REVISION LECTURE

Question 1

Brain

1. Frontal lobe
2. parietal
3. temporal
4. Occipital

Answer 1

1. motor cortex
prefrontal association cortex
2. sensory cortex parietal association cortex
3. auditory cortex, wernicke's area 
4. visual cortex

Question 2

stroke

types

Answer 2

sudden onset of a focal neurological deficit due to a presumed local disturbance to the blood supply lasting. more than 24 hours
ischaemic - embolus,, thrombus in blood supply to the brain
Haemorrhagic - ICH - bleeding in the brain
SAH - bleeding in the subarachnoid space - between arachnoid membrane and Pia mater.

Question 3

Stroke signs and symptoms

post stroke deficits

Answer 3

headache, visual disturbance, photophobia, vomiting, cervical stiffness,
LOC
attention, conc, memory issues,
Motor deficitcs, Loss of power, hemiplegia, facial droop.
sensory deficits, neglect, inattention
Spacial problems,
visual disturbance,
visa-spatial issues
cognitive impairment
nutrition continence breathing circulation

Question 4

motor impairment

Answer 4

hemiparesis 
weakness 
paralysis 
loss of voluntary motor control 
spasticity 
increased reflexes

Question 5

weakness after stroke

Answer 5

UL LL BOTH LIMBS
face trunk
ADL 
functional mobility 
weight transfer

Question 6

Hemiparesis after stroke

Answer 6

paralysis that effects one side of the body. R/L hemiplegia depending on which side of the body is affected

Question 7

abnormal tone after stroke

Assess tone?

Answer 7

initial - cerebral shock - low tone - hypotonia
hypertonia- increased tone, spacticity
ash worth scale / modified ashworth scale

use of position charts

Question 8

hemiasthesia

Answer 8

sensory impairments 
where is lesion?  - sensory cortex / thalamus 
assess sensation 
sensory loss - implications for mgmt 
treatment - sensory reeducation

Question 9

BAlance

Answer 9

Loss of balance control
Loss of automatic postural adjustments
Posture - large base of support
\+/- ataxia
Increased risk of falls

Factors for balance impairment

Question 10

attention concentration deficits post stroke

Answer 10

Implications for rehabilitation, and learning skills

Relearning movements

Question 11

Communication

Answer 11

broca’s - motor dusphagia / expressive

Wernicke’s - receptive / sensory dysphagia

aphasia. = motor and sensory dysphagia

reading writing and numeracy affected

Question 12

Swallow problems - dysphagia

Answer 12

- swallow test 
formal SLT ASS first 24 hours 
risk of aspiration pneumonia 
dehydration  / malnutrition 
video fluoroscopy 

mgmt 
swallow technique 
modify food consistency 
positioning - sitting up 
involve carers

Question 13

visual deficits

Answer 13

homonymous hemaniopia
visual field defect
visual inattention

Question 14

visuospatial deficits after stroke 
somatognosia 
anosognia 
unilateral neglect 
right/ left discrimination

Answer 14

damage non-dominant posterior parietal lobe
Somatognosia
Lack of awareness of body structure and failure to recognise one’s parts and their relationship to one another.
Anosognosia
Severe form of neglect - patient fails to recognise paralysis or deficits
Unilateral neglect
Inability to integrate and use perceptions from one side of the body /environment. Ignores one half of body. Bumps into objects.
Right / left discrimination
Inability to understand concepts of right
and left.

Question 15

Apraxia
agnosia
body image
body scheme

Answer 15

Apraxia
Inability to perform skilled movements in the absence of loss of motor power, sensation or co-ordination

Agnosia
Lack of recognition of familiar objects.

Body image
Visual & mental memory image of one’s body.

Body scheme
The position of different parts of the body to each other.

