Introduction to Motor Speech Disorders in children PDF

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This presentation provides an introduction to motor speech disorders in children, focusing on their characteristics, causes, and categorization.

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Introduction to Motor Speech
Disorders in children

Niharika M K
Lecturer
JSSISH

05-08-2020
 Motor Speech Disorders

Speech disorders that disturb the natural ability
to speak due to neurologic impairments
These neurologic impairments make it difficult for
individuals with motor speech disorders to
– plan,
– program,
– control,
– coordinate, and
– execute speech productions
 Motor speech disorders - impairments in the systems and
mechanisms - that control the movements necessary for
the production of speech.

They are a group of disorders resulting from disturbances
in muscular control,
weakness,
slowness, or of the speech
mechanism
incoordination

May affect the underlying sub-systems or processes of
speech: Respiration, phonation, resonance, articulation,
and prosody.
Definition

Motor speech disorders (MSDs) can be defined as
speech disorders resulting from neurologic
impairments affecting the motor planning,
programming, neuromuscular control, or execution
of speech.

Major types of MSD: Dysarthria and Apraxia
Prevalence of MSDs in children:

Childhood dysarthria and childhood apraxia: 1 in every
1000 children (USA - 2019)
Among developmental communication disorders, about
5% have MSDs
Categorizing MSDs

Age of onset Congenital
Developmental
Acquired
Course Chronic or stationary
Improving
Progressive or degenerative
Exacerbating-remitting
Site of lesion Cranial nerves, brainstem, cerebellum,
pyramidal, extrapyramidal tract, cereral cortex
Neurologic Degenerative
diagnosis Inflammatory
Toxic-metabolic
Neoplastic
Traumatic
Vascular
Types of MSDs (Darley, Aronson, & Brown,1969, 1975)
CEREBRAL PALSY
 Cerebral Palsy (CP) is - a neurological disorder caused
by - a non-progressive brain injury or malformation - that
occurs while the child’s brain is under development
(before birth, during birth, or immediately after birth).

CP primarily affects body movement and muscle
coordination.

Childhood Dysarthria - when a child with cerebral
palsy has difficulty coordinating the muscles they use for
speaking and the coordination of their breathing as they
talk.
 Non life
threatening

Non-
Permanent
progressive

CP

Not
Incurable communicabl
e

Manageable
 First identified/described: John Little (1843)

Term CP was coined by: Phelps (World War II)

In 1947, group of specialists formed the AACP
(American Academy for Cerebral Palsy) to form
structured programs on diagnosis, treatment,
technological development, perinatal care of cerebral
palsied children
 Definition

Bobaths (1954) viewed cerebral palsy as a sensorimotor
disorder which was not one condition, but a group of
conditions occurring as a result of abnormal brain
development or brain damage.

Abbott (1956) defined CP are disorder of neurological
disability caused by a lesion in the motor centers of the
brain. This brain damage resulted not only in a loss of
functional muscular control but also in sensory
disturbances.
 Perlstein (1961) defines CP as a condition, characterized
by paralysis; weakness; Incoordination or any other
aberration of motor function due to pathology of the
motor control centers of the brain.

Boone (1972) defines CP as a motor dysfunction
secondary to CNS damage to the organism before,
during or shortly after birth.

Lord (1984) defined CP as a non-progressive disorder of
motion and posture due to brain insult or injury occurring
in the period of early brain growth, generally under 3
years of age.
 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 intrauterine 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.
 According to National Trust Act, India (1999), CP refers
to a group of non-progressive conditions of a person
characterised by abnormal motor control and posture
resulting from brain insult or injuries occurring in the pre-
natal, peri-natal or infant period of development.

According to the Surveillance of Cerebral Palsy in
Europe (SCPE, 2000), CP is a group of permanent, but
not unchanging, disorders of movement and/or posture
and of motor function, which are due to a non-
progressive interference, lesion, or abnormality of the
developing brain.
 According to Rosenbaum et al. (2007), CP describes a
group of permanent disorders of the development of
movement and posture, causing activity limitation, that
are attributed to non-progressive disturbances that
occurred in the developing fetal or infant brain.
The motor disorders of CP are often accompanied by
disturbances of sensation, perception, cognition,
communication, and behavior, by epilepsy, and by
secondary musculoskeletal problems.
 Causes of CP

CP etiology is complex

A number of factors may cause damage to the central
nervous system (CNS) at an early stage of its
development

