Neurological assessment (3) (1).ppsx

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Assessment of Neurological functions

Prepared
By
Samah El Garhy Masry
Assist. Prof. Medical Surgical Nursing
 Assessment of Neurologic function
Out lines:
Structures and functions of the central and peripheral nervous

systems.
The functioning of the sympathetic and parasympathetic

nervous system.
Protective structure

Cerebral Circulation

Functions of nervous system

The neurologic examination

Diagnostic tests of nervous system

Nervous System Changes old age
Introduction

The nervous system directs the complex

processes of the body's internal environment

and also provides a link to the external world.

This allows us to respond to changes both from

internal sources as well as form external
Introduction

The nervous system is broken down into two
major parts: the central nervous system, which
includes the brain and spinal cord, and the
peripheral nervous system, which includes all
nerves, which carry impulses to and from the
brain and spinal cord.
 Overview of Anatomy

Central Nervous System
–Brain

–Spinal cord
Peripheral Nervous System
–12 pairs of cranial nerves
–Spinal and peripheral nerves
 Four Regions of Brain
1. Diencephalon: regulates consciousness
2. Brainstem: connects the upper part of the brain with
the spinal cord, consist of (pons, medulla, midbrain)
3. Cerebellum: gait and coordination
4. Cerebrum: thinking and higher functions
Central Nervous System
 Brain components
1.Brain stem
Medulla Oblongata
The medulla oblongata is located just above the spinal cord. This part of the
brain is responsible for several vital autonomic centers including:
The respiratory center, which regulates breathing.

The cardiac center that regulates the rate and force of the heartbeat.
The vasomotor center, which regulates the contraction of smooth muscle
in the blood vessel, thus controlling blood pressure.
The medulla also controls other reflex actions including vomiting, sneezing,
coughing and swallowing.
Midbrain
The midbrain extends from the pons to the
diencephalons. The midbrain acts as a relay center
for certain head and eye reflexes in response to
visual stimuli. The midbrain is also a major relay
center for auditory information
2. The Diencephalon
The diencephalon is made up of four main components: the
thalamus, the subthalamus, the hypothalamus, and the
epithalamus.
Thalamus
The thalamus is responsible for "sorting out" sensory impulses
and directing them to a particular area of the brain. Nearly all
sensory impulses travel through the thalamus.
Hypothalamus
The hypothalamus is the great controller of body regulation and plays an important role
in the connection between mind and body, where it serves as the primary link between
the nervous and endocrine systems. The hypothalamus produces hormones that regulate
the secretion of specific hormones from the pituitary. The hypothalamus also maintains
water balance, appetite, sexual behavior, and some emotions, including fear, pleasure
and pain.
3. Cerebellum

The functions of the cerebellum include the coordination of
voluntary muscles, the maintenance of balance when standing,
walking and sitting, and the maintenance of muscle tone
ensuring that the body can adapt to changes in position quickly.
4. Cerebrum
The cerebrum is composed of two hemispheres
(right and left hemispheres)
The cerebral hemispheres are divided into pairs of
frontal, parietal, temporal and occipital lobes.

Frontal –personality, behavior, emotions,
intellectual function

Parietal -primary Centre for sensation
Occipital–Primary visual receptor Centre
Temporal–Primary auditory reception Centre
Meninges
They are fibrous connective tissue that
covers the brain and the spinal cord to
provide protection, support, and
nourishment. Because the brain and
spinal cord are vital organs they are
protected by three meningeal layers.
 Central Nervous System

Spinal Cord

The spinal cord and brain stem from a continuous structure

extending from the cerebral hemispheres and serving as a

connecting link between the brain and the periphery.

Approximately 45 cm long and about the thickness of a finger
 Central Nervous System

Spinal Cord
The vertebral column surrounds and
protects the spinal cord and consists of 7
cervical, 12 thoracic, 5 lumbers as well as
5 sacral, and 1 coccygeal.
The spinal cord is an H shaped with nerve
cell bodies (gray matter) surrounded by
ascending and descending tracts (white
matter).
 Central Nervous System

Cerebrospinal Fluid

The cerebrospinal fluid is a clear liquid that circulates in and

around the brain and spinal cord. Its function is to cushion

the brain and spinal cord, carry nutrients to the cells and

remove waste products from these tissues.
 The peripheral Central Nervous System

The peripheral nervous system includes

the cranial nerves,

the spinal nerves, and autonomic nervous system
Cranial nerves
There are 12 pairs of cranial nerves that emerge from the lower
surface of the brain and pass through the foramina in the skull.
Three are entirely sensory (I,II,VIII), five are motor (III,IV,VI, XI,
and XII), and four are mixed (V, VII,IX, and X) as they have both
sensory and motor functions. The cranial nerves are numbered in
the order in which they are arise from the brain.
 Cranial Nerves
There are 12 pairs that emerge from the lower
surface of the brain and pass through the foramina
in the skull
Cranial nerve I: olfactory