Question 16

Testing for visuospatial deficits

Answer 16

Tests 
Clock drawing
Line Bissection test
Cancellation tasks
Clinical psychology and OT

Implications in rehabilitation
Balance
Transfers
Falls risk
Functional mobility
ADL

Question 17

Common complications post stroke

Answer 17

Seizure
Delirium
Nutrition
Incontinence
Pain - Musculoskeletal pain
Psychological issues
Depression 
Circulation
Deep Vein Thrombus (DVT)
Breathing issuesInfection 
Aspiration pneumonia 
Urinary tract infection (UTI)
Hospital acquired infection
Falls
Pressure Ulcer 
Fractures after falls
Limb oedema, lack of muscle pump activity / dependent positions

Question 18

abnormal tone

Answer 18

high - hypertonia
spasticity
rigidity

low - hypotonia
flaccidity

Question 19

tone define

Answer 19

‘Tone is the resistance offered by muscles to continuous passive stretch’ (Brooks, 1986).
or ‘Clinically [tone] is defined as the resistance that is encountered when a joint of a relaxed person is moved passively’ (Britton, 1998)

Normal tone is a prerequisite for normal movement

Resting level of tension in muscle must be high enough to support against gravity, but low enough to allow movement to occur

Clinically - examiner feels slight resistance when moving a normal limb passively

Question 20

non - neural

factors contributing to tone

Answer 20

Passive stiffness of a joint & surrounding soft-tissue
Inherent visco-elastic properties of the muscle itself
Compliance of muscles, ligaments & joints (usually limiting factor under normal conditions)
Can vary with age, limb temperature, exercise state

Question 21

neural factors contributing to tone

Answer 21

Neural Factors
Active tension set-up by stretch reflex
Activation of the contractile apparatus of the muscle
Can vary with age, emotional state
Output of alpha motor neuron, influenced by excitatory and inhibitory synapses from several systems*

Question 22

factors contributing to tone

- peripheral and CNS

Answer 22

Muscle spindles (tonic component of stretch reflex)
Golgi tendon organ
Somatosensory receptors (skin, joints, connective tissue, muscles)
Sensory systems (visual, auditory, vestibular)
Limbic system (emotional state)
Motor systems
Interneurons in spinal cord
Higher centres via descending tracts

Question 23

neural factors. - stretch reflex

Answer 23

the stretch reflex is the body’s involuntary response to an external stimulus that stretches the muscles

Question 24

Abnormal tone - spasticity

Answer 24

Definition
‘Velocity-dependent increase in the tonic stretch reflexes with exaggerated tendon jerks resulting from hyperexcitability of the stretch reflex’ (Lance, 1980).
OR
‘Velocity-dependent increase in resistance to passive stretch of a muscle, with exaggerated tendon reflexes’ (Lance, 1990).

Descriptives ‘clasp knife’ phenomenon – abrupt cessation in movement (resistance greater at start of movement), followed by ‘a melting away’ of resistance.

Pathophysiological Mechanisms
Abnormal enhancement of spinal stretch reflexes.

Maybe due to:
Increased muscle spindle sensitivity (via gamma-motoneurone drive).
Increased excitability of central synapses involved in reflex arc.
Loss of inhibition of stretch reflex by descending supraspinal pathways .

central - loss of cortical inhibition
imbalance in descending pathways

peripheral - altered biomechnaical properties of muscle
change in visco-elastic and connective tissue properties of muscle

Question 25

Spasticity - causes

Answer 25

UMNL
from motor cortex to spinal motor neurons

common causes: stroke, SC compression, brain damage, inflammatory lions of the spinal cord MS

Question 26

spasticity - clinical features

Answer 26

Characteristic involvement of certain muscle groups – predominantly antigravity muscles e.g. UL flexors, LL extensors.
Increased responsiveness of muscles to stretch.
Hyper-reflexia – increased tendon reflexes.
Abnormal resistance to passive movement – the more rapid a limb is moved the greater the increase in tone.
Clasp knife – ‘catch’ followed by ‘melting’ away of resistance.
Clonus – rhythmic oscillations (usually of ankle & foot).

