax,
e board to one side protective
reactions reaction in
appear in limbs
response (b)Four point kneeling: accompany
to a (i) Patient in trunk
sudden quadruped position, reaction
displacing tilt towards one side 7 to 12
force and Lateral months
are in the curving of
same head and
direction thorax. There
as the is abduction
force) (extension)
(ii) In the same position of arm and
as above tilt the leg on raised
board forward and side and
backward protective
(anterior/posterior) reaction on
lowered side

When tilted
(c) Sitting: Arms will immediately 4 to 6
(i) Childs balance in move forward and the months
sitting is suddenly child will prop on
disturbed arms. This response
forwards by will improve with age
pushing child from
back
Arm will reach 8 to 12
(ii) Childs balance in backwards to break months
sitting is suddenly the anticipated fall,
disturbed with rotation of the
backwards by trunk and forward
pushing child from flexion of the legs.
front This response usually
is present before
walking can be
anticipated 6 to 8
(iii)Lateral: childs months
balance in sitting
is suddenly
disturbed by
pushing the child 18 months
sideways Head and thorax
curve. There is
(d) (i) Kneel standing: abduction-extension of
(ii) In the same Head and back flex
position as above , and arms flex and
tilt the patient extend backwards
forward

(iii)In the same Head and back
position as above, extend and arms
tilt the patient extend forward
backwards 12 to 18
months
(e) Standing: in Similar reactions as
standing position, above are seen
push the child depending on the
forward, backward position
and sideways Partial
reactions
(f) Parachute or Childs upper limbs by 4 to 5
protective and fingers abduct months.
extension forward: and extend as if to Fully
child is held by protect his head developed
waist upended and parachute
moved quickly reaction
toward the table anticipated
or floor by 9
months
4 Staggering a) Standing
reactions
(saving from (i) A sudden Hopping or 12 to 18
falling) push to left stepping months
or right by sideways is seen
holding the inorder to
upper arm maintain
equilibrium

Hopping or
stepping forward
(ii) A sudden is seen inorder to
push forward maintain
by holding equilibrium
the upper
arm Hopping or
stepping
backwards to
maintain
equilibrium or
(iii)A sudden dorsiflex the feet
push (going on to
backwards heels) backwards
by holding by holding the
the upper upper arm
 Early signs of cerebral palsy

1) Delay and deviance in motor development
Gross motor development
Fine motor development
Oral vegetative skills
Speech motor skills
2) Postural control:
Persistence of primitive reflexes
poor postural reflex control
3) Associated and comorbid disorders
4) Feeding and related problems
5) Sleep and general behavior
6) Presence of syndromes
7) Secondary effects on development of other related skills
such as communication, speech, social and adaptive etc
 Type of motor disorders in cerebral palsy
Spastic cerebral palsy
Lesion → Pyramidal pathway (UMN) –which controls
voluntary movements

Motor characteristics
1) Increased tone – hypertone

Hypertonia is caused by breakdown in Alpha-gamma
loop. When extrafusal expand, intrafusal also expand.
The limit to which they stretch is controlled by stretch
receptors. If stretch overshoots or undershoots, inf
passed on to GMN which further passes to AMN which
will correct the stretch. Proper coordination by the
GMN and AMN results in maintenance of normal tone.
Further even if there is increased discharge by AMN,
inhibition is brought about by AMN.
 2) Exaggerated reflexes – hyperreflexia

3) Loss of voluntary control: inability to
execute voluntary movements in an
adequate manner. Antigravity muscles
(flexors) are more affected, affecting
agonist antagonist reciprocal activity (eg:
lifting of hand)