The risk factors fall into the following categories: pre-
conception, concerning the broadly defined health and
living conditions of the mother; prenatal, which are
related to the course of pregnancy; perinatal; as well as
risk factors in the neonatal and infant period
Pre-conception

Mothers systemic diseases (high blood pressure, diabetes)
Drugs and stimulants used
Malnutrition
Poisoning
Infections
Immune system disorders preceding pregnancy
Physical and chemical factors
Infertility
Abortions
Socio economic status
Pre natal

Vaginal bleeding
Abnormalities of the placenta
Multiple pregnancy
Systemic disease during pregnancy
Abnormal pulse of the fetus
Intrauterine infections
Intrauterine suppression of development
Intrauterine hypoxia
Premature rupture of membranes
Assisted reproductive technology (in vitro fertilization)
Peri natal

Premature birth
Vacuum assisted delivery
Forceps delivery
Delivery after due date
Prolonged labor
Asphyxia
Aspiration syndrome
CNS insults (hydrocephaly, microcephaly)
Neonatal and infant period

Respiratory distress syndrome
Artificial respiratory support
Infections (meningitis)
Hyperbilirubinemia
Hypoglycaemia
Hypothyroxianemia
Intracranial hemorrhages
Neonatal convulsions
 Associated problems

Children with cerebral palsy generally have a number of
medical conditions associated with the disorder

Primary conditions – These are a direct result of the brain
lesion or brain malformation.

Primary conditions affect motor coordination, motor control,
muscle tone, posture and balance.
Gross motor, fine motor, and oral motor functioning are also
considered primary conditions of Cerebral Palsy.
 Secondary conditions – Primary conditions, in turn,
may lead to secondary conditions such as inability to
chew, inability to swallow, breathing difficulties, bladder
and bowel control issues, and communication difficulties.

If the brain lesion or malformation that caused Cerebral
Palsy did not exist, these secondary conditions would not
be present.
 Associative conditions – Research has shown that
individuals with Cerebral Palsy often have associative
conditions not caused by the same brain injury or
malformation which caused Cerebral Palsy, but proven to
be common with individuals who have Cerebral Palsy.

If the brain injury or malformation that caused the
Cerebral Palsy did not occur, these conditions may still
be present in the individual.

Associative conditions include intellectual impairment,
epileptic seizures, hearing impairment, and vision
impairment.
 Co-mitigating factors – An individual may also have
health conditions separate from Cerebral Palsy.

Unlike associative conditions, researchers have not
concluded that these conditions have a high correlation
to Cerebral Palsy.
Co-mitigating factors exist regardless of Cerebral Palsy.
Examples of co-mitigating conditions of Cerebral Palsy
include autism, attention deficit hyperactivity disorder,
and asthma.
Physical and Mobility Issues

Physical and mobility issues are synonymous with
cerebral palsy.
The issues can range from mild spastic movements to
more severe issues such as being unable to walk without
assistance or needing a wheelchair to get around.
Physical and mobility issues also depend on the type of
cerebral palsy the child has, such as spastic, athetoid,
ataxic, etc.
Gross motor and fine motor skills may be affected

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Seizures

Seizures are common among children with cerebral
palsy because CP is caused by a brain injury occurring
before, during or shortly after birth.
Brain injuries increase the chance for abnormal nerve
activity to occur within the brain, which can result
in seizures.
According to the Centers for
Disease Control and
Prevention (CDC), around
35% of all children with CP
will experience seizures.
There are numerous different types of seizures, such as:
Absence seizures: Children with absence seizures may
stare into space and have small and subtle body
movements, such as eye blinking and lip-smacking.
Atonic seizures: Children with atonic seizures have a
temporary loss of muscle control and may collapse onto
the floor without warning.
Clonic seizures: Clonic seizures are marked by jerking
muscle movement in the arms, face, and neck.
Myoclonic seizures: Children with myoclonic seizures will
have temporary jerking in the arms and legs.
Tonic-clonic seizures: Tonic-clonic seizures are the most
severe type of seizures, marked by body shakes, loss of
consciousness, the body stiffening, and in some
instances, loss of bladder control.
Cognitive and Behavioral Issues

Attention deficit hyperactivity disorder (ADHD)
Challenges with behavior
Emotional problems (inability to connect with others
emotionally)
Psychological issues
Problems with comprehension and decision-making skills
Memory issues
Learning disabilities
Intellectual disabilities
Communication difficulties

Difficulty in expression and comprehension
May turn non-verbal
Dysarthria
Apraxia of speech
Difficulty in developing gesture and facial expression

Sensory issues

Hyposensitivity or hypersensitivity
Difficulties feeling light touch, pain, pressure on the skin,
temperature, position of the body
Vision Problems

Children with CP are at risk of vision problems such as
Cerebral visual impairment (caused by brain damage),
strabismus (caused by eye issues), and hyperopia (long-
sightedness).

