Clinical Signs

Question 1

How does cavernous sinus syndrome cause abducens nerve palsy?

Answer 1

Cavernous segment of the abducens nerve is located adjacent to the cavernous carotid artery, and is prone to compression by aneurysmal dilation of the vessel.

Question 2

What is anosmia?

Answer 2

Anosmia is absence of the sense of smell.

Question 3

What is hyposmia?

Answer 3

Decreased ability to recognise smells

Question 4

What are main causes of anosmia?

Answer 4

• Upper respiratory tract infection (URTI)
• Chronic allergic or vasomotor rhinitis
• Trauma
• Cigarette smoking
• Normal ageing
• Alzheimer’s disease
• Meningioma

Question 5

What are causes of an ataxic gait?

Answer 5

• Intoxication – alcohol
• Drug toxicity – lithium, phenytoin, benzodiazepine
• Cerebellar infarction
• Vertebral artery dissection
• Cerebellar mass lesion – tumour, abscess, AVM
• Multiple sclerosis
• HSV cerebellitis
• Hereditary cerebellar degeneration (Freidreich’s ataxia)
• Paraneoplastic cerebellar degeneration

Question 6

What cerebellar structures are involved in someone who has truncal ataxia, diequilibrium and body sway?

Answer 6

Midline cerebellar structures

• Vermis
• Flocculonodular lobes
• Intermediate lobe

Question 7

What might a lesion in the flocconodular lobe cause in terms of clinical signs?

Answer 7

• Multidirectional truncal instability
• Disequilibrium
• Severe impairment of trunk coordination

Question 8

What are features of lateral cerebellar hemisphere dysfunction?

Answer 8

Ipsilateral abnormalities in:

• Coordinated leg movements
• Step timing, length and direction - typically slow and careful, and instability is accentuated during heel-to-toe walking.

Associated features

• Dysmetria
• Dysdiadochokinesis
• Intention tremor

Question 9

What is dysmetria?

Answer 9

Dysmetria is a disturbance of the rate, range and force of movement of the extended limb as it approaches a target. Dysmetria is elicited during the finger-to-nose and heel-to-shin tests

Question 10

What is dysmetria a sign of?

Answer 10

Dysmetria is a cerebellar sign

Question 11

What causes dysmetria?

Answer 11

Lesions of the intermediate and lateral cerebellar hemispheres may cause slow, uncoordinated and clumsy movements of the ipsilateral distal extremity during attempted target localisation tasks. Delays in motor initiation and movement termination, and abnormalities of movement force and acceleration, contribute to dysmetria

Question 12

What are causes of muscle atrophy?

Answer 12

• Muscle disuse – fracture, arthritis, prolonged immobility
• Lower motor neuron (LMN) disorders - Peripheral neuropathy, Radiculopathy, Motor neuron disease
• Peripheral vascular disease
• Poliomyelitis

Question 13

How do lower motor neuron lesions cause muscle atrophy?

Answer 13

Loss of lower motor neuron input at the neuromuscular junction causes breakdown of actin and myosin, resulting in a decrease in cell size and involution of myofibrils

Question 14

What is a positive babinski’s response?

Answer 14

The Babinski response, or upgoing plantar response, is an abnormal cutaneous reflex of the foot associated with upper motor neuron dysfunction. In a positive Babinski response, scratching the lateral plantar surface of the foot causes contraction of the extensor hallucis longus muscle and extension of the great toe.

Question 15

What are causes of a positive babinski’s response?

Answer 15

Upper motor neuron lesions

• Cerebral infarction
• Cerebral haemorrhage
• Spinal cord injury
• Lacunar infarction, posterior limb internal capsule
• Multiple sclerosis
• SOL

Question 16

What is thought to be the mechanism behind the development of the babinski response?

Answer 16

Before 1 or 2 years of age, a stimulus applied to the lower extremities, such as pressure or stroking of the plantar aspect of the foot, causes involuntary ankle dorsiflexion and great toe extension. The response is a primitive reflex that disappears later in life. After 1 or 2 years of age, normal development of the central nervous system extinguishes this response.

In a positive Babinski response, upper motor neuron dysfunction disrupts the normal plantar cutaneous reflex and the primitive response re-emerges. It may take hours or days for these signs to emerge, as it is often absent in acute/hyperacute setting

Question 17

What are causes of bradykinesia?