Question 27

factors influencing spasticity

Answer 27

positioning 
stress 
fatigue 
pain 
full bladder 
infection 
fear 
pressure sore 
constipation 
increased effort

Question 28

Ax spasticity

Answer 28

ash worth scale 
modified ash worth scale 
movement grading 
severe- no mvmt 
moderate - poor mvmt 
mild - good mvmt
assoc reactions 
effort on unaffected side leading to increased tone on spastic side 
involuntary mvmt - yawning 
tendon jerks

Question 29

spasticity -
implications
aims of physio

Answer 29

implications
 Weakness
Decreased movement
Abnormal movement
Poor posture
Soft tissue shortening - contracture
Pain
Loss of function & adaptive motor behaviour

Normalise tone
Maintain normal muscle length
Improve ROM
Decrease pain
Reduce unnecessary complications 
Improve function
Positioning - Abnormal reflex activity	
Supine -  extensor activity
Sitting - symmetry and stability
Passive movement
Movement proximal region of limb
Slow passive movements

Question 30

medical management spasticity

Answer 30

baclofen
GABA derivative, pre and postsynaptic inhibitory effect
diazepam - enhances action of GABA on inhibitory NTS
botulinum toxin - toxin into affected muscle causing presynaptic blockade of Ash release

Question 31

rigidity

Answer 31

increased resistance to passive movement, constant throughout range of movement
in flexors and extensors

lead pipe rigidity - resistance throughout movement
cogwheel rigidity - additional tremor - superimposed rigidity

causes - extrapyramidal lesions - Parkinson’s disease - caused by functional disturbance of the basal ganglia

Question 32

rigidity clinical features

Ax

Answer 32

Increased resistance to relatively slowly imposed passive movements.
Present in both flexor & extensor muscle groups.
Characterised by ‘lead-pipe’ resistance.
Tendon reflexes are normal in contrast to spasticity.
May have superimposed tremor, leading to ‘cogwheel’ rigidity.Scales tend to disease/condition specific e.g. Parkinson’s disease.
Hoehn and Yahr Scale
Universal Parkinson’s Disease rating Scale (UPDRS)

Question 33

rigidity
aims of physio
physio mgmt

Answer 33

Assessment
Normalise tone
Relief of symptoms – stiffness/pain
Review – posture, gait, mobility, transfers
Record functional performance

Regular re-assessment
Normalise tone
Management of stiffness/pain – heat, Neurotech
Educate re posture
Gait, mobility, transfers – re-education
Optimise functional independence

Question 34

medical management for rigidity

Answer 34

Medical Mx - Medications include: levodopa, dopamine agonists, anticholinergics and selegiline.

Question 35

hypotonia

Answer 35

decreased resistance to passive movement

decrease reflexes

Question 36

hypotonia causes

clinical features

Answer 36

causes 
Central cerebral shock - post UMNL
spinal shock 
peripheral nerve lesion 
cerebellar 

Clinical features 
loss of function 
inability to move against gravity 
unable to sustain upright posture 
can't WB ./ TF

Question 37

UL dysfunction

causative factors

Answer 37

Paralysis / Loss of movement post stroke
Muscle weakness
Muscle imbalance
Abnormal tone 
Sensory loss
Altered alignment / biomechanics
Perceptual deficits 
Immobility 
Weakness 
Adaptive soft tissue changes
Dependent limb
Poor handling 
Trauma
Forced ROM
Immobility
Prolonged positioning
Secondary changes
Degeneration

Question 38

Rotator cuff muscles

functions

Answer 38

Supraspinatus: Shoulder abduction
Post stab: Infraspinatus: External rotation of the shoulder
post stab: Teres Minor: External rotation of the shoulder
Ant stab: Subscapularis: Internal rotation of the shoulder

Question 39

scapulohumeral dynamics

Answer 39

The Scapulothoracic articulation contributes to both flexion and abduction of the humerus by upwardly rotating the glenoid fossa 60 from its resting position.