Hearing issues

An estimated 10-20 percent of children with cerebral
palsy have some form of hearing impairment, and five
percent are deaf
Mostly congenital, sensorineural hearing loss
Dysphagia

Children with cerebral palsy are at risk of dysphagia due to
poor muscle and motor function control.

Oral Health Issues

Excessive gagging, problems with drinking and eating,
gingivitis, involuntary cheek and tongue biting, and more
Tooth decay and cavities
Teeth grinding while sleeping
Drooling
Abnormal alignment in the upper teeth and lower teeth
Oro-motor function issues

Oro-motor dysfunction may be seen in 90% of the
children with CP
Difficulty with speaking, swallowing, feeding/chewing,
sucking, blowing
Drooling – inadequate lip seal
Articulatory imprecision
Inadequate intra oral breath pressure
Reduced strength, range and speed of articulatory
movements
Reduced oral sensation
Diminished gag reflex
Digestive Issues

Children with cerebral palsy may have long-term digestive
issues. Common digestive issues include:
Constipation
Incontinence
Issues with swallowing and/or sucking
Unusual weight gain or weight loss
Bladder infections
Vomiting
Unusual fatigue
Aspiration
Respiratory Issues

Difficulties in swallowing, low activity levels, excessive
drooling, blocked airways, and the inability to cough are
among a few of the various reasons that children with
cerebral palsy may experience respiratory issues.
Around 30% of children with cerebral palsy present
respiratory complications
There are numerous respiratory conditions associated with
cerebral palsy, including:
Bronchitis
Pneumonia
Asthma
Aspiration Pneumonia
Chronic lung disease
Sleep Issues and Disorders

Sleep issues are a common occurrence among children with
cerebral palsy, usually due to associated health problems
The most common health issues that contribute to sleep
issues include muscle spasms, pain, drooling, skin ulcers,
epilepsy, and gastrointestinal reflux disorder (GERD)

Skin Conditions

Skin conditions often affect children with cerebral palsy due
to excessive drooling and the inability to wash their hands
and faces correctly, change their bedsheets, and perform
other tasks to stay hygienic
 Classification of CP

The clinical presentation of cerebral palsy is varied.

Children with CP differ clinically in the following
characteristics:
level of motor damage, type/nature of motor disorder,
distribution of motor impairment, etiology,
presence/number of accompanying impairments,
structural brain abnormalities on neuroimaging, degree of
severity of impairments, and individual therapeutic
needs.

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Traditional classifications of CP

– Physiological
– Topographic
– Etiologic
– Neuroanatomic (radiologic)
– Therapeutic
– Functional
Physiologic classification

(1) This is based on the type/nature of motor or movement
disorder (quality and changes in tone) and classifies CP
into two types:
– spastic (pyramidal) and
– non-spastic (extrapyramidal)

Spastic Non-spastic
Tone Increased (hypertonia) Decreased (hypotonia)

Deep tendon Increased Normal or mildly increased
reflexes
Movement Decreased Disordered
(2) Hardy’s classification

Disorders of muscle tone: Hypertonic (spasticity and
rigidity) and hypotonic (flaccidity and atonia)
Disorders of movement: Hyperkinetic and hypokinetic
Disorders of coordination: Ataxia
Topographic classification

Relies on the localization/limb distribution of neuromotor
impairment
It subdivides spastic CP into:
Quadriplegia (symmetric/equal and severe spasticity of all
four limbs),
Diplegia (involvement of the four limbs but greater
spasticity and weakness in the lower limbs)
Hemiplegia (involvement of the upper and lower limbs on
one side of the body)
Tripegia (three-limb spasticity) and
Monoplegia (one-limb spasticity)
Etiologic classification

Based on the actual cause (etiology) and timing of insult
The etiology of CP is multifactorial, and the causal
pathways are (mechanisms) multiple and complex
The risk factors or associated etiological factors in CP
include genetic abnormalities, cerebral dysgenesis,
multiple gestation, intrauterine/congenital infection
(TORCHS), maternal infection, prematurity, low birth
weight, perinatal asphyxia (HIE), bilirubin
encephalopathy, postnatal CNS infections, etc.
These associated etiological factors can be classified
according to the timing of insult as prenatal
(commonest), perinatal and postnatal
Neuroanatomic (neuropathologic) classification