Hyperreflexia and reduced voluntary
control-leads to abnormal postures and
movements
 Normally, muscles coordinate in pairs;
when one group of muscles contract
(tighten), the other group relaxes. Agonists
contract and increase the tone of the
muscles. Antagonists do the opposite. This
allows free movement. When
complications in brain-to-nerve-to-muscle
communication occur, the balanced
degree of muscle tension is disrupted.
Muscles affected by spastic cerebral palsy
become active together which effectively
blocks coordinated movement. Thus, the
muscles in spastic cerebral palsy patients
are constantly stiff, or spastic.
 In severe cases, Mass reflex action seen due
to hyperreflexia– entire body acts like a
mass
In prone position- total flexion of the body
(trunk curved, head fixed inwards, knee,
foot and hip flexed, arms flexed kept close
to chest)
In supine position-total extension of the
body, head and shoulder extends
backwards, trunk and hips extended, foot,
ankle & arms extended
Postural abnormalities
Voluntary movements-jerky
and uncontrolled
 ATNR seen (arm towards the side of
face
is extended)
If increased spasticity in one of upper
limb, then thumb in palm sign is seen
and palm fisted.
Arms flexed at elbow, wrist. Fingers
flexed and fisted
 5) Early signs
Positive moro reflex (stiffening of body,
excessive arching of body and excessive
startling)
Difficulty in feeding, swallowing
regurgitation
Drooling
Vomiting-becoz of spasm in alimentary canal
Fitful/irregular sleeping habits
Excessive crying
Hyperirritability
Strabismus of eyes
 6] Gait abnormalities (lower limb
signs)
Scissoring: Evident in standing position
and in walking. This is characterized by:
Thighs in adduction position
Internal rotation of hips
Crossing of legs
Feet turned inwards
Occurs because of increased spasticity in
lower limbs. If not corrected and learns to
walk, he/she has scissoring of gait
If increased spasticity in extreme end of
lower limbs, toe walking present. Toe
walking (becoz of severe extension in
 7] Topographic distribution: Spasticity can affect entire body
or it may be restricted to certain areas and hence
topographically depending on the involvement spastics may
be divided into
Monoplegics
Di
Para
Hemi
Tri
Quadri
Speech and language functions are intact when the upper
part of the body is not affected. So in paraplegics, no sp &
lang abnormalities
Easy to recognize hemiplegia because of few signs: arms
pressed against the body with the forearm bent at right
angles to the upper arm and the hand is bent against forearm,
fist clenched tightly with the finger pressed into the palm, toe
walking & / or walk on outer part of the ball of the foot and
toes &/or rotate leg inwardly and limited bending of knees
 8] Overflow/synkinesia: body parts other than
the one intended also participates
9] Emotional incontinence (uncontrolled crying,
laughing →by UMN lesion)
10] Intellectual impairment (MR present…)
11] Visual signs (strabismus, nystagmus, field
effects)
12] Epilepsy (Grandmal type of epilepsy)
13] communication impairment
Speech deviation-spastic dysarthria with
language delay/deviance
 14] Response to passive movement
(physiotherapist)
Clasp knife phenomenon (increased tone in
either flexion or extension followed by sudden
relaxation) (by neurologist)
When passive movement is induced in the
limbs, initially the structure gives in or there is
less resistance to passive movement induced
but at certain angles increased resistance is
offered to passive movement becoz of
abnormally high discharge of extensor action in
the joint concerned. But if passive resistance is
continued the extensor reaction is broken up
and the resistance decreases, and the limb can
be moved to whatever angle required.
 Clonus or ankle clonus phenomena(alternate
involuntary muscular contraction and
relaxation in rapid succession) (by
neurologist)
When passive movement is induced at the
level of the foot and the foot is bent
backwards towards the knees, there is
resistance offered at certain angles. But if
passive resistance is continued there will be
sudden tremor like or reverberating
movement of the ankle.
 Rigidity
Considered as extreme form of spasticity
Extrapyramidal involvement
Equal involvement of agonist and antagonist,
all muscle spindles equally involved unlike
spasticity
Hypertone
Normal or diminished reflexes
No clonus, stretch reflex and involuntary
movements
Poor voluntary movements
Response to passive movements
(a) Lead pipe rigidity (b) Cogwheel rigidity
 Cogwheel rigidity: On application of passive
movement, the affected structure shows intermittent
phases of resistance followed by relaxation in
sequential manner. Since this mechanism resembles
the mechanism of cogwheel, it is called as cogwheel
rigidity. (Rigidity in which the muscles respond with
cogwheel-like jerks to the use of force in bending the
limb, as occurs in Parkinson's disease).

Lead pipe rigidity: On application of passive
movements, since the agonist and antagonist are
equally involved, the affected structure does not yield
to passive movements. Even if passive movements
are continued, resistance persists. Limb is like a lead
pipe. This is called lead pipe rigidity.

Like in spastics, rigidity can be restricted to 1/2/3
limbs
 Differentiating factors of rigidity
and spasticity
Rigidity Spasticity

Equal involvement Antagonist more
of agonist and affected than
antagonist agonist
Symptoms increase Symptoms
with slow passive decrease with slow
movements passive movements
Symptoms Symptoms increase
decrease with fast with fast passive
passive movements movements
 Atonia
Lesion in LMN pathways
/ peripheral nerves
- Hypotone or lack of tone
- Failure of muscles to respond
to volitional stimulation
-Muscles lack turger or firmness of the
normal relaxed muscles
-Absence of reflexes or weak reflexes
-Exists mostly as an outstanding initial
symptom of any other form of CP
-Atonia seen in children below 2 years
of age. Exhibition of characteristics
of another form of CP
Speech deviation: Flaccid dysarthria
along with language delay and
deviations
 Tension
According to Hardy’s classification, it is
another type of CP.
It is not a permanent subtype of CP, but a
temporary condition-symptoms last for a
short duration or can be ‘shaken away’ by
inducing passive movements
Varies in severity according to the emotional
state of the individual
Usually associated with movement disorder,
not with disorders of tone, where tension
cannot be shaken away
Assumed that EPS is involved, but
neuroanatomical base not known
 Hyperkinetic
disorders

Extrapyramidal system- Inhibitory/
Excitatory
Hyperkinesia/Dyskinesia- Chorea,
athetosis, choreoathetosis
Quick/ slow
Slow: Athetosis, chorea, dystonia
Quick:Ballismus, tremor, myoclonus
 Athetosis
Movement disorder-involuntary movements
Lesion: Basal ganglia /extrapyramidal
Characteristics:
1] Tone: Fluctuating muscle tone-hyper to hypo and
viceversa
2] Reflexes: Hyper and primitive. Reflex actions and
subsequent postural abnormality similar to that of
spastics
3] Involuntary movements: due to lack of inhibitory
and excitatory influence on the pyramidal output.
Twisting, writhing (snake like movements), worm
like movements progressing from proximal to
distal areas in wave like fashion
Increase in stressful or excited conditions (true for all types
of hyperkinesia), Disappear during sleep

4] Posture and movements: Arms drawn back or forearm
held with palm downwards, the fingers are overextended
and spread outwards. Head held back, neck stiffened,
mouth open and tongue protruded with or without
drooling, facial grimaces (all these may be seen in
quadriplegia / upper limb diplegia)
Speech characteristics depend on whether any involvement
of speech apparatus