Question 40

consequences of UL dysfunction

Answer 40

Pain (distraction)
Recovery & outcome of rehabilitation
Interferes with rehabilitation
Interferes with transfers
ADL and Independent function 
Depression 
Sleep disturbance

Question 41

Hemiplegic shoulder pain

causes

Answer 41

Common post stroke
May present early or late
Presence of abnormal tone + / - subluxation
Sharp pain at end of ROM
Experience night pain / diffuse

causes 
Loss of co-ordinated joint motion
Abnormal scapulo-humeral rhythm
Inadequate external rotation
Lack of downward glide
Muscle imbalance, abnormal tone

Forced passive ROM
Incorrect handling / trauma

Question 42

subluxation 
mechanism 
causes 
presentation 
diagnosis

Answer 42

Mechanism
Scapula depressed or retracted

Impaired locking mechanism 
Orientation of scapula & glenoid fossa – up, forward, lateral
Slope of fossa - prevents downward subluxation
Reinforced by supraspinatus 
‘Locking mechanism’
Subluxation
Causative factors
Paralysis rotator cuff
Mal-alignment
Abnormal tone
Loss of locking mechanism
Gravity 
Weight of limb
Presentation
\+ / - painful 
Classification of subluxation***
Inferior subluxation 
Superior subluxation
Anterior subluxation

Mal-alignment shoulder & displaced humeral head

Subjective ‘dragging’

Relieved by passive elevation

diagnosis
palpable dip

pt in sitting
palpate along clavicle out from sc joint
check for gap between lateral cordial border and head of humerus
gap = 1-2 fingers - subluxation.

Question 43

shoulder hand syndrome

Answer 43

Stage 1
Tender swollen hand 
Diffuse aching pain
Sensitivity
Discoloration
Warm / moist
Loss of movementStage 2
Marked pain and swelling
Progressive loss of movement
Oedema loss of skin elasticityStage 3
Resolution of pain and oedema
Decreased ROM
Bone demineralisation
Muscle atrophy
Soft tissue changes
Joint contracture
Deformity (flexion)

Question 44

management of semi shoulder dysfunction

Answer 44

Positioning
Handling 
Normalise tone
Education
Normalise alignment
Posture
Facilitate muscle activityPrevent ST shortening
Joint mobilisation
Restore function
Strapping / taping
Supports / slings
FES/NMES
Medication
Constraint induced movement
Robotics

Question 45

supporting UL during TF and mob

Answer 45

sling only used for TF and walking

when in bed or chair remove the sling

Question 46

Pusher syndrome
define
mechanism

Answer 46

The patient leans towards the hemiplegic side in any posture and resists any attempt at passive correction of posture that would move his / her weight towards or across the midline of the body toward the non-affected side’ (Davies, 1985)
Altered perception of body’s orientation in relation to midline / gravity
No correlation with right sided stroke (i.e. L Hemi +/- UN)
Impairment in judging vertical - a change in the perception of midline of their body

Question 47

clinical findings

Answer 47

Patient leans to hemi side
Resists any attempt to correct posture which moves bodyweight to midline / normal side
Apprehensive re leaning over / WB
Unable to accept weight through unaffected side (if able to WB, may WB on medial border of foot with adduction also)
Demonstrates resistance to passive / active movement toward midline / unaffected side
Over-activity unaffected side UL, LL, trunk

Question 48

causes

Answer 48

Damage to sensory pathways
Role of posterolateral thalamus
Disturbed neural representation of truncal graviceptive system
Cortical involvement
Insular, opercular as well as temporal regions are possibly involved in the control of upright body position.
Current research indicates that PS in right-hemispheric lesion patients depends on vestibular otolith input, suggesting a link between the system for postural control and the system responsible for processing vestibular otolith information.
Such close interaction would seem useful for processing in multisensory integration centers at the cortical level. (Baier et al 2011 J Neurol)