Answer 17

• Parkinson’s disease
• Dopamine antagonists – haloperidol, metoclopramide
• Diffuse white matter disease – lacunar infarction(s)
• Multisystem atrophy
• Progressive supranuclear palsy
• Corticobasilar degeneration

Question 18

What is Broca’s aphasia?

Answer 18

Expressive aphasia, is a disorder of speech fluency (i.e. word production). Comprehension is less affected. Patients demonstrate speech that is laboured and short, lacks normal intonation, and is grammatically simple and monotonous.

Typically, phrase length is decreased and the number of nouns is out of proportion to the use of prepositions and articles

Question 19

What is the mechanism behind broca’s aphasia?

Answer 19

Broca’s aphasia is typically caused by a lesion in the posterior inferior frontal gyrus of the dominant hemisphere.

Question 20

Which artery is most commonly implicated in someone with Broca aphasia due to a stroke?

Answer 20

Most commonly branches of the superior division of the middle cerebral artery (MCA)

Question 21

What speech abnormalities are seen in broca’s aphasia?

Answer 21

• Nonfluent, mute or telegraphic spontaneous speech
• Dysarthria
• Impaired name recall
• Impaired writing and reading

Question 22

What associated features can be present with Broca’s aphasia, and why can they be present?

Answer 22

Associated contralateral motor and sensory findings are more commonly associated with Broca’s aphasia, due to the proximity of the motor cortex to the vascular distribution of the superior division of the middle cerebral artery

Question 23

What is Brown-Sequard syndrome?

Answer 23

Rare clinical syndrome caused by spinal cord hemisection and is characterised by:

• Ipsilateral
  
  • Below lesion - Weakness, Loss of light touch, vibration, proprioception and sensation below the lesion
  • Level of lesion narrow band of ipsilateral complete sensory loss
• Contralateral
  
  • Below lesion - Loss of temperature and pain sensation

Question 24

In brown-sequard syndrome, which spinal column tract is implicated in features of ipsilateral weakness and UMN signs?

Answer 24

Corticospinal tract lesion

Question 25

In brown-sequard syndrome, which spinal column tract is implicated in features of ipsilateral loss of touch, vibration, proprioception below the lesion?

Answer 25

Dorsal column lesion

Question 26

In brown-sequard syndrome, which spinal column tract is implicated in features of contralateral loss of pain and temperature below the level of the lesion?

Answer 26

Spinothalamic tract lesion

Question 27

Why do those with Brown-Sequard syndrome develop contralateral loss of temp and pain sensation?

Answer 27

Lesion is above decussation at each spinal level, thus deficits are contralateral below the lesion

Question 28

What can cause Brown-Sequard Syndrome?

Answer 28

• Penetrating trauma
• Multiple sclerosis
• Mass lesion – tumour, abscess, AVM

Question 29

What is cavernous sinus syndrome?

Answer 29

Clinical syndrome of multiple cranial nerve abnormalities affecting the contents of the cavernous sinus

• Oculomotor nerve (CNIII)
• Trochlear nerve (CNIV)
• Ophthalmic division of the trigeminal nerve (CNV V1),
• Maxillary division of the trigeminal nerve (CNV V2)
• Abducens nerve (CNVI)
• Sympathetic fibres

Question 30

What are causes of cavernous sinus syndrome?

Answer 30

• Septic thrombosis
• Aseptic thrombosis
• Cavernous carotid artery aneurysm
• Mucormycosis
• Pituitary apoplexy
• Cavernous – carotid sinus fistula

Question 31

What is the most common cause of cavernous sinus syndrome?

Answer 31

Septic thrombosis

Question 32

What nerve in the cavernous sinus is first affected in cavernous carotid artery aneurysm?

Answer 32

Abducens - due to its close proximity to the cavernous segment of the internal carotid artery

Question 33

What is clasp-knife rigidity?

Answer 33

Brisk relaxation of hypertonic muscle groups during tone assessment. The name arises from the similarity of the phenomenon to opening and closing the blade of a pocket knife due to the action of the spring.

Question 34

What are causes of clasp-knife rigidity?

Answer 34

UMN lesions

• Cerebral infarction
• Cerebral haemorrhage
• Cerebral palsy
• Multiple sclerosis
• Myelopathy
• Mass lesion – tumour, abscess, AVM

Question 35

What is clonus?

Answer 35

A rhythmic, sustained muscular contraction initiated with a brisk stretching force in a muscle group. Clonus is most commonly elicited in the ankle by abrupt passive dorsiflexion. It can also be assessed in other locations, such as the quadriceps, finger flexors, jaw and other muscle groups

Question 36

What are causes of clonus?