5] Sensory problems
Kernicterus athetosis: due to Rh incompatibility, bile
pigment deposits on basal ganglion
Triad symptoms: High frequency sensorineural hearing
loss, athetosis, difficulty of occular movements in
horizontal and vertical direction
6] Cognition: not affected
7] Gait: writhing, lurching (staggering)
and stumbling with overflow of arms
when he moves
8] Topographic distribution
(monoplegia to quadriplegia)
9] Early signs: similar to spastic
 10] Denhoff-12 subtypes of athetosis-
criticized for its practical applicability while
diagnosing athetoid varieties of CP
Rotary athetosis: slow, circular movements of
the extremities
Tremor athetosis: irregular and uneven
involuntary movement characterized by
flexion-extension, adduction-abduction like
movements
Dystonic athetosis: distorted positions held
involuntarily for some seconds or minutes.
May involve neck, trunk, arms and legs.
Shudder athetosis: momentary tremor of mild
to violent intensity
 Flailing athetosis: violent thrashing of
arms and legs from shoulder and hip
joints. Usually, there is little
involvement of hands, fingers, wrists
and knees
Tension athetosis: associated with
hypertone state
Nontension athetosis: associated with
hypotone state
Hemi athetosis: one half of the body
Neck and arm athetosis- Athetoid
characters seen in neck and arms
 Deaf athetosis / Kernicterus athetosis: (a)
Athetosis (b) High frequency SN hearing loss
(c) limited vertical and horizontal eye
movements
Balance – release athetosis: sudden loss of
balance without falling due to involuntary
movements
Emotional-release athetosis: increased signs
and symptoms during emotional state

Speech deviation: hyperkinetic dysarthria
along with language delay and deviations
 Dystonia
Lesion: Extrapyramidal system
- Considered extreme form of athetosis
- Involuntary movements: typically
characterized by involuntary contractions
of muscles of torso, neck and face. The
contractions increase relatively slowly in
intensity, and result in grotesque posture
due to extremely forceful contraction of
the involved muscles before relaxation.
Types: focal and nonfocal
Speech deviation: Hyperkinetic dysarthria
 Tremor
Lesion: Extrapyramidal system
Characterized by involuntary movement: back and
forth, pendular movement of the extremities and or
the head
Types:
 Physiological tremor/ normal tremor
 Pathological tremor:
- Tremor at rest/ akinetic tremor / static (basal
ganglia lesion)-Parkinson disease
- Tremor in action / kinetic tremor (cerebellar lesion)
- Usually seen with other types of CP. Pure form is
rare. If only tremor is seen, it is an indication for the
onset of other diseases.
- Speech deviation: Hyperkinetic dysarthria
 Ballismus
Lesion: subthalamic nucleus (Nucleus of
Luys)
-Involuntary movements: rapid, violent,
flailing movements of the extremities
-Hemiballismus: lesion in the contralateral
side
-Seen associated with dyskinesia or other
types of CP
- Speech deviation: Hyperkinetic dysarthria
 Myoclonus and other spasmodic disorders

Lesion: Extrapyramidal system
-Involuntary movements: due to rapid,
abrupt, twitching unsustained muscle
contractions in large and small groups
of muscles
-Types: (a) Synchronous myoclonus: a
number of muscle groups jerk or
contract at the same time or one after
the other (b) Asynchronous
myoclonus: a number of muscle
groups contract at different times
- Muscles of the facial structures may be
involved:
Palatal myoclonus: rhythmic continued
elevation of the palate, leads to resonance
disorders
Laryngeal myoclonus: rhythmic contraction of
laryngeal muscles
Pharyngeal myoclonus etc.
May be associated with convulsive disorders
etc
Speech deviation: Hyperkinetic dysarthria
 Chorea

Lesion: Extrapyramidal system
Involuntary movements: Choreic
movements are described as quasi
purposive. That is, these movements
resemble movements of a high order
(although they achieve no purpose). They
resemble fragments of purposive
movements following one another in a
disorderly fashion. Eg:, the eyes may be
rolled from one side to another, the head
turning in the same direction.
Tone: fluctuates between hyper and hypo
Speech deviation: Hyperkinetic dysarthria
 Sydenham’s chorea

Chorea seen in children
Also called as Saint Vitus dance.

Definition: Sydenham’s chorea is a
disorder of the nervous system
occurring due to the toxic effect of
acute rheumatism characterized chiefly
by involuntary movements.
Occurs in childhood and adolescence.
Pathology:
Macroscopic: edema and congestion
Microscopic: more changes in corpus
striatum, substantia nigra and
subthalamic nucleus
Cortical abnormalities also seen
Abnormality is usually in the form of
degeneration of ganglion cells
Etiology
Due to rheumatism
Sometimes may occur after scarlet
fever and diphtheria
Incidence
Between 5 to 20 years
Females more affected than males.
Ratio 3:1
 Symptoms

1. Mode of onset: usually insidious. Child
clumsy and drops things. Described as
restless, fidgety, unable to keep still.
Sometimes symptoms are abrupt and may
be described as fright
2. Involuntary movements: choreic
movements
Upper limb movements are more
conspicuous than lower limbs (dance like)
Respiration: often jerky and irregular
Choreic movements are intensified on
voluntary effort and excitement. They
disappear during sleep.
 In mild cases speech not affected. In severe
cases dysarthria
In severe cases, swallowing and mastication
may also be affected and hence they have to
be artificially fed
3. Associated movements: when voluntary
acts are performed, it is associated with other
movements. Eg making a fist may be
associated with tongue movements, lips etc
4. Voluntary movements: In initial stages not
affected, but later stages muscle power
affected
5. Hypotonia
6. Posture: Choreic posture of the hand- the
thumb and fingers are hyperextended at the
metacarpophalyngeal joints and wrist is
flexed. This is due to hypotonia, resulting
from loss of tone in the antagonistic muscles
7. Mental state: might exhibit emotional
instability due to their condition. But
intellectually above average. In severe cases,
there may be a persistent state of
excitement associated with insomnia-
maniachal chorea
8. In most cases, chorea is due to rheumatism
and hence cardiac abnormalities associated
 Prognosis: Death is very rare. Most patients
recover within 2 to 3 months. Interval between
attacks one or two years
Speech disorder: Hyperkinetic dysarthria (slow
variety due to chorea)
Dysarthria could be temporary and variable in terms
of severity, depending on the severity of the
condition. If there is recurrence of the condition,
then dysarthria may also recur.