Question 49

implications

Answer 49

Balance control (sitting, standing, walking)

Functional mobility

Recovery of ADL

Safety during movement / transfers

Question 50

PS Ass

mgmt

Answer 50

Assessment
Diagnosis made by observation
Asymmetrical posture
Lack of midline sitting
Actively pushes to affected side
Verticality & sense of midline
Right / Left awareness
Visuo-spatial neglect
Attention to physical & perceptual deficits to enable appropriate management

Management
Restore sense of verticality
Facilitate midline awareness
Balance training
Regain ability to move actively towards that side with visual cueing & feedback
Regain ability to move actively about in sitting & standing

Question 51

Physio for PS

Answer 51

Observation based diagnosis.
No reliable measures.
Patient distressed when attempts made to move to normal side.
Preferable to lead patient to move actively to that side.
Balance retraining.
Visual feedback / actively move  midline / normal side.
Positioning.
Sitting - small pillow under affected buttock.
Functional movements.
Mirror therapy

Question 52

hemiplegic gait

Answer 52

Normal gait – what are the characteristics?
Hemiplegic gait
Characteristics that are common after stroke
Assessment approach
Management/Rx
Walking essential independent living / function & ADL

Question 53

ICF

Answer 53

health condition - disorder or disease

body functions and structures
activities
participation

environmental and personal factors

Question 54

Outcome measures

Answer 54

instrument used to test or rate a part of your Ax
make sure its
valid and reliable

Question 55

Falls after stroke

Answer 55

25% 
contributory factors 
cognitive impairment, inattention 
anosognia 
balance co-ordination 
muscle weakness 
sensory loss 
visual disturbance 
BERG 
Falls are difficult to predict 
Assess at individual level: balance, history of falls, perception, what activities they need to do after discharge, risk of consequences
Falls are difficult to prevent 
Focus on patient’s participation goals and undertaking activities safely, consider education to cope with falls, education to rise from the floor and bone health

Question 56

neurological exam

Answer 56

How to conduct a sensory system exam
Light touch
Sharp blunt
Vibration
Sensory inattention
Special sensory tests
Graphaesthesia / stereognosis
How to assess JPS?
How to assess coordination?
How to assess tone?How to assess balance?
Gait exam
How to examine trunk ?
How to assess for subluxation?
How to describe a functional mobility task?
How to facilitate a STS?

Question 57

objective Ax - sensory system

Answer 57

cutaneous sensations
pain
temp light touch pressure

2 point discrimination

prop sensation
vibration joint position sense
movement

integrative sensation
bilateral simultaneous sensory application

Question 58

posterior column medial lemiscal pathway conveys:

Answer 58

Conveys:
Proprioception (awareness of position of muscles, tendons, joints & body movements).
Fine discriminative touch (ability to feel exactly which part of body is being touched).
Stereognosis (ability to recognise by feel the size,shape and texture of an object).
Vibration sense.
Weight discrimination (ability to determine the weight of an object).

DISTAL TO PROXIMAL

Question 59

anterolateral pathways

Answer 59

Including spinothalamic tract (anterior & lateral) and other associated tracts that convey:
Pain
Temperature sense (hot / cold)
Crude touch (poorly localised) touch
Pressure
Tickle
Itch

Question 60

joint position sense

Answer 60

Joint Position Sense
Upper limb
Patients eyes open demonstrate.
Hold distal phalanx DIP joint index finger .
Illustrate bent & straight.
Patient closes eyes & is asked to report if joint is bent or straight.
Test distal joints first.

Lower limb
As above DIP joint, test hallux.

Question 61

tiger order sensation

Answer 61

Higher Order Sensation*
Graphesthesia - ability to recognize writing on the skin purely by the sensation of touch.
Stereognosis/tactile gnosis - ability to perceive & recognise the form of an object using cues from texture, size, spatial properties, and temperature (mediated by the posterior column-medial lemniscus pathway). Stereognosis tests determine whether or not the parietal lobe of the brain is intact.
Sensory inattention /sensory neglect - patient recognises stimuli when presented independently but recognises only one side when stimulus is presented simultaneously. Indicates Parietal lobe lesion.
The above cannot be tested unless primary sensation intact bilaterally.