Answer 36

UMN lesions

• Cerebral infarction
• Cerebral haemorrhage
• Lacunar infarction, posterior limb internal capsule
• Multiple sclerosis
• Spinal cord injury
• Mass lesion – tumour, abscess, AVM
• Serotonin syndrome

Question 37

What is thought to be the mechanism behind clonus?

Answer 37

Essentially it is a result of pronounced hyperreflexia. Clonus is caused by a self-sustaining, oscillating, monosynaptic stretch reflex.

Question 38

What is the corneal reflex?

Answer 38

When the cornea is stimulated with a wisp of cotton, there is a reflexive blinking response in both eyes (a normal response)

Question 39

What is dysarthria?

Answer 39

A disorder of speech articulation. Comprehension and speech content are not affected. There are several types of dysarthria that vary in the rate, volume, rhythm and sound of the patient’s speech

Question 40

What are causes of dysarthria?

Answer 40

• Intoxication (e.g. alcohol, benzodiazepine)
• Drug toxicity (e.g. lithium, phenytoin)
• Cerebellar infarction
• Vertebral artery dissection
• Cerebellar mass lesion – tumour, abscess, AVM
• Multiple sclerosis
• HSV cerebellitis
• Hereditary cerebellar degeneration (Freidreich’s ataxia)
• Paraneoplastic cerebellar degeneration

Question 41

What is flaccid dysarthria?

Answer 41

Speech sounds slurred/nasal

Question 42

What is spastic dysarthria?

Answer 42

Speech sounding as if patient is trying to squeeze words out of pursed mouth

Question 43

What is ataxic dysarthria?

Answer 43

Speech is uncordinated - range, timing, direction innacurate, rate is slow and may be explosive

Question 44

What is Hypokinetic dysarthria?

Answer 44

Speech may sound monotonous or slow-paced

Question 45

What is hyperkinetic dysarthria?

Answer 45

Involuntary disruption in sounds +/- movements

Question 46

What might cause an ataxic dysarthria?

Answer 46

Cerebellar dysfunction

Question 47

What can cause spastic dysathria?

Answer 47

UMN lesions

Question 48

What is dysdiadochokinesia?

Answer 48

https://www.youtube.com/watch?v=2EZqnmxWyAY

Dysdiadochokinesis is difficulty in performing rapid alternating movements. The patient’s movements may be slow and/or clumsy.

Question 49

What are causes of dysdiadochokinesia?

Answer 49

• Alcohol intoxication
• Drug toxicity – lithium, phenytoin, benzodiazepine
• Cerebellar infarction
• Vertebral artery dissection
• Cerebellar mass lesion – tumour, abscess, AVM
• Multiple sclerosis
• HSV cerebellitis
• Hereditary cerebellar degeneration (Freidreich’s ataxia)
• Paraneoplastic cerebellar degeneration

Question 50

Why does dysdiadochokinesia occur?

Answer 50

Intermediate and lateral hemisphere dysfunction results in delays of motor initiation and movement termination at the end of movement (i.e. dysmetria). This, combined with abnormalities of movement force and acceleration, contribute to dysdiadochokinesia

Question 51

What is essential tremor?

Answer 51

Essential tremor is a 4–12 Hz symmetric tremor of the upper limbs, with postural (seen in the outstretched arm) and/or kinetic (during movement) components. It may also affect the jaw, tongue, and head and neck muscles, leading to a characteristic ‘nodding yes’ or ‘shaking no’ tremor.

Question 52

Why might you get a abnormal efferent corneal reflex in Bell’s Palsy?

Answer 52

Efferent corneal reflex defect (facial nerve)

Question 53

Why might you get dry irritated eye in facial nerve palsy?

Answer 53

• Orbicularis oculi muscle weakness results in incomplete eye closure
• Lacrimal gland dysfunction

Question 54

What are fasciculations?

Answer 54

Fasciculations are involuntary, nonrhythmic contractions of small muscle groups caused by spontaneous firing of motor units. They appear on the surface of the muscle as fine, rapid, flickering contractions, irregular in timing and location

Question 55

What are causes of fasciulations?

Answer 55

Lower motor neuron sign

• Benign fasciculations
• Motor neuron disease (amyotrophic lateral sclerosis)
• Radiculopathy
• Depolarising paralytic agent – succinylcholine
• Cholinergic toxicity – organophosphate toxicity
• Funnel-web spider envenomation
• Thyrotoxicosis
• Poliomyelitis
• Spinal muscular atrophy

Question 56

What is thought to be the cause of fasciculations in LMN disorders?