Cranial nerve II: optic

Sensory
Cranial nerve VIII: acoustic

Cranial nerve III: oculomotor

Cranial nerve IV: trochlear

Cranial nerve VI: abducens
Trochlear nerve innervates a single muscle: the
Motor
superior oblique
Cranial nerve XI: spinal accessory
muscle of the eye.
Abducens
Cranial nerve
nerveinnervates the musculus retractor bulbi,
XII: hypoglossal
 Cont.,
Cranial nerve V: Trigeminal
Cranial nerve VII: Facial
Mixed
Cranial nerve IX: glosspharyngeal S.&
M.
Cranial nerve X: Vagus
The cranial nerves are numbered in the order in
which they arise from the brain
E.G.
Cranial nerve I, II attach in the cerebral
hemispheres whereas cranial nerve IX,X,XI,XII
attach at the medulla
Most cranial nerves innervate the head , neck and
special sense structures.
Spinal nerves

The spinal cord has 31 pairs of spinal nerves;
each segment has 1 for each side of the
body. 8 cervical, 12 thoracic, 5 lumbers, 5
sacral, and 1 coccygeal. Spinal nerves attach
to the spinal cord;
the spinal cord; each nerve has an anterior (ventral)
root containing motor fibers and a posterior (dorsal)
root containing sensory fibers
Most peripheral nerves contain both sensory
(afferent) and motor (efferent) fibers
Spinal cord contains both gray and white matter
 Autonomic Nervous System

 The autonomic nervous system controls specific body

processes, such as blood circulation, digestion,

breathing, urination, heartbeat, etc.

 The autonomic nervous system is named so because

it works autonomously, i.e., without a person’s
 Autonomic Nervous System

 There are two major divisions; the sympathetic and

parasympathetic systems, which generally act in

opposition to each other.

 The autonomic nervous system is regulated by

centers in the spinal cord, brain stem, and
 The sympathetic Nervous System
 It is the part of the autonomic nervous system
located near the thoracic and lumbar regions in
the spinal cord. Its primary function is to stimulate
the body’s fight-or-flight response. It does this by
regulating the heart rate, rate of respiration,
pupillary response and more.
 It prepares the body to handle stressful situations.
 Under stress condition from either physical or
 The parasympathetic Nervous System

 It is located in between the spinal cord and the medulla. It primarily

stimulates the body’s “rest and digest” and “feed and breed” responses.

 The parasympathetic nervous system functions as the dominant

controller for most visceral effectors. During quiet, non stressful

conditions.
 Protective structure
The skull:-
The brain is contained in the rigid skull which protects it from
injury. Its major bones are the frontal, temporal, parietal, and the
occipital bones.
The meanings
Cerebrospinal fluid
 Functions of nervous system:

It receives stimuli from internal and external

environmental through afferent sensory pathways.

The peripheral nervous system communicates

information between distant parts of the body and the

central nervous system.
 Functions of nervous system:

It computes and processes the information received to

determine appropriate responses to the situation.

It transmits the information over efferent or motor

pathways for body action.
 Assessment

General Signs & Symptoms

Health History

Physical Examination

Diagnostic measures and laboratory investigation
 Major Considerations in Determining
The Extent of Neurologic Exam
Client`s chief complaints
Client`s physical condition :
level of consciousness
Ability for ambulation to test:

Movements

Coordination of extremities

Client`s willingness to participate &
cooperate
 Assessment
General Signs / Symptoms

Headache or pain Numbness or tingling
Head injury Difficulty swallowing
Dizziness/vertigo Difficulty speaking
Seizures Significant past history
Tremors Environmental/
Weakness occupational hazard
Incoordination
 Past Medical & Surgical History

Medications / allergies
Habits / Lifestyle Changes (alcohol/ drug abuse)
Familial History of neurological disorders
Physical Examination Considerations
Assessing mental status and speech
Level of Consciousness : Assessment Tools
Glasgow Coma Scale (GCS)
 Assessing mental status and speech

A quick check of mental status

To quickly screen a patient for disordered thought

processes, ask the questions below.

An incorrect answer to any question may indicate the need

for a complete
Level of Consciousness : Assessment Tools: Glasgow Coma

Scale (GCS)
Three Categories:
Eye opening

Best motor response

Best verbal response

Scoring
Highest or best possible score 15

13-14 mild neurological deficits

9-12 moderate neurological deficits

A score of < 8 indicates coma and severe neurological neurological

deficits
 Mental Status
Mental status assessment reflects client`s general cerebral
function
It includes :
Intellectual function “ cognitive”

Emotional function “affective”

Major areas of mental status assessment are:
Language

Orientation

Memory

Attention span

calculation
Language

Aphasia is any loss of power to

express them self by speech due to

a disease or injury in cerebral cortex

It can be categorized as:

Sensory or receptive

Motor or expressive
 Sensory or receptive aphasia
It is the loss of ability to comprehend

either written or spoken words
Types of sensory aphasia:

Auditory “ acoustic” …. Patients

losing the ability to understand the
symbolic content associated with
sounds
Visual …. Patients losing the ability

to understand printed or written
 Motor or expressive aphasia
It
involves loss of power to express
them self by:
Writing

Making signs

Speaking

Client`s
have losing the ability to
combine speech sounds into words
 Orientation
The aspect of the
assessment
determine :
Client ability to
recognize other
person.. person
Awareness of when

and where.. time and
place
Who are they Self
 Memory
The nurse assessing recall of information :
Previously within seconds… immediate recall
Events or information early in the day… recent
memory
Knowledge recalled from months, or years… long term

memory
Brain Exercises
 Attention Span and calculation
It determines the

ability to focus on…..
Mental Task
That is expected to be
performed by a
person of...
Normal Intelligence
 Motor Movements & Strength

Evaluate each extremity and compare with opposite side;

record each extremity separately.