Treatment
Should be kept in bed till symptoms disappear
Medication-chiefly sedatives
Supportive therapies such as physiotherapy,
occupational therapy and speech therapy may be
required when the choreic symptoms are active
 Hypokinesia
Lesion: extrapyramidal
Manifested as delay in initiation of
movement, slow movements
(Bradykinesia) and reduced
associated movements such as
swinging of arms while walking etc
Speech deviation: Hypokinetic
dysarthria
No cerebral palsy is classified
under hypokinesia
 Moebius syndrome
Characterized by lifetime facial
paralysis
Cannot smile or frown; seems like
person has a mask on
Cannot blink and have no lateral eye
movement (Inability to move eyes
from side to side), but they will be
able to move them up and down
Sixth and seventh cranial nerves are
not fully developed, resulting in eye
muscle and facial paralysis (blinking,
lateral eye movements and facial
expression affected)
Incidence and etiology
Rare disorder
Recurrence risk is 2%
Precise cause remains unknown
Affects boys and girls equally
Diagnosis made by clinical examination (No
prenatal test or diagnostic test to detect the
condition)
Cranial nerve involvement
Paralysis of bilateral facial nerves
The sixth and seventh cranial nerves do not
fully develop (paralysis and underdeveloped
nerves – unilateral or bilateral paralysis)
 Cranial nerves 3,4,5, 9, 10 and 12 may also
be involved
Table shows functions of cranial nerves that
can be involved
Cranial Functions
nerve
VI Side to side eye movement
VII Facial expressions, taste, blinking
III Eyelid and eyeball movement
IV Eyeball movement
V Chewing, facial sensations
IX Taste, helps with swallowing
X Conveys sensory and motor information to
and from several organs in the chest and
abdomen
 Parents may notice the following in
their baby because of cranial nerve
involvement
Poor sucking
As children start to learn to speak,
they may have some difficulty making
sounds that involve using the lips and
tongue, and making facial
expressions , such as smiling
 Symptoms
Related to facial expression and function
Excessive drooling and crossed eyes
(Strabismus) may be present
There can be deformities of tongue and
jaw, some limbs, including club foot and
webbed fingers. Low muscle tone
particularly of upper body
Lack of facial expression, inability to
smile
Feeding, swallowing and choking
problems (more difficulty with solid
foods)
 Keeps head back to swallow
Motor delays due to upper body weakness
High palate
Short or deformed tongue
Limited movement of tongue
Submucous cleft palate
Teeth problems
Hearing problems (due to fluid in ears)
Speech difficulties (especially with closed
mouth sounds and sounds involving the lips)
Minor Mid-line anomalies like cleft lip and
palate
Developmental features
Although they crawl and walk later, they
eventually catch up.
Speech problems respond to therapy,
but may persist due to impaired
mobility of tongue and lips.
As children get older, lack of facial
expression and inability to smile are the
predominant features
Associated problems
Accompanied by Pierre Robin syndrome
 Treatment
Infants sometimes require special bottles or
feeding tubes like Habermann feeder to
maintain sufficient nutrition
Haberman feeder: special feeding
bottle/device invented by the mother of a
little girl with Pierre Robin syndrome, nipple
rewards even the slightest effort from the
baby’s tongue or gums. If the baby cannot
nurse at all, one can squeeze and release a
limited volume of milk from the reservoir into
the baby’s mouth. The holes are also enlarged
and more in no.
Strabismus is usually correctable with surgery
 Benefits from PT/OT, speech therapy
Limb, jaw, hand and foot deformities
may be improved through surgery
Nerve and muscle transfers to the
corners of the mouth have been
performed to provide and ability to
smile
Tracheostomy (tube in the windpipe) for
severe breathing problems
Symptoms doesn’t get worse with time.
Symptomatic treatment
 Dystonia musculorum
deformans

Rare dystonic disorder in childhood
Dysarthria may be seen in later stage

Spastic dysphonia/ Spasmodic
dysphonia
Type of focal dystonia, since physiology
of muscular spasms is similar
Linguo-facial-buccal dyskinesia /
orofacial dyskinesia / Tardive
dyskinesia
Bizarre movements are limited to the mouth,
face, jaw and tongue.
There is grimacing, pursing of the mouth
and lips and writhing of tongue-hence
articulation is affected
Motor signs usually develop after prolonged
use of neuroleptic drugs (antipsychotic
drugs)/ powerful tranquilizing drugs
The common class of these are
phenothiazenes. Drug induced dyskinesia
associated with phenothiazine and related
medication may even produce athetoid
movements or dystonic movements
 Levodopa induced dyskinesia: Levodopa is a
traditional drug administered to Parkinsons
subjects to overcome, rigidity and hypokinesia.
Extensive use or overdosage of this drug can
lead to dyskinesia

Orofacial dyskinesia also occurs in elderly
patients without drug use. A rare disorder that
includes dyskinesia of the eyelids, face, tongue
and other muscles is called Meige syndrome

Many other varieties of dyskinesia are included
in the spectrum of extrapyramidal disorders
 Ataxia (disorder of
coordination)
Primary function of cerebellum: to bring about
synergistic coordination (smooth synchronisation
to achieve a particular target) of muscles and
muscle groups. That is, coordination in agonist
and antagonist groups of muscles. It receives
sensory information through peduncles and
controls the activity of the body in space
(maintains equilibrium).