Answer 56

Denervation and reinnervation of muscle fibres secondary to lower motor neuron disease causes the spontaneous excitation of individual motor units.

Question 57

How does cholinergic toxicity cause fasciculations?

Answer 57

Due to potentiation of acetylcholine at the neuromuscular junction

Question 58

What is the afferent limb of the gag reflex?

Answer 58

Glossopharyngeal nerve (CNIX)

Question 59

What is the efferent limb of the gag reflex?

Answer 59

Glossopharyngeal and Vagus nerve

Question 60

What is an abnormal gag reflex?

Answer 60

Absence of stylopharyngeus muscle and superior pharyngeal muscle constriction following stimulation of the posterior tongue and/or oropharynx. Absence of the gag reflex can be unilateral or bilateral.

Question 61

What can cause a loss of gag reflex?

Answer 61

• Normal variant
• Generalised CNS depression
• Glossopharyngeal nerve (CNIX) lesion
• Vagus nerve (CNX) lesion
• Lateral medullary syndrome (Wallenberg’s syndrome)

Question 62

What is the glabellar tap sign?

Answer 62

Tapping the glabella (between the patient’s eyebrows) causes blinking, which typically ceases after several taps. Persistent blinking (i.e. more than 4 or 5 blinks) in response to glabellar tapping is abnormal (called Myerson’s sign).

Question 63

What conditions can cause a positive glabellar tap sign?

Answer 63

• Clasically - Parkinson’s disease
• Alzheimer’s dementia
• Vascular dementia
• Frontotemporal dementia
• Lewy Body dementia
• Advanced HIV/AIDS dementia

Question 64

What is global aphasia?

Answer 64

Global aphasia is a disturbance of speech with expressive and receptive components (i.e. a combination of Broca’s and Wernicke’s aphasia). Speech is nonfluent or nonexistent, and comprehension is impaired. Naming, repetition, reading and writing are all affected

Question 65

What are causes of global aphasia?

Answer 65

• Cerebral infarction, MCA territory
• Cerebral haemorrhage
• Alzheimer’s disease
• Vascular dementia
• Mass lesion – tumour, abscess, AVM
• Primary progressive aphasia

Question 66

What are features of global aphasia?

Answer 66

• All aspects of speech impaired
• Contralateral motor/sensory signs
• Contralateral hemianopia

Question 67

What’s the most common cause of global aphasia?

Answer 67

MCA territory infarct

Question 68

What is the grasp reflex?

Answer 68

The patient involuntarily grasps the examiner’s fingers when the examiner strokes the patient’s thenar eminence. The grasp reflex is a primitive reflex present in infancy, which normally disappears later in life

Question 69

What are causes of a positive grasp reflex?

Answer 69

• Alzheimer’s dementia
• Vascular dementia
• Frontotemporal dementia
• Lewy body dementia (LBD)
• Advanced HIV/AIDS

Question 70

Why is hand dominance important?

Answer 70

Hand dominance is clinically significant in the context of dominant cortical localising signs. The side of hand dominance correlates with the side of the dominant cerebral hemisphere and therefore has potential localising value.

Question 71

What is hemineglect syndrome?

Answer 71

A disorder of conscious perception, characterised by a lack of awareness of the contralateral visual hemispace and contralateral body. The patient may be completely unaware of their own body or objects in the neglected space (i.e. anosognosia). The presence of hemineglect is typically evaluated with clock face drawing, search/cancellation and/or line bisection tests.

Question 72

What is sensory neglect?

Answer 72

Patient ignores visual, tactile or auditory stimuli in the contralateral hemispace

Question 73

What is motor neglect?

Answer 73

Patient performs fewer movements in the contralateral hemispace

Question 74

What is conceptual neglect?

Answer 74

Patient’s internal representation of own body and/or external environment exhibits neglect

Question 75

What are causes of hemineglect syndromes?

Answer 75

• Cerebral infarction/haemorrhage
• Mass lesion - Tumour, Abscess, AVM

Question 76

What is the most common lesion site in someone with a hemineglect syndrome?

Answer 76

Temporoparietal junction of non-dominant hemisphere - mediate conscious representation of sensation, motor activities such as visual scanning and limb exploration, and motivational relevance

Question 77

What is a high stepping gait?

Answer 77

A high stepping gait is characterised by pronounced hip and knee flexion, in order to clear the lower limb or limb(s) with foot drop during leg swing

Question 78

What can cause a high-stepping gait?