Question 62

co-ordination

Answer 62

Finger-tip to nose test
Hold finger at arms length in front of patient. Ask patient to touch the finger with index finger then touch their nose. Change speed/position of target.
Repeated movements

Question 63

lower limb coordination

Answer 63

heel to shin
patient in supine
lift leg and place heel on knee
slide heel down along shin

Question 64

trunk co-ord

Answer 64

tandem walking

Question 65

Dysdiadokokenesis

Answer 65

rapid alternating pronation supination

Question 66

objective Ax

tone

Answer 66

Muscle Tone Assessment Procedure
Assessment Steps (position supine lying)
1. OBSERVE Appearance of limb
2. Palpation / Feel muscle
How does it react to stretch PROM – UL, LL, Trunk
3. PROM; Proximal to distal direction for test

Grading Ashworth Scale or Modified Ashworth – next slide

Question 67

ash worth scale

Answer 67

No increase in muscle tone.
Slight increase in muscle tone - manifested by a catch & release or by minimal resistance at the end of the range of movement when the affected part(s) is moved in flexion/extension. 
Slight increase in muscle tone, manifested by a catch followed by minimal resistance through the remainder (less than half) of the range of movement.
More marked increase in tone through most of the range of movement but affected part(s) easily moved.
Considerable increase in muscle tone, passive movement difficult. 
Affected part(s) rigid in flexion or extension.

Question 68

functional mobility

Answer 68

balance sitting, standing, static dynamic, functional 
bed mobility 
rolling lying to sitting 
transfers 
level of Ass 
pattern of mvmt?
BOS
Stability 
posture 
balance tests

Question 69

objective Ax - Gait

Answer 69

Appropriately undressed
Starting position
Initiation of gait
Level of assistance
Use of aid/device
Alignment
StabilityBase of support
Swing phase
Stance phase
Arm swing
Trunk rotation
Foot placement/clearance
Timing/co-ordination

Question 70

LMN

Answer 70

neuron who’s cell body lies in the CNS and whose axon leaves the CNS through a foramen and terminates on an effector

Question 71

UMN

Answer 71

a neuron which lies entirely in the CNS and causes movement because it terminates on the LMN

Question 72

abnormal mvmt

Answer 72

What types of Abnormal Movement are there?
Loss of co-ordination - cerebellar lesion
Bradykinesia - Parkinson’s disease (slowed movement)
Involuntary movement - tremor / chorea (brief, involuntary, non-rhythmic movements)
Intention tremor - cerebellar
Non-intention tremor - Parkinson’s
Loss of range - contracture
Loss of voluntary movement UMNL, CVA.

Question 73

cause of abnormal muscle power

Answer 73

Possible Causes of Abnormal Muscle Power (Weakness), can you discuss them?
Muscle pathology
Neuromuscular junction defect
Central - UMNL
Anterior horn cell damage/pathology
Nerve root injury
Nerve plexus
Peripheral – Peripheral nerve lesion (PNL)

Question 74

Asess muscle tone

Answer 74

How to Assess Muscle Tone - 
 Assessment Steps
Appropriately undress, prepare model, expose limbs
Patient comfort/safety
Preparation of environment and patient
Supine lying
Observation; Appearance of limb
Palpation; Feel muscle
Passive ROM, How does it react to stretch – UL, LL, Trunk, Proximal to distal direction for test
Compare both sides
Grading – Use Ashworth Scale

Question 75

posterior column - medial lemiscal pathway

Answer 75

Proprioception (awareness of position of muscles, tendons, joints & body movements).
Fine discriminative touch (ability to feel exactly which part of body is being touched).
Stereognosis (ability to recognise by feel the size,shape and texture of an object).
Vibration sense.
Weight discrimination (ability to determine the weight of an object).