It analyses and compares the incoming afferent
information to make suitable adjustments to the
target specification of the motor act to be
executed.
It also discharges inhibitory and excitatory
influences through extrapyramidal system to
final common pathway.

It helps maintain muscle tone.

Lesion to the cerebellum is characterized by
asynergia or dysynergia. There is
incoordination of volitional movement and
volitionally maintained postures.

Clinical signs usually appear on the same side
(ipsilateral) of the body as the cerebellar
lesion.
 Ataxic movements are incoordinated movements
characterized by what can be described as
undershooting (hypometria) and overshooting
(hypermetria) during the approach and attempt to
accomplish the motor act

Signs of cerebellar lesion:
1] Ataxia: Taxis (lack of taxia or ranking/ordering):
The order of the motor acts are incoordinated. This
leads to staggering gait and abnormal posture.
Patient tries to compensate for this by standing and
walking with feet wide apart i.e. broad based gait
2] Decomposition: patient will break a complex
motor act into its components and execute the act
movement by movement as if it were being
performed by a robot
 3] Dysmetria: inability to gauge the distance,
speed and power of movement. There may be
undershoot or overshoot of a motor act
4] Adiadochokinesis or dysdiadochokinesis: is
the inability to perform rapid alternating
movements. DDK is a most sensitive measure
in ataxia. Neurologists test for alternating
movements in the muscle groups Eg:
successive pronation and supination of the
hands, rapid opening and closing of fists,
rapid tapping of the fingers. There will be
awkwardness or clumsiness of alternate
movements
 5] Rebound phenomenon: also known
as the loss of the check reflex. For
eg, when a patient is flexing his or
her elbow isometrically against a
resistance. When the resistance is
suddenly removed without warning,
the patient's arm may swing up and
even strike themselves. With an
intact check reflex, the patient will
check and activate the opposing
 6] Hypotonia: decrease in resistance to passive
movement, is seen in cerebellar dysfunction.
The muscles are flabby and lack normal tone.
7] Tremor: Intension or kinetic tremor (tremor
occurs only when movement occurs)
8] Nystagmus: oscillatory abnormalities of the
pupil of the eyes. Nystagmus may be vertical,
horizontal etc.
9] Muscle stretch reflex: normal or diminished.
Pendular reflexes observed. Series of smooth
to and fro movements of limbs before it
comes to rest – like a pendulum (eg in knee
jerk reflex, limb movements)
Type of dysarthria: ataxic dysarthria
 Sensation and its deficits
Senses are classified into general and special. Special senses
include hearing, vision, taste, smell and tactile sense.
General consists of rest excluding the special senses.

Multisensory functions are called higher sensations. They
include recognition of form, size, texture, weight and 2 point
discrimination.
Receptors and what they mediate
Exteroceptors: mediate sound, sight, smell and cutaneous
sensation (touch, superficial pain, temperature, itching and
tickling)
Proprioceptors: mediate deep somatic sensations from
receptors beneath the skin, in muscles ad joints and inner
ear. These sensations include pressure, movement, vibration,
position, deep pain and equilibrium.
Interoceptors: include sensation from viscera (visceral pain,
pressure and distension
 Neuroanatomy: Those tracts related to body sensations are
in the posterior column of spinal cord. Cranial nerve
pathways supply the head, larynx, pharynx, tongue etc.
Eg. Sensory innervation of speech mechanism

Structure Cranial nerves
Face V: pain, temperature, touch to face
VII: proprioception to face
Tongue V: touch to anterior 2/3rd of the tongue
IX: touch to posterior 1/3rd of tongue
Palate IX: sensory to soft palate
Pharynx IX: sensory to lateral and posterior
pharyngeal wall
X: sensory to pharynx
Larynx X: sensory to most of the laryngeal
muscles
 Tests for sensory abilities
2 point discrimination: Two simultaneous
stimulation on both sides of the body or
different areas of the same part with suitable
stimuli. Inability to perceive the two points of
stimulation is called as loss of 2 point
discrimination. Suggests cortical lesion
(parietal)

Pain: A sharp edged stimuli placed on the
organ/ area to be tested
 Reduced sensation of pain: hypoalgesia
 Increased sensation of pain: hyperalgesia
 Loss of pain sensation: analgesia
 Temperature: test for ability to sense
hot or cold
Loss of ability to recognize limb
position (when eyes are closed)
eg.agnosia
Astereognosis: loss of recognition of
form, shape etc. with eyes closed
Loss of vibration sense: tested with
a vibrating stimulus, E.g. use of tuning
fork
 Associated problems in
cerebral palsy

I. Sensory problems:
More prevalent in CP
- In spastic hemiplegia-reduced sensation in the
affected limb (due to parietal lobe dysfunction
- Disorders of stereognosis, 2 point discrimination,
position sense, sharp dull discrimination, pain,
light, touch and temperature sense, vibration
sense, texture recognition etc.
- Sensory defects may include right-left asymmetry,
visual field neglect
- severity of sensory impairments may not be
related to motor deficits
II. Sensory disorders
A. Visual problems:
-cortical blindness – pupillary reaction present
but they may not respond to threatening gesture
- Strabismus (squint): Esotropia and exotropia
- Refractive errors-(a) myopia (short), (b) long
sightedness and (c) astigmatism-unequal
curvature of the refractive surface of the eye
leading to diffused image on retina
- Visual field defects-homonymous hemianopia
(usually in hemiplegics)-left nasal and right
temporal field defect or right nasal and left
temporal field defect
 occurs when there is hemianopic visual field loss on the
same side of both eyes. Hemianopias occur because the
right half of the brain has visual pathways for the left
hemifield of both eyes, and the left half of the brain has
visual pathways for the right hemifield of both eyes.
Other peripheral and central visual defects may be
noticed
- Ocular defects such as nystagmus, congenital
cataracts, optic atrophy, conjugate deviations
(hypertone deviations occurring in both eyes), which
are usually absent in sleep
Right-dextroversion
Left-Levoversion
Up-Supraversion
Down- Infraversion