Answer 78

• Common peroneal nerve neuropathy
• L5 radiculopathy
• Sciatic nerve palsy
• Length-dependent peripheral neuropathy – alcohol, diabetes mellitus
• Hereditary peripheral neuropathy – Marie–Charcot–Tooth disease
• Myopathy – scapuloperoneal muscular dystrophy

Question 79

What is the mechanism foot drop?

Answer 79

Caused by weakness of the anterior compartment muscles of the leg (e.g. tibialis anterior, extensor hallicus longus, extensor hallicus brevis muscles).

Question 80

What is hyperreflexia?

Answer 80

Stretch reflexes are more brisk than normal. Hyperreflexia is an upper motor neuron sign.

Question 81

What are causes of hyperreflexia?

Answer 81

• Normal variant
• Cerebral infarction, MCA territory
• Cerebral haemorrhage
• Lacunar infarction, posterior limb internal capsule
• Multiple sclerosis
• Spinal cord injury
• Brainstem lesion (medial medullary syndrome)
• CNS mass lesion – tumour, abscess, AVM
• Serotonin syndrome
• Clostridium tetani infection (tetanus)

Question 82

What side does hyperreflexia occur on in upper motor neuron lesions?

Answer 82

• Contralateral side - if lesion present above decussation
• Ipsilateral - if below decussation

Question 83

Where do the motor fibres deccusate in the brain?

Answer 83

Anterior median fissure of the medulla oblongata as the pyramidal decussation or motor decussation

Question 84

What is hyporeflexia?

Answer 84

Stretch reflexes are decreased (hyporeflexia) or absent (areflexia) despite reinforcement manoeuvres (e.g. Jendrassik manoeuvre).

Question 85

What are causes of hyporeflexia?

Answer 85

Lower motor neuron signs

• Hyperacute UMN disorder – CVA, spinal cord injury
• Radiculopathy – intervertebral disc herniation, spondylosis
• Peripheral neuropathy
• Myasthenia gravis
• Guillain–Barré syndrome
• Poliomyelitis
• Botulism
• Tick paralysis

Question 86

What is hypotonia?

Answer 86

Decreased resistance to passive movement due to decreased resting muscle tone. The limb may feel ‘floppy’, the outstretched arm when tapped may demonstrate wider than normal excursions, and the knee jerk may be abnormally pendular

Question 87

What are causes of hypotonia?

Answer 87

Lower motor neuron

• Peripheral neuropathy
• Myasthenia gravis
• Guillain–Barré syndrome
• Poliomyelitis
• Botulism
• Tick paralysis

Question 88

What happens to tone in cerebellar disorders?

Answer 88

Hypotonia - mechanism not known

Question 89

What is an intention tremor?

Answer 89

Intention tremor is a slow (2–4 Hz) tremor during voluntary movement that develops as the limb approaches the target.

Question 90

What tests would you do to assess for an intention tremor?

Answer 90

• Finger-to-nose test
• Heel-shin sign

Question 91

Why does an intention tremor occur?

Answer 91

Delays in motor initiation and movement termination, and abnormalities of movement force and acceleration, contribute to intention tremor

Question 92

What can cause an intention tremor?

Answer 92

• Intoxication – alcohol, benzodiazepine
• Cerebellar infarction
• Multiple sclerosis
• Vertebral artery dissection
• Cerebellar mass lesion – tumour, abscess, AVM
• HSV cerebellitis
• Hereditary cerebellar degeneration (Freidreich’s ataxia)
• Paraneoplastic cerebellar degeneration

Question 93

What is a positive jaw jerk reflex?

Answer 93

Brisk reflex - sign of upper motor neuron lesion above the pons

Question 94

What are causes of first order sympathetic neuron lesions which can lead to the development of horners syndrome?

Answer 94

• Hypothalamic lesions (e.g. infarct, tumour),
• Lateral medullary syndrome (Wallenberg’s syndrome)
• Syringomyelia

Question 95

If someone presented with the following; 1) what else would you look for and 2) what would be the clinical syndrome present?

Answer 95

1. Anhidrosis
2. Right horner’s syndrome - Ptosis with apparent enopthalmous, miosis

Question 96

What are causes of second-order sympathetic neuron lesions which can lead to the development of horner’s syndrome?

Answer 96

• Thoracic aortic aneurysm
• Lower brachial plexus injury (e.g. Klumpke’s palsy)
• Pancoast’s tumour
• Carotid artery dissection
• Iatrogenic injury following carotid endarterectomy

Question 97

What are examples of third order sympathetic neuron lesions that cause horner’s syndrome?

