Sensory Examination
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Examination of the
Sensory System
In association with
Dr David Smith
Consultant Neurologist
Walton Centre for Neurology
and Neurosurgery
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK1
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK
Sensory System
In association with
Dr David Smith
Consultant Neurologist
Walton Centre for Neurology
and Neurosurgery
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK1
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK
The sensory system 1
Sensory information, detected at peripheral
receptors, travels via peripheral nerves,
nerve roots, spinal cord, brainstem and
thalamus to sensory cortex
Painand Temperaturesensation
carried by small unmyelinated fibres
Vibrationand Proprioception(joint
position)
carried by large myelinated fibres
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK2
Sensory information, detected at peripheral
receptors, travels via peripheral nerves,
nerve roots, spinal cord, brainstem and
thalamus to sensory cortex
Painand Temperaturesensation
carried by small unmyelinated fibres
Vibrationand Proprioception(joint
position)
carried by large myelinated fibres
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK2
The sensory system 2
Painand Temperaturesensation
carried in the spinothalamic tract
decussates (crosses over) immediately in the
spinal cord
Vibrationand Proprioception(joint
position)
are carried in the dorsal columns
Ascend on the same side of spinal cord
cross over in the brain stem
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK3
Painand Temperaturesensation
carried in the spinothalamic tract
decussates (crosses over) immediately in the
spinal cord
Vibrationand Proprioception(joint
position)
are carried in the dorsal columns
Ascend on the same side of spinal cord
cross over in the brain stem
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK3
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK4
Spinal cord section
Posterior column
ipsilateral (crosses at
medulla)
proprioception
vibration
Spinothalamic tract
contralateral (crosses at
spinal level)
pain
light touch
temperature
•Motor supply
Anterior corticospinal
Lateral corticospinal
Spinal cord section
Posterior column
ipsilateral (crosses at
medulla)
proprioception
vibration
Spinothalamic tract
contralateral (crosses at
spinal level)
pain
light touch
temperature
•Motor supply
Anterior corticospinal
Lateral corticospinal
Normal sensory examination
Normal sensation allows a patient to detect
pain(pinprick) and temperature
in whichever area is tested,
vibration
at tips of fingers and toes
joint position (i.e. small amplitude movements )
at distal joints
In order to identify abnormality, it is important to
know what normal means
In someone with no sensory symptoms, it is not
essential to examine the sensory system
10/13/2011 5
© Clinical Skills Resource Centre, University of Liverpool, UK
Normal sensation allows a patient to detect
pain(pinprick) and temperature
in whichever area is tested,
vibration
at tips of fingers and toes
joint position (i.e. small amplitude movements )
at distal joints
In order to identify abnormality, it is important to
know what normal means
In someone with no sensory symptoms, it is not
essential to examine the sensory system
10/13/2011 5
© Clinical Skills Resource Centre, University of Liverpool, UK
sensory pathway
Peripheral receptor
peripheral nerves
nerve roots
spinal cord
thalamus
sensory cortex
Localisation of problems can be determined by knowledge of area of
skin supplied by peripheral nerves, sensory dermatomes, decussation of
spinothalamic tract and dorsal columns
10/13/2011 6
© Clinical Skills Resource Centre, University of Liverpool, UK
Peripheral receptor
peripheral nerves
nerve roots
spinal cord
thalamus
sensory cortex
Localisation of problems can be determined by knowledge of area of
skin supplied by peripheral nerves, sensory dermatomes, decussation of
spinothalamic tract and dorsal columns
10/13/2011 6
© Clinical Skills Resource Centre, University of Liverpool, UK
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK7
Dermatomes of the upper limb
C7
C3
C4
C5
C6
C8
T1
T2
C5
C6
Dermatomes of the upper limb
C7
C3
C4
C5
C6
C8
T1
T2
C5
C6
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK8
Dermatomes of the lower limb
S4
S5L1
L2
L3
L4
L5
S1
S2
S3
A dermatome is an
area of skin supplied
by a single spinal
nerve for the
modalities of
sensation.A
knowledge of the
dermatomes can
help to localise
problems involving
the spinal cord or
nerves
Dermatomes of the lower limb
S4
S5L1
L2
L3
L4
L5
S1
S2
S3
A dermatome is an
area of skin supplied
by a single spinal
nerve for the
modalities of
sensation.A
knowledge of the
dermatomes can
help to localise
problems involving
the spinal cord or
nerves
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK9
Dermatomes of the trunk
C2
C3
C4
T2
T5
T10
V1
V2
V3
Dermatomes of the trunk
C2
C3
C4
T2
T5
T10
V1
V2
V3
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK10
Testing light touch