Deep Tendon Reflexes (DTR)

Tap appropriate tendon with percussion or reflex hummer

Achilles, quadriceps, brachioradialis, biceps and triceps
 Cranial Nerves
The nurse must be aware of each cranial nerve
functions to detect the abnormalities
Reflexes:
A reflex is an automatic response of the body

stimuli
It involuntary
The quality of reflex response varies
among people and age
The more age , the less response of reflex
will be differ

It is assessed using a percussion hammer
It can be measured by scale starts from 0 - 14
 Reflexes
Biceps  Brachioradialis  Achilles

o Triceps o Patellar  Plantar “ babinski”
Reflexes are graded from 0 to 4+
–4+: Very brisk, hyperactive, with clonus
–3+: Brisker than average; possible by not necessarily indicative of
disease
–2+: Average; normal
–1+: Somewhat diminished; low normal
–0: No response
-Hyperactive reflex indicate CNS disease
-Absent or diminished of reflex indicate loss of sensation, relevant spinal
segment damage, or PN damage
 Sensory Function
It includes:
Touch * Pain
Temperature * Position
Tactile judgment

In case of any complain of:
Numbness

Peculiar sensation *Examiner should check
flexor
Paralysis & extensor surfaces of
the limbs
* Mapping out
clearly any
 Abnormal sensation
Anesthesia… loss of sensation
Hyperesthesia…increase sensation than
normal
Example: increased sound
sensitivity is called: "auditory
hyperesthesia

Hypoesthesia… decrease sensation than
normal
Paresthesia… abnormal sensation as in burn,
 Who has to be checked toward
sensation periodically?
Examples of Risk Groups:
Diabetics….
Arteriosclerotic heart disease….

Rationale … Low sensation may ended by
severe tissue damage
What we should do?
Initial foot screening then annual assessment
Evaluate their feet and shoes at least four times

yearly why?... Prevention and early detection of
foot problems.
 Tactile Discrimination

One & two point discrimination.
Sterognosis is the ability to recognize
object by touching them
Extinction is the failure to perceive touch
on one side of the body when other two
areas are touched symmetrically
 Diagnostic and laboratory investigation
Plain X-ray
a- Skull plain x-ray
Skull plain X- ray reveals:
Fracture of the skull or bony defects.

Size & shape of the skull bone.

Presence of foreign bodies e.g. tumors.

Preparation
Hair pins, dentures, must be removed from

the patient.
 Diagnostic and laboratory investigation

Plain X-ray

b- Spinal X-ray:-
Spinal X- ray reveals:
Spinal fracture lesion.
Comparison.
Dislocation.
Narrowed spinal cord.
 Diagnostic and laboratory investigation

Nursing role
Patient with neurological disorder should be assessed for
level of conscious & treatment with the patient according to
his condition.
If the patient has a suspected spinal fracture; the neck is
immobilized prior to moving the patient to make the X- ray.
Metal items should be removed from the body parts.
 Diagnostic and laboratory investigation

2- Computed Tomography scanning (CT).

Useful to diagnosing disorder of multiply body system as

regard the brain, head injury, Cerebrovascular disorder,

hydrocephalus,
Identification spacing occupying lesions, metastasis tumors
and brain abscess.
 Diagnostic and laboratory investigation

Magnetic Resonance Imaging (MRI)

Non invasive scanning to visualize internal organs & structures

by use of magnetic forces rather then radiation.
 Diagnostic and laboratory investigation

Electroencephalogram (EEG)
Records the electrical activity of the brain through a series
of electrodes on the scalp.
Used to diagnose and evaluate seizures disorders, identify
tumors, brain abscesses or infections and to confirm of
brain death.
 Diagnostic and laboratory investigation

Lumbar puncture

Lumbar puncture is insertion of a needle into lumbar

subarachnoid space to withdrawal cerebro-spinal fluid (CSF)

for diagnostic & therapeutic purposes.
 Nervous System Changes in Old Age

We are born with all the brain neurons--about 100 billion nerve cells that we

will ever have. This network performs communication within the brain

and to the rest of the body. After age 25, everyone loses nerve cells both in

the brain and spinal cord. Gradually over time, this results in a reduced the

ability of nerve transmission, changing response time and coordination. In

addition to, diminished all senses of smell, taste, sight, touch and hearing

over time.
 Nervous System Changes in Old Age

The brain also shrinks in size, which does not significantly

affect functioning except in the most extreme cases. These

changes may also affect sleeping patterns somewhat by

decreasing the length of total sleep time, and causing

depression in more than 25.0% of elderly people.