Answer 97

• Head and neck trauma
• Local eye pathology

Question 98

What is the course of the third order sympathetic neuron involved in horner’s syndrome?

Answer 98

From the cervical ganglion at the level of C2 to the pupillary dilator muscle and the superior tarsal muscle

Question 99

What is the course of the first order sympathetic neuron involved in horner’s syndrome?

Answer 99

From the hypothalamus to the C8–T1 level of the spinal cord.

Question 100

What is myotonia?

Answer 100

Percussion myotonia is a sustained muscle contraction following percussion of a muscle. Grip myotonia is a sustained muscle contraction following forceful contraction of the hand muscles

Question 101

What are causes of a brisk jaw jerk reflex?

Answer 101

• Normal variant
• Diffuse white matter disease – lacunar infarction(s)
• Vascular dementia
• Motor neuron disease (amyotrophic lateral sclerosis)
• Bilateral cerebral infarction
• Multiple sclerosis
• Progressive multifocal leucoencephalopathy (PML)
• Central pontine myelinolysis

Question 102

What is a brisk jaw jerk reflex a sign of?

Answer 102

Bilateral upper motor neuron disease above the pons - Loss of supranuclear innervation of the motor trigeminal nucleus causes hyperexcitability of alpha motor neurons innervating the masseter muscles

Question 103

What afferent and efferent nerve is involved in the aw jerk reflex?

Answer 103

Mandibular branch of the trigeminal nerve

Question 104

What are causes of enhanced phsyiological tremor?

Answer 104

• Hyperthyroidism
• Hypoglycaemia
• Withdrawal states
• Sympathomimetic agents
• Fatigue
• Anxiety
• Fear

Question 105

What is the physiology behind an enhanced physiological tremor?

Answer 105

Caused by increases in circulating catecholamines (e.g. adrenaline, noradrenaline) and/or catecholamine receptor upregulation (e.g. hyperthyroidism), which increase the twitch force of motor units

Question 106

What is pronator drift?

Answer 106

https://www.youtube.com/watch?v=o8zkr3tmszQ

There is asymmetric pronation and downward arm drift when the patient is instructed to extend both arms with palms straight facing the ceiling.

Downward arm drift, forearm pronation and flexion of the wrist and elbow typically begin distally and progress proximally

Question 107

What is pronator drift generally a sign of?

Answer 107

Upper motor neuron lesion - contralateral cerebral hemisphere

Question 108

What are causes of pronator drift?

Answer 108

• Cerebral infarction, MCA territory
• Lacunar infarction, posterior limb internal capsule
• Cerebral haemorrhage, parenchymal
• Mass lesion – tumour, abscess, AVM
• Subdural haematoma

Question 109

What is the mechanism behind pronator drift?

Answer 109

When visual cues are removed, subtle upper motor neuron weakness causes the weak upper limb to pronate and drift downwards.

Question 110

What is rigidity?

Answer 110

Increased resistance to passive movement due to an abnormal increase in resting muscle tone.

Question 111

What are the three characteristic features of rigidity?

Answer 111

• Magnitude of resistance during passive movement is the same with slow or fast movement
• Equal flexor and extensor tone
• No associated weakness.

Question 112

What is rigidity a sign of?

Answer 112

Sign of extrapyramidal disease

Question 113

What conditions is rigiditiy associated with?

Answer 113

• Parkinson’s disease
• Dopamine antagonists – haloperidol, metoclopramide
• Diffuse white matter disease – lacunar infarction(s)
• Multisystem atrophy
• Progressive supranuclear palsy
• Corticobasilar degeneration

Question 114

What are causes of a positive romberg’s test?

Answer 114

Common

• Intoxication – alcohol, benzodiazepine
• Vestibulotoxic drugs – furosemide, gentamicin

Uncommon

• Subacute combined degeneration of the cord (Vitamin B12 deficiency)
• Tabes dorsalis (tertiary syphilis)
• Vestibular neuritis

Question 115

What is the mechanism behind a positive romberg’s test?

Answer 115

A positive Romberg test is caused by:

• Proprioceptive dysfunction - peripheral neuropathy, dorsal column dysfunction
• Vestibular dysfunction - vestibular neuritis

Both of these causes are sensory in nature, so a positive Romberg’s test indicates a sensory ataxia

Question 116

What tract carries sensory information from light touch, vibration and proprioception?