Question 76

anterolateral pathways

Answer 76

Including spinothalamic tract (anterior & lateral) and other associated tracts that convey:
Pain
Temperature sense (hot / cold)
Crude touch (poorly localised) touch
Pressure
Tickle
Itch

Question 77

sensory system

Answer 77

Primary Sensation
Light touch
Temperature
Pinprick / pain
Vibration sense
Joint position sense
2 point discrimination

Dermatomes – remember CNS vs PNSSensory Testing Instructions
Clear instructions / demonstration
What you need?
Light touch - cotton wool
Vibration - tuning fork
Pinprick - neurotips
Temperature - test-tubes hot / cold
Find level of normality
Test both sides
Review rules for sensory testing
Distal to proximal testing
See handout

joint position sense

Upper limb
Patients eyes open demonstrate. Clear communication
Hold distal phalanx DIP joint index finger .
Illustrate bent & straight.
Patient closes eyes & is asked to report if joint is bent or straight.
Test distal joints first.

Lower limb
As above DIP joint, test hallux.
Don’t hold the nail, REMEMBER…

Question 78

co ordination

Answer 78

Upper Limb
Finger-tip to nose test
Hold finger at arms length in front of patient. Ask patient to touch the finger with index finger then touch their nose. Change speed/position of target.
Repeated movements
Lower Limb
Heel to shin test - Patient in supine. Lift leg and place heel on knee. Slide heel down along shin.
Trunk 
Tandem walking
Other test - dysdiadokokenesis

Question 79

broca’s area

wernicke’s area

speech problems

Answer 79

Broca’s Area
Inferior frontal gyrus of dominant hemisphere (usually the left)
Associated with motor or expressive dysphasia
Wernicke’s Area
Temporal lobe
Sensory or receptive dysphasia

dysphasia
expressive / motor - broca’s
receptive / sensory - wernickes

Speech problems common in left sided stroke with right sided hemiparesis
WHY – Dominant speech centre in Left cerebral hemisphere
Note - there can be exceptions to this simple clinical rule

Question 80

unilateral neglect

Answer 80

Unilateral Neglect common in right sided stroke with left sided hemiparesis
WHY – Dominant visuoperceptual centre in right cerebral hemisphere, parietal lobe

Question 81

sit to stand

Answer 81

Sit to stand
Risk assessment 1 or 2 physios, brakes on, position of plinth
Moving to edge of bed
patients feet on floor, physio supports pelvis, depress unilaterally and walk opposite pelvis forward and vice versa.
Foot position, and support hemiplegic lower limb as appropriate
Preparation environment, use of lifting belt
Care of hemiplegic UL web arm sling, proximal arm support, note thumb grip from MH notes
Rocking, trunk forward ‘nose over toes’
Flexion and extension
Steady in initial standing, caution re hypotension/unsteadiness

Question 82

stand to sit

Answer 82

Stand to sit
Risk assessment 1 or 2 physios, brakes on WC, position of chair
Moving to edge of chair
Turn around until can feel chair at back of legs
Foot position, and support hemiplegic lower limb as appropriate
Physio assists patient to place unaffected hand on arm rest
Care of hemiplegic UL web arm sling, proximal arm support, note grip from MH notes
Bending knees, controlled descent into chair
Reposition in sitting, hips back, support to UL

Question 83

check for hemi shoulder subluxation

Answer 83

Patient in sitting
Palpate from the SC joint along the clavicle to the AC joint
Check for a gap between the lateral acromial border and the head of the humerus
A gap of 1-2 fingers indicates subluxation is present

Question 84

shoulder support stroke care

Answer 84

reduce pain Counteract traction imposed on joint by weight of limb + gravity 
Prevent stretch to capsule +ST
Stabilisation / align
Provide proprioceptive feedback
Promote awareness