Correlates specific radiologic findings (brain structural
alterations) with types of CP
Neuropathologic classification relies on neuroimaging
studies such as magnetic resonance imaging (MRI) and
computed tomography scan (CT scan)
Abnormal radiological findings and diagnoses can be
classified into five categories namely: malformations,
gray matter damage, white matter damage,
ventriculomegaly, atrophy or CSF space abnormalities
and miscellaneous findings.
Therapeutic classification

Based on treatment needs

Four types
– Non-treatment,
– Modest treatment,
– Need for a CP treatment team, and
– Pervasive support groups
Functional capacity

Functionally, CP is classified into levels of severity based
on functional (motor) abilities and/or limitation of activity

Class I – no limitation of capacity practically
Class II – mild to moderate limitation
Class III – moderate to severe limitation
Class IV – no capacity
Clinical classifications of CP

Balf and Ingram (1955)
Hagberg et al. (1976)
SCPE (Surveillance of Cerebral Palsy in Europe), 2000
 Dysarthria

Childhood Dysarthria is a motor speech disorder in which
the muscles that are used to produce speech are
damaged, paralyzed, or weakened.

Dys – impaired or dysfunctional
Arthr – joint or vocal articulation

The area of the nervous system that is affected determines
the type of the dysarthria and how seriously it affects the
speech.

Can be congenital, developmental,or acquired
 As a child grows and and begins to talk, dysthraria may
become more noticeable via slurred speech and an
abnormal speaking pattern
Their speech can range from talking too fast or talking
extremely slow
Because of the damage to the mouth and facial muscles,
children with dysarthia will have limited movement of the
jaw, tongue, and lips
In addition, they may also have swallowing and feeding
problems, as well as excessive drooling and saliva
buildup
Most common cause – CP
CP is not only the cause of dysarthria in childhood
Definition

According to Darley, Aronsen and Brown (1969)
Dysarthria is collective name for a group of speech
disorders, resulting from disturbances in muscular
control over the speech mechanism due to damage of
the central/ peripheral nervous system.
It designates problems in oral communication due to
paralysis, weakness/ Incoordination of the speech
musculature
 Duffy (2005) defined dysarthria as
a collective name for a group of neurologic speech
disorder resulting from abnormalities in the strength,
speed, range, steadiness, tone or accuracy of
movements required for control of the respiratory,
phonatory, resonatory, articulatory and prosodic aspect
of speech production.
The responsible pathophysiologic disturbances are due
to central or peripheral nervous system abnormalities
and most often reflect weakness, spaticity,
incoordination, involuntary movements or excessive or
reduced or variable muscle tone.
 Childhood Dysathria can be classified based on several
factors such as
– Age of onset
– Etiology
– Site of lesion
– Underlying neurological conditions
– Clinical features
Age of onset:

Childhood dysarthrias are broadly classified as
Congenital or developmental
Acquired

Congenital: These are associated with diseases present at
birth and are therefore also labeled developmental
dysarthrias. Examples of this type include those seen with
CP, Moebius syndrome
Acquired: result from some disease or event (traumatic
brain injury, CVA, tumor etc) with an onset during the
paediatric period (0 – 15 years of age) but usually
following a period of normal speech and language
development.
Etiology

Dworkin and Hartman, 1988, used the classification system for
adult neurogenic communication disorders to classify the
causes of childhood dysarthria. It includes eight categories.
– Vascular accidents
– Infectious process
– Traumatic insults
– Allergic or anoxic conditions
– Metabolic disorders
– Idiopathic disorders
– Neoplasms
– Degenerating and demyelinating diseases
These 8 categories is commonly known by the mnemonic
VITAMIN D.
 Vascular accidents: Cerebro vascular accidents (CVA) or
strokes will disrupt the normal blood flow within the brain
by rupturing the blood vessels.This leads to the
intracranial bleeding to the surrounding areas. This may
damage those areas that are undernourished as a result
of this. This prolonged ischemia causes infarction in
which the affected areas of the brain die and replaced
with scar tissue.

Infectious process: Infectious organisms which enters to
the brain with the help of the circulatory system through
the fractures of the cranial and facial bones. Eg.
Meningitis, encephalitis, and poliomyelitis etc
 Traumatic insults: Head injuries result in diffuse
neuropathologic changes including shearing, swelling
and hemorrhaging of brain tissue. The pathophysiologic
and neuropsychologic effects are usually dependent
upon the areas of the brain that are damaged.