Answer 116

Dorsal column tract and medial lemniscus pathway

Question 117

What might give the following sensory loss?

Answer 117

• MCA territory infarction
• Mass lesion, sensory cortex

Question 118

What might give the following diostribution of sensory loss?

Answer 118

• Mass lesion, sensory cortex
• ACA territory infarction

Question 119

What might give you the following sensory loss distibution?

Answer 119

• Thalamic lesion
• Anterior limb, internal capsule lesion
• ICA (ACA + MCA) territory infarction

Question 120

What might give you the following sensory loss distribution?

Answer 120

Lateral medullary syndrome (Wallenberg’s syndrome)

Question 121

What might give you loss of pain and temperature in both arms in the following (cape) distribution?

Answer 121

Central cord syndrome - cervical spinal cord

Question 122

What might the following sensory loss distribution be caused by?

Answer 122

Cervical spinal cord lesion

Question 123

What might the following sensory loss distribution be caused by?

Answer 123

Spinal cord lesion below T1, above L1/L2

Question 124

What might sensory loss in the following distribution indicatea as a cause?

Answer 124

Glove and stocking distribution

Length-dependent peripheral neuropathy e.g. diabetic neuropathy

Question 125

What might cause sensory loss?

Answer 125

Common

• Compression mononeuropathy – carpal tunnel syndrome
• Peripheral neuropathy – diabetic neuropathy
• Cerebral infarction
• Cerebral haemorrhage
• Spinal cord injury
• Radiculopathy

Less common

• Transverse myelitis
• Lateral medullary syndrome (Wallenberg’s syndrome)
• Compartment syndrome
• Syringomyelia
• Mass lesion – tumour, abscess, AVM

Question 126

What do sensory cortex lesions cause in terms of sensory loss?

Answer 126

Contralateral complete hemisensory loss in the distribution of structures of the sensory homunculus

Question 127

What would an anterior limb, internal capsule lesion cause in terms of sensory loss?

Answer 127

Pure contralateral complete hemisensory loss of the face, arm and leg due to the dense distribution of sensory fibres in this region

Question 128

What do brainstem lesions cause?

Answer 128

Characterised by:

• Contralateral sensory and/or motor deficits
• Ipsilateral cranial nerve motor/snesory deficits
• Contralateral hyperreflexia
• Contralateral spastic weakness
• Ipsilateral ataxia

Question 129

What does radiculopathy cause in terms of clinical signs?

Answer 129

Positive and negative features in distribution fo dermatome

• Positive
  
  • Dysaesthesia or burning
  • Paraesthesias
  • Pain
• Negative
  
  • Anaesthesia or numbness

Question 130

What are causes of length-dependent neuropathy?

Answer 130

• Diabetes
• Alcohol
• Inherited neuropathies
• Heavy metal toxicity

Question 131

What is spasticity?

Answer 131

Spasticity is increased resistance to passive movement due to an abnormal increase in resting muscle tone

Question 132

What are the three distinct features of spasticity?

Answer 132

1. Muscle tone increases with the velocity of passive movement
2. Flexor–extensor tone dissociation - increased tone in flexors of the arms and extensors of the lower limbs
3. Weakness is present.

Question 133

What is spasticity indicative of?

Answer 133

UMN lesion

Question 134

Why do upper motor neuron lesions cause spasticity?

Answer 134

Causes a decrease in inhibitory interneuron activity and an increase in gamma motor neuron activity, resulting in a state of hyperexcitability of alpha motor neurons.

Hyperexcitability of alpha neurons results in increased resting muscle tone and increased resistance during passive movement.

Question 135

What would weakness in turning the head left indicate?

Answer 135

Right sternocleidomastoid weakness

Question 136

What would weakness in turning the head right indicate?

Answer 136

Left sternocleidomastoid weakness

Question 137

What are causes of accessory nerve palsy?

Answer 137

Peripheral nerve lesions secondary to trauma or mass lesions.

• Complicaiton of neck dissection
• Penetrating trauma of posterior triangle
• Mass lesion - tumour, abscess, AVM

Question 138

What would cause the following?

Answer 138

Left Hypoglossal nerve palsy

Question 139

What side is the lesion which causes the following deformity?

Answer 139

Left

Question 140

What are causes of the following?

Answer 140

• Iatrogenic – complication of carotid endarterectomy
• Penetrating neck trauma
• Carotid artery aneurysm
• Hypoglossal canal stenosis
• Mass lesion – tumour, abscess
• Carotid artery dissection

Question 141

Why does the following occur in hypoglossal nerve palsy?