B. Auditory problems
Any type of hearing impairment, especially SN loss is
common.
One exclusive variety associated with dyskinetic CP
due to Kernicterus (triad symptoms)
III. Cognitive dysfunctions
Mental retardation-more in spastics than
athetoids
More extensive (multiple) the lesion,
greater the intellectual impairment
When CP is associated with multiple
disabilities, there could be an intellectual
impairment, Eg. i) Metabolic disorders
such as Hurlers syndrome. Galactosemia
etc. ii) Glandular dysfunctions such as
cretinism, myxedema, pituitary gland
errors etc. iii) progressive disorders such
as destruction of myelin sheath, dystrophy
etc.
IV. Seizural disorders:
seizural disorders (epilepsy) of all varieties is
very common in CP
Types may include:
(1) General – Grandmal (intermittent and
continuous), Petitmal and myoclonus
(2) Focal-simple or complex
(3) Neonatal
(4) Febrile or afebrile
More common in ‘difficult to thrive’ children or
children with degenerative conditions, becoz
they have weaker physical abilities becoz of
poor eating habits, poor development of muscle
strength, power etc.
V. Emotional and behavioral disorders
Common behavioral problems in CP
include hyperactivity or overactivity (this
should be discriminated from the
symptoms of involuntary movement
disorders in hyperkinetic disorders),
attentional aberrations, impulsivity and
distractability.
In adults secondary behavioural
dysfunctions could be due to other
complications.
Observations should also be made in
stressful and unstressed situations
VI. Pseudo degeneration:
Due to reduced use of a structure which
has neuromotor impairment, there is
functional overlay. That is although the
physical movements can be executed to a
certain extent, the person will not be doing
appropriate action. Reasons can be many
such as overprotection by parents, lack of
focused goal in therapy to tap the residual
potential, lack of motivation and drive on
the part of the child, psychological gain
etc. Due to these there will be
degeneration in functional capacity (which
is actually pseudo)
VII. Orthopedic problems:
Common problems may include
contractures, imbalance, instability,
malalingment of bony framework etc.
Test specifically for hand functions and co-
ordination such as range of motion,
strength, co-ordination and dexterity (for
manipulative skills)
VII. Perceptual problems
Agnosia and allied disorders, CAPD etc.
may coexist with CP
IX. Speech, language and communication
problems
Depends on the type, severity and
topography of different types of CP
Team approach in the rehabilitation of cerebral
palsy
Team of professionals include:
A. Medical team:
- Paediatrician
-General practitioners
- Neurologist
- Neurosurgeons
- Orthopaedic surgeon
B. Nonmedical team:
- Speech-Language Pathologist
- Occupational therapist
- Physiotherapist
- Special Educator
- Social worker
- Vocational placement officer
 Others (depending on the associated
problems)
-Audiologist
-Ophthalmologist
-ENT
-Clinical Psychologist
Role of the
professionals
Medical
a) General practitioners:
Identification of early signs
Appropriate referrals to different professionals
Physical well being of the child in terms of
b) Paediatrician:
Diagnosis of the condition based on
the examination of the physical
status of the child
Monitoring growth and development
of the child
Identify symptom cluster and classify
the disorder (especially in syndrome
conditions)
c) Neurologist:
Assess neurological status based on hard and soft
neurological signs
In gross deformities, check for hard neurological signs
(lesion sites in brain and other structures) and
reflexes, physiological nature of the disorder (tremor,
dykinesia etc)
Supplement finding by neuroimaging and lab
investigations
check for signs and symptoms
In milder cases, check for subclinical manifestations
and soft neurological signs (eg. Lack of fine motor
control, memory lapses, hyperactivity, impulsiveness
etc)
Prescribe medication for control of disorder or
alleviation of symptoms
 d) Neurosurgeons:
In conducting neurosurgical procedures when
required
e) Orthopaedic surgeon:
- conduct surgery to rectify orthopaedic defects
or reduce contractures. Some techniques include
ligament sectioning, bone carving, positioning
bones using internal prosthesis etc
- these procedures improve postures and
movement of the deformed structures
- prescribe orthotic aids and devices with the help
of orthotic specialists, physiotherapist (PT) and
occupational therapist (OT) to improve posture
and mobility of structures. Example of these aids
include special shoes, splints, braces etc.
 Non Medical:
Speech Language Pathologist:
To improve speech, language and
communication behavior
The improvement depends on the degree
of the disorder and comorbid disorders
principle is to improve physiological
support for speech, overcome functional
overlays and work within the individuals
residual capacity
Assess the speech and language functions
thoroughly through identified methods
In communication, work for nonverbal
modes through AAC
 Physiotherapist:
continuous role – identify and intervene in the
physical developmental stages of child. In adults, for
post surgical consequences
to improve/normalize tone, build muscle strength,
reduce pathological/primitive reflexes
use strategies and aims to exercise the disordered
group of muscles and use assistive devices to
improve the function of the given group of muscles
Different types of exercises by various schools of
thought are:
 passive stretching
 brushing
 sensory stimulation
 sensory motor exercises
 vibration etc
 They also use assistive devices to achieve their goals
(eg. Adaptive furniture, adaptive tools (calipers,
braces etc)
All these are used to improve posture of the part of
the body, improve mobility of the structure and
coordination of the structure
Other devices also used to facilitate motor
movements such as parallel bars for walking, bolsters
and tilt boards for balancing etc.
Many approaches or schools of thought in
physiotherapy (Eg Denvers, Roods, Bobath etc). Some
of these are adaptable not only for improvement of
general motor skills but also the oral motor abilities
(Eg. Roods, Bobaths, Phelps etc). Some are
exclusively for the improvement of general physical
abilities.
 Occupational therapist
More or less the same as that of PT, but
specific physical skills required for improving
certain academic, vocational or social activity
is focused on.
Principle is to work on
strengthening of perceptual skills
strengthening of sensory motor skills
strengthening of skills related to academic
activities
strengthening of skills related to related to
vocational activities
strengthening of skills related to related to
daily living
 Just like a PT works on improvement
of tone, coordination, strength etc.
but all related to the execution of the
skill for which the individual is being
trained, e.g., writing skill, throwing
ball etc.
They also prescribe aids and devices,
Eg. For feeding, special angled
spoons, specially deviced bowls,
control of type of food etc
 Special educator:
Comes into picture when the CP child is
in special school, semiintegrated setups
and requires supportive services to do
well in academic domains
Focus on reading and writing skills
Coordinate with other team members to
prescribe class room requirements such
as special furniture, writing devices,
writing pens, adaptations in symbols and
alphabet systems, establishment of
figure ground discrimination, adaptation
of visual defects, instruments etc.
 Social worker
To liaison between the disabled
individual and the various authorities in
the society such as school authorities,
vocational/job placement officers or
between family and peer groups or
friends