Use a wisp of Cotton wool
or a fine paint brush
Ask the patient to respond
when stimulus is detected
Dab the skin and then
withdraw the stimulus -
do not drag the cotton
wool across the skin
Compare one side with the
other
Testing light touch
Use a wisp of Cotton wool
or a fine paint brush
Ask the patient to respond
when stimulus is detected
Dab the skin and then
withdraw the stimulus -
do not drag the cotton
wool across the skin
Compare one side with the
other
Pain (superficial)
Use a disposable neurotip, pin or
unfolded paper clip
Do NOT use a hypodermic needle
Always dispose of “sharp” safely
Explain and show the touching
with “sharp” and “blunt” on an
unaffected area
Test by randomly using sharp and
blunt (negative stimulus) noting
patient‟s response in each
dermatome (always try to apply
same pressure)
Start distally and move proximally
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK11
Use a disposable neurotip, pin or
unfolded paper clip
Do NOT use a hypodermic needle
Always dispose of “sharp” safely
Explain and show the touching
with “sharp” and “blunt” on an
unaffected area
Test by randomly using sharp and
blunt (negative stimulus) noting
patient‟s response in each
dermatome (always try to apply
same pressure)
Start distally and move proximally
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK11
In Clinical Practice
Allow the patient to describe the distribution of
altered sensation
Demonstrate the nature of test sensation in an area
of skin the patient perceives to be normal
Test sensation within the area reported to be
abnormal
Map the extent of altered sensation
Decide if this area makes anatomical sense (relates
to or associated with a spinal, dermatomal or
peripheral /cutaneous nerve pattern of altered
sensation.
10/13/2011 12
© Clinical Skills Resource Centre, University of Liverpool, UK
Allow the patient to describe the distribution of
altered sensation
Demonstrate the nature of test sensation in an area
of skin the patient perceives to be normal
Test sensation within the area reported to be
abnormal
Map the extent of altered sensation
Decide if this area makes anatomical sense (relates
to or associated with a spinal, dermatomal or
peripheral /cutaneous nerve pattern of altered
sensation.
10/13/2011 12
© Clinical Skills Resource Centre, University of Liverpool, UK
Testing Proprioception1
Hold distal interphalangeal joint
of patient‟s great toe/thumb or
finger between thumb and
index finger of your left hand
Make a small amplitude
movement of the joint using
your right hand to demonstrate
„up‟ and „down‟
Repeat with patient‟s eyes
closed
10/13/2011 13
© Clinical Skills Resource Centre, University of Liverpool, UK
Hold distal interphalangeal joint
of patient‟s great toe/thumb or
finger between thumb and
index finger of your left hand
Make a small amplitude
movement of the joint using
your right hand to demonstrate
„up‟ and „down‟
Repeat with patient‟s eyes
closed
10/13/2011 13
© Clinical Skills Resource Centre, University of Liverpool, UK
Proprioception 2
If patient cannot detect small
amplitude movements, or
makes errors, increase the
amplitude of movement
If patient cannot detect larger
amplitude movements, test
proprioception at a more
proximal joint (see next slide)
10/13/2011 14
© Clinical Skills Resource Centre, University of Liverpool, UK
If patient cannot detect small
amplitude movements, or
makes errors, increase the
amplitude of movement
If patient cannot detect larger
amplitude movements, test
proprioception at a more
proximal joint (see next slide)
10/13/2011 14
© Clinical Skills Resource Centre, University of Liverpool, UK
Proprioception -order of testing
Upper limb
distal interphalangeal
joint
proximal
interphalangeal joint,
metocarpophalangeal
joint
Wrist
Elbow
shoulder
Lower limb –
interphalangeal joint of
the hallux,
metatarsophalangeal
joint,
ankle
knee
hip
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK15
Proprioceptivesense tends to decline with age
Upper limb
distal interphalangeal
joint
proximal
interphalangeal joint,
metocarpophalangeal
joint
Wrist
Elbow
shoulder
Lower limb –
interphalangeal joint of
the hallux,
metatarsophalangeal
joint,
ankle
knee
hip
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK15
Proprioceptivesense tends to decline with age
Testing proprioception 3
(also see coordination)
ask patient to close eyes and stretch
arms, then to touch tip of their nose with
their index finger.
If proprioception is normal this will be done
accurately
With patient standing, feet approx.20cm
apart, and eyes closed, gently push them
on chest.
If proprioception is intact balance is
maintained.
This is a negative Romberg's test
10/13/2011 16
© Clinical Skills Resource Centre, University of Liverpool, UK
(also see coordination)
ask patient to close eyes and stretch
arms, then to touch tip of their nose with
their index finger.
If proprioception is normal this will be done
accurately
With patient standing, feet approx.20cm
apart, and eyes closed, gently push them
on chest.
If proprioception is intact balance is
maintained.