Allergic or anoxic conditions: Negative reactions to
allergens that may invade the nervous system may
cause temporary or permanent neurologic disturbances.
Anoxia, in which oxygen supply to the brain is disrupted
for a period of time will also cause neurological
disturbance.
 Metabolic disorders: Abnormal metabolism of the nervous
system can cause pathologic effects such as intracranial
hypertension, brain tissue degeneration, and disturbances
in the transmission and uptake of neurotransmitter
substances. A major source of such adverse metabolic
reactions is dysfunction of one or more endocrine glands.

Idiopathic disorders: If the neurological signs and
symptoms presented by the patient cannot be attributed to
the an apparent cause their origin may be labeled
idiopathic. However the identity of the actual etiology often
unfolds over the course of time and with further diagnostic
study.
 Neoplasms: Any type of abnormal growth such as tumor,
cyst, or vascular malformation is considered a neoplasm.
When this occur within the nervous system they may
interfere with normal blood flow dynamics, and they can
cause increased intracranial pressure by blocking the
circulation of the CSF within the ventricular system. These
effects may result in widespread neuropathologic changes
including those under vascular lesions.

Degenerating and demyelinating diseases: these include
cerebral palsy, Huntingtons disease, muscular dystrophies
etc.
Site of lesion

Espir and Rose, 1983 have presented a site of lesion
classification for the childhood dysarthria that is based on
classic sites of lesion presented in clinical literature of
neurology.

Five major sites are included

– Muscle
– Lower motor neuron
– Upper motor neuron
– Extrapyramidal
– Cerebellar
Clinical features

At present the most useful clinical classification for
childhood dysarthria is Spastic, Dyskinetic, Ataxic,
Flaccid, Mixed

Classification system by Darley, Aronson and
Brown(1975) classified dysarthria into 6 subtypes:
Flaccid, Spastic, Ataxic, Hypokinetic, hyperkinetic, Mixed
Darley, Aronson, & Brown (1969, 1975)
 General characteristics of Childhood dysarthria

Feeding problems
Oro motor impairments
Sensory deficits
Delayed speech and language development
Slurred and effortful speech
 SYNDROMES LEADING TO
DYSARTHRIA

Juvenile progressive bulbar palsy
Congenital supranuclear palsy
Guillain-Barre syndrome
Worster-drought syndrome
Duchenne Muscular dystrophy

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 Juvenile progressive bulbar palsy

Also called as Fazio-Londe Disease
Disorder of the cranial nerve motor neurons (brain stem)
and anterior horn cells (spinal cord)
Usually considered a rare motor neuron disease limited to
the bulbar muscles (Muscles of the mouth and throat
responsible for speech and swallowing)
Progressive paralysis of muscles innervated by cranial
nerves
All of the lower cranial nerve nuclei maybe affected in
juvenile progressive bulbar palsy, but the ocular motor
nerve is spared
The first symptoms depend on which region in the nervous
system is affected

Commonly, the first abnormality is in the hands, where the
patient may be conscious of weakness, stiffness of
movements of the fingers or may experience fascicular
twitching

When degeneration begins in the bulbar motor nuclei, the
first symptom noticed is usually Dysarthria or Dysphagia
Initial symptoms include
Facial paralysis
Dysphagia
Flaccid dysarthria

Signs
Progressive weakness of tongue, face and pharyngeal
muscles
Progressive hypernasality (initially)
Later stage – dysphagia
Facial and tongue weakness
Bulbar atrophy is sometimes severe but often is not
present
Fasciculations are not always observed
 Onset of first symptom has been reported between 1–12 years,
with a mean age of onset at 8 years

Clinical course can be divided into early (< 6 yrs age,
predominance of respiratory symptoms) and late course (6–20
years of age, predominance of motor symptoms on superior
limbs)

Progression to involve other cranial nerve muscles occurs over
a period of months or years

Course of the disease is fluctuating, but the dysarthria is
typically flaccid (Lowery & Miller, 1983)

The disease may progress to patient's death in a period as
short as 9 months or may have a slow evolution or may show
plateaus
 Congenital supranuclear palsy

Steele-Richardson-Olszewski syndrome

Progressive supranuclear palsy

Supranuclear: Located above the level of the motor
neurons of the spinal or cranial nerves. Used to indicate
disorders of movement caused by destruction or functional
impairment of brain structures, such as the motor cortex,
pyramidal tract, or corpus striatum.