They counsel, orient or demonstrate to
the selected group of people regarding
the strengths and weaknesses of the
given individual, or regarding the
attention to be given or placement to be
considered in schools or jobs etc.
 Vocational placement officer
Is a social worker in all respects but is
concerned with placement of the
individual in sheltered workshops,
prevocational centers, or actual jobs in
various setups

Selects suitable job (less physical
orientation) and works on adaptation/
modifications required in the setup or
work schedule etc. Mediates between
the employer, prospective employer,
peer group, family etc.
 Variation seen in speech and language problems
CP is a nonprogressive disorder caused due to
single etiology during prenatal/ postnatal
period.
The degree of insult can vary from mild to
severe. It varies also in terms of the
(1) type and no: of associated problems
(2) mixture/combination of disorder (eg., Athetoid
combined with spastic etc)
(3) the distribution of symptoms in the body
(topography).

Given these factors speech-language
acquisition in C.P children can be expressed in
varying degrees.
 In mild cases / clients with limited topographic
distribution / clients with pure form of CP
without any associated problem, it is possible
that the language may be normal / slightly
delayed with only speech impairment being
predominant.

On the other hand, in severe cases with the
combined CP varieties / Quadriplegia with
increased tone or more associated problems,
language development will be severely
retarded along with deviations in speech.

When speech is impaired, since it is caused
due to neurological insult, the speech disorder
 Assessment of developmental dysarthria: is
traditionally/ commonly carried out using
perceptual methods. The other methods of
evaluation of dysarthria includes 1)acoustic
analysis of speech (2) kinematic analysis of
speech (how speech articulators move) (3)
physiological analysis of speech (muscle
potentials).

These are commonly adapted in adults

Instrumental analysis: poor accessibility,
practical problems, lack of norms, the cost
involved in procuring instrument etc and hence
perceptual evaluation is used as a common tool
to describe the speech deviancies in CP children
 Assessment of motor speech disorders in
children

Dys+arthria = dysarthria (Greek word)
Dysarthria- all speech systems involved or
unitary systems involved
Assessment- 1] perceptual 2] objective – a]
acoustic b] aerodynamic c] kinematic d]
muscular
Dysfunction in the neuromuscular control may
be in the form of weakness of structures,
slowness of movement, reduced or lack of
coordination of structures because of
spasticity, flaccidity or involuntary movements
etc
 Specific features:
1] immature speech system-changing
picture with age-repeated assessments
necessary
2] primitive and pathological reflexes –
specifically in CP
3] specific clusters of symptoms in
syndromic and metabolic conditions
4] implications on language development-
delay and deviancies
5] nonprogressive lesions –in CP, but
physiological effects due to neural
maturation may be changing
6] presence of associated problems –
requiring intensive therapeutic
intervention and more likely for language
to be delayed
7] reduced prelinguistic experiences and
abilities
8] unlike adult dysarthria, mostly
nonreversible conditions and permanent
conditions
9] More localized lesions, specific oral
involvement eg. Minimal motor
dysfunction and isolated dysarthria.
Generalized lesion-as in CP
10] idiosyncratic influences-family,
environment, needs etc
 Salient features in developmental
dysarthria
1] Delayed onset of speech and language
functions-severe impairment in verbal
language. Comprehension and expression of
language may be equally or differentially
impaired-depending on the associated
problems, severity of disorder, stimulation,
early intervention and management
techniques etc.
2] If speech develops – characterized by
different types of dysarthria
On perceptual dimension: spastic, flaccid,
hyperkinetic, hypokinetic, ataxia and mixed
In each type of dysarthria, specific clusters of
3] Oral motor characteristics:
a] movement of articulators for
nonspeech movements such as feeding
and nonspeech functions
b] poor on repetitive tasks (DDK)
c] dominated by primitive reflexes
d] controversy between vegetative and
speech skills
Specific errors of speech
system
Respiratory errors:
Cortical respiratory errors (BS nuclei
 poor speech breathing dynamics
poor aerodynamics (subglottal pressure,
intraoral pressure, mean airflow rate
etc)-aeroview-instumental
poor respiratory reservoir-spirometer-
vital capacity
poor rhythm of respiration
interrupted respiration (stridors, spasms
etc)
Pathological patterns (reverse
breathing/paradoxical breathing, belly
breathing/ diaphragmatic breathing,
clavicular)
 Poor physiology of breathing
(inspiratory expiratory cycles-volume,
time, frequency, quality etc).
In normal infants – quiet breathing-
nasal. Predominantly abdominal –
thoracic by 6-7 years of age. Inspiratory
expiratory cycle: 1:1 to 1:6 –nasal
symmetrical to oral asymmetrical –
required for development of
vocalization and speech
 In CP, regression or delay in the development
of respiratory cycles