This is a negative Romberg's test
10/13/2011 16
© Clinical Skills Resource Centre, University of Liverpool, UK
Testing vibration sense 1
With a 128 Hz tuning fork create vibration by either
taping it gently against your hand or by pushing the
prongs towards one another
To avoid reducing the vibration hold at the round
thumb rest just under the fork, the flat rest at the
base is held against the patient.
10/13/2011 17
© Clinical Skills Resource Centre, University of Liverpool, UK
Demonstrate on a boney prominence away from the affected area
(forehead or sternum for example)
With a 128 Hz tuning fork create vibration by either
taping it gently against your hand or by pushing the
prongs towards one another
To avoid reducing the vibration hold at the round
thumb rest just under the fork, the flat rest at the
base is held against the patient.
10/13/2011 17
© Clinical Skills Resource Centre, University of Liverpool, UK
Demonstrate on a boney prominence away from the affected area
(forehead or sternum for example)
Testing vibration sense 2
Place base of 128 Hz tuning
fork on tip of a finger or toe
Ask patient „Can you feel
that buzzing?‟
If they can not, move
proximally, testing vibration
sense at bony prominences
(hallux, medial malleolus …
clavicle) until the vibration is
detected
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK18
Place base of 128 Hz tuning
fork on tip of a finger or toe
Ask patient „Can you feel
that buzzing?‟
If they can not, move
proximally, testing vibration
sense at bony prominences
(hallux, medial malleolus …
clavicle) until the vibration is
detected
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK18
Patterns of sensory loss
As with motor examination, the pattern of sensory
loss helps to localise a lesion to specific parts of the
nervous system
The initial distinction is whether the lesion is in the
central or peripheral nervous system
A good way of achieving this is to recognise
patterns of sensory loss caused by
spinal cord lesions (central)
peripheral neuropathy (peripheral)
10/13/2011 19
© Clinical Skills Resource Centre, University of Liverpool, UK
As with motor examination, the pattern of sensory
loss helps to localise a lesion to specific parts of the
nervous system
The initial distinction is whether the lesion is in the
central or peripheral nervous system
A good way of achieving this is to recognise
patterns of sensory loss caused by
spinal cord lesions (central)
peripheral neuropathy (peripheral)
10/13/2011 19
© Clinical Skills Resource Centre, University of Liverpool, UK
Spinal Cord Lesion
Sensation is lost or altered below the level of
the lesion
this is called a sensory level
The extent of the lesion determines whether
the loss of sensation is uni-or bi-lateral
Familiarity with cross-sections of the cord and
sites of where the main tracts decussate
(cross over) will enable you to understand
the detail of the pattern of sensory loss.
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK20
Sensation is lost or altered below the level of
the lesion
this is called a sensory level
The extent of the lesion determines whether
the loss of sensation is uni-or bi-lateral
Familiarity with cross-sections of the cord and
sites of where the main tracts decussate
(cross over) will enable you to understand
the detail of the pattern of sensory loss.
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK20
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK21
Spinal cord section
Posterior (dorsal)
column ipsilateral
(crosses at medulla)
proprioception
vibration
Spinothalamic tract
contralateral (crosses at
spinal level)
pain
light touch
temperature
•Motor supply
Anterior corticospinal
Lateral corticospinal
Spinal cord section
Posterior (dorsal)
column ipsilateral
(crosses at medulla)
proprioception
vibration
Spinothalamic tract
contralateral (crosses at
spinal level)
pain
light touch
temperature
•Motor supply
Anterior corticospinal
Lateral corticospinal
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK22
Patterns of sensory loss
Complete transverse lesion of the cord
Right
Loss of proprioception
Loss of vibration
Loss of temperature
Loss of pain
Loss of light touch
Left
Loss of proprioception
Loss of vibration
Loss of temperature
Loss of pain
Loss of light touch
Patterns of sensory loss
Complete transverse lesion of the cord
Right
Loss of proprioception
Loss of vibration
Loss of temperature
Loss of pain
Loss of light touch
Left
Loss of proprioception
Loss of vibration
Loss of temperature
Loss of pain
Loss of light touch
Peripheral Neuropathy
Loss, or altered, sensation starts at the end
of the longest nerves; i.e. in the toes and
spreads proximally
The fingers are affected after the toes/feet
This produces a “glove and stocking” pattern
of sensory loss
The type of nerve fibre affected (myelinated,
unmyelinated or both) determines which
modalities are lost.
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK23
Loss, or altered, sensation starts at the end
of the longest nerves; i.e. in the toes and
spreads proximally
The fingers are affected after the toes/feet
This produces a “glove and stocking” pattern
of sensory loss
The type of nerve fibre affected (myelinated,
unmyelinated or both) determines which
modalities are lost.
10/13/2011 © Clinical Skills Resource Centre, University of Liverpool, UK23
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