Degenerative disease involving the gradual deterioration
and death of specific volumes of the brain
 Deterioration of cells in the brainstem, cerebral cortex,
cerebellum and basal ganglia — a cluster of cells deep
within your brain — is what causes the coordination and
movement issues of progressive supranuclear palsy.
 First symptom: impairs voluntary eye movements
(difficulty looking up or down)
Movements are slowed, muscles become rigid
Difficulty to control gait and balance

PSP gets progressively worse but is not itself directly life-
threatening
It predisposes patients to serious complications such as
pneumonia secondary to difficulty in swallowing
(dysphagia)
The most common complications are choking and
pneumonia, head injury, and fractures caused by falls
 Guillain-Barre Syndrome

Disorder of peripheral and cranial nerve axons
Described as an idiopathic demyelinating polyneuropathy
The cell bodies in the spinal cord and the brain stem are
the anatomic sites for maintaining the variability of the
axons of the spinal nerves and the cranial nerves.
In this condition the lesion will be in the peripheral and
the cranial nerve axons.
In GBS, the body’s immune system begins to attack the
body itself, causing what is known as autoimmune
disease.
 The nerves in your peripheral nervous system connect
your brain to the rest of your body and transmit signals to
your muscles.

The muscles won’t be able to respond to signals they
receive from your brain if these nerves are damaged.

The first symptom is usually a tingling sensation in your
toes, feet, and legs. The tingling spreads upward to your
arms and fingers.

Both children and adults are affected; but onset is
usually in adulthood. Peak incidence in children occurs
between 4 and 10 years.
Characteristics – specific pattern manifestation

Diffuse lower motor unit paralysis
Either rapid/gradual in onset
Sensory loss may be less severe than motor weakness
Bilateral paralysis of the facial nerve (VII)
Dysphagia with particular involvement of cranial nerve IX
and X
Respiratory function may be impaired because of weak
breathing muscles
General prognosis is good with 65% of the patients
recovering completely; the rest shows persistent weakness
and atrophy of the feet and leg muscles
More serious conditions may be life-threatening
 Worster-drought syndrome

Also called the bilateral perisylvian or opercular
syndrome or congenital suprabulbar paresis

Worster-Drought syndrome (WDS) is a type of cerebral
palsy (movement disorder) that affects the muscles
around the mouth and throat (perisylvian region or
operculum)

It is caused by inadequate development of
the corticobulbar tracts

This abnormality appears to occur in the 12 to 16 week
period of pregnancy.
Main symptoms

Drooling
Excessive salivation
Swallowing difficulties
Increased reflexes
Speech impairment – severe dysarthria
Mild spastic diplegia is common
Epilepsy
Cognitive and behavioral impairment
 Duchenne Muscular dystrophy

Disorders of muscles
Dystrophies are hereditary myopathies characterized by
progressive muscle degeneration and weakness
Most common and most severe type
It is also called as Pseudohypertrophic muscular dystrophy
Onset is between 2 and 5 years; affects boys almost
exclusively and progresses rapidly
It was reported that there individuals lack the protein
dystrophin – which helps to trigger muscular contraction;
and this absence results in a series of events in the muscle
cells leading to their destructions and loss of muscle
strength.
Characteristics

Muscle weakness starting in the muscle of the pelvis; and
trunk and progressing to involvement of all striated muscles
including those used for speech
Enlargement of the calf muscle as well as other muscle
groups
Infiltrations of fat and connective tissue replaces muscle
fibres and gives the illusion of increased muscle bulk called
Pseudohypertrophy
Delayed independent walking and an awkward and often
tiptoe gait
 Flaccid dysarthria (during last stages)
Articulation disorder is usually mild – errors in one or
two phonemes
Labial phonemes are produced more correctly than
tongue – lip reduced oral breath pressure and vocal
intensity.
Inability to sustain phonation
Strength of the tongue and rate of tongue movement are
poor; pointing and narrowing of tongue is often limited;
and pursing and retraction of lips is difficult.
As disease progresses – respiratory, laryngeal and
pharyngeal muscles weakens.
To conclude…

Cerebral palsy is a neurological syndrome and refers to a
combination of signs and symptoms; it is not a disease.

It encompasses a group of non-progressive, but often
changing, motor impairment syndromes secondary to
lesions or anomalies of the brain, arising in the early
stages of its development.

A number of symptoms and signs are common to both CP
and neurodegenerative/metabolic disorders, particularly in
infancy and early childhood. All children with features of
CP should be carefully evaluated for an underlying cause.