Infantile breathing pattern- shallow or
irregular respiratory cycles, increased
frequency, diaphragmatic or abdominal

Pathological breathing pattern- due to spasms
in the vocal folds or posterior tongue or
velopharynx or trunk dystonia, palsy in
thoracic muscles, improper standing and
sitting postures or prolonged use of chest and
stomach bands in some children etc
 All these will have implication on
phonation pattern
Eg. Delay in acquisition of oral
asymmetrical breathing pattern –
difficulty in initiating phonation
voluntarily
Shallow breathing pattern - only 1 or 2
syllables per breath
Spasms- inspiratory voice quality, forced
voice, interrupted voicing, laryngeal
stridor, sudden arrest of phonation,
uncontrolled loudness, asynchrony of
respiratory and laryngeal movements
 Laryngeal errors
Poor pitch control (high pitch, low pitch,
fluctuating pitch etc)
Poor loudness control (weak voice,
abrupt changes in loudness)
Poor quality (breathiness, spasms-
adductor, abductor, monotonous,
forced and throaty, tremulous,
uncontrolled variations, intermittent
dysphonia, breathy, strained and
stangled etc)
 Flaccid paralysis – breathy voice
Spasms in intrinsic and extrinsic laryngeal
muscles – hoarseness
Adductor spasms – inability to phonate
Abductor spasms –inability to phonate
Variation in laryngeal muscle tension- shifts in
pitch, intensity and quality
Athetoid Spastic Ataxic
Pitch Low High -
Loudne Weak and Weak and -
ss forced forced
Quality Grunty and Breathy, Monotone,
forced hypernas dysprosody
al
Prosody Fluctuating - Abnormal prosody
 Resonance errors
Inconsistent and incoordination in resonance
control
nasal air escape etc
Difficulty in quick alternating movements of
the velopharyngeal mechanism
Closure adequate for back consonants and
high back vowels but inadequate for front
consonant and neutral vowels
Better closure for voiceless consonants (due
to overall pressure built up in the oral cavity)
Dorsiflexed position of head – VPI open.
Ventroflexed position-VPI closed
 Articulation errors
Delayed but like normal in terms of
development of sounds
Specific sound misarticulation are rare,
generally all phonemes affected because of
poor strength, precision of place and
manner control, abnormal timing for
coarticulation
Alternating movements difficult (DDK-AMR
Alternating motion rate /ppp../ and SMR-
sequential motion rate /ptk…/)
Asynchronous in movement
Vowels generally more easy than
consonants
Tongue tip sounds more involved
Voiceless affected more than voiced
 Back consonants difficult compared to
front consonants
Fricatives and glides easier than nasals
but difficult in any position of words
Nasals easy in initial position than final
Stops least difficult in medial but very
difficult in initial and final position
Distortions and omissions more than
additions or substitutions
Errors in spastic and flaccid more
consistent compared to dyskinetics
Temporal measures of sounds often
 Articulatory errors directly proportionate
to the number of articulators involved in
the oral cavity, unilateral or bilateral
involvement and severity of impairment
Articulation more affected as the length
of linguistic elements increase
Discoordination in the movements of
lips, jaw and tongue because of lack of
independent control on these structures
 Primitive oral reflexes such as snout reflex
(orofacial reflex elicited by stimulating
nasolabial furrow; Response: lip protrusion,
wrinkling of nose), biting, sucking, jaw
thrust etc. could interfere with articulation
Focal varieties of dystonia, myoclonus etc
in the oral structures can affect
articulation
Tongue moves as a whole in severe cases
(tongue thrust, drooling and others)
 Prosodic errors
Specific in different types (eg.
Spasmodic in spastic, monotonous in
flaccid, staccato and scanned in ataxia
etc)
Stress, rhythm, intonation, juncture and
pause, hyper and hypofunctional
Slow rate
Inappropriate rhythm
Labored speech production
Spasmodic and broken rhythm and
prosody
 Explosive and jerky
Prolonged and drawling
Reduced stress consonants
Atypical intonation patterns
Monotonous
Inappropriate voice stoppages etc
 Language development
Depending on the type, distribution and
associated problems

Language delay in verbal and nonverbal
CP (use of hand gestures, eye gaze etc.)

Receptive and expressive language
abilities – since there are no standard
scales to test these in CP, can use
general language scales, but make sure
that non performance based items
should only be evaluated
Evaluation of neuromotor disorders in
children
Difficult to identify neuromotor disorders in young
children since the abnormality due to NS insult
appears only later as and when nerve pathways
become more functional.
Usually, in spasticity – 7 to 9 months,
athetosis -