Answer 141

If genioglossus (supplied by hypoglossal nerve) weakness is present, the tongue deviates towards the side of weakness, due to loss of the medial force on the affected side

Question 142

What are the characteristic findings in trochlear nerve palsy?

Answer 142

• Hypertropia (upward deviation)
• Extorsion (external rotation)
• Head tilt, in the direction opposite to the side of the affected eye.

Question 143

What is truncal ataxia?

Answer 143

Postural instability due to incoordination of the proximal muscles groups of the body assessed while sitting upright and/or oscillatory movements of head and neck (i.e. titubation). Patients may require assistance to maintain an upright posture.

Question 144

What are causes of truncal ataxia?

Answer 144

• Alcohol intoxication
• Drug toxicity – lithium, phenytoin, benzodiazepine
• Cerebellar infarction
• Basilar artery territory infarction
• Multiple sclerosis
• Mass – tumour, abscess, AVM
• HSV cerebellitis
• Hereditary cerebellar degeneration (Freidreich’s ataxia)
• Paraneoplastic cerebellar degeneration

Question 145

Damage to what structures in the cerebellum cause truncal ataxia?

Answer 145

Vermis and flocculonodular lobe

Question 146

What is uvular deviation?

Answer 146

When a patient says ‘ah’, there is dynamic deviation of the uvula to one side upon contraction of the palator constrictor muscle.

Question 147

Lesions in what nerves cause uvular deviation?

Answer 147

• Nucleus ambiguus lesion
• Glossopharyngeal nerve (CNIX)
• Glossopharyngeal nerve (CNIX) and vagus nerve (CNX) palsies.

Question 148

What are common causes of uvular deviation?

Answer 148

• Diabetic mononeuropathy/microvascular infarction
• Iatrogenic – complication of tonsillectomy
• Lateral medullary syndrome (Wallenberg’s syndrome)
• Cerebellopontine tumour
• Internal carotid artery dissection
• Mass – glomus tumour, AVM
• Trauma – jugular foramen fracture

Question 149

What side does the uvula deviate in glossopharyngeal/vagus nerve palsy?

Answer 149

Away from affected side

Question 150

What is vertical gaze palsy?

Answer 150

Vertical gaze palsy is a group of uncommon gaze disorders that include upward gaze palsy, downward gaze palsy and a combined upward and downward gaze palsy

Question 151

What is upward gaze paresis caused by?

Answer 151

Posterior commissure lesion

Question 152

What is a downward gaze paresis caused by?

Answer 152

Bilateral rostral interstitial medial longitudinal fasciculus (riMLF)

Question 153

What are causes of vertical gaze palsies?

Answer 153

• Pinealoma
• Hydrocephalus
• Progressive supranuclear palsy (PSP)
• Multiple sclerosis
• Wernicke’s encephalopathy
• Tay–Sachs disease
• HIV/AIDS encephalopathy

Question 154

What can cause the following pattern of muscle weakness?

Answer 154

• Contralateral motor cortex lesion
• Ipsilateral cervical spinal cord lesion
• Contralateral posterior limb, internal capsule lesion
• Todd’s paralysis

Question 155

What are causes of the following pattern of muscle weakness?

Answer 155

• Guillain–Barré syndrome
• Tick paralysis

Question 156

What can cause the following distribution of muscle weakness?

Answer 156

• Botulism
• Miller Fisher variant Guillain–Barré syndrome
• Diphtheria polyneuropathy

Question 157

What can cause the following pattern of weakness?

Answer 157

• Complete cervical spinal cord lesion
• Anterior cord syndrome

Question 158

What can cause the following distribution of muscle weakness?

Answer 158

• Cervical syringomyelia
• Cervical radiculopathy

Question 159

What can cause the following pattern of muscle weakness?

Answer 159

• Peripheral neuropathy
• Myotonic dystrophy

Question 160

What can cause the following distribution of muscle weakness?

Answer 160

MCA territory infarction

Question 161

What can cause the following distribution of muscle weakness?

Answer 161

• Posterior limb, internal capsule lesion
• ICA territory (ACA + MCA) infarction

Question 162

What can cause the following pattern of muscle weakness?

Answer 162

Brainstem lesion

Question 163

What can cause the following distribution of muscle weakness?

Answer 163

Myopathy

Question 164

What areas are supplied by the anterior cerebral artery?

Answer 164

• Medial aspects of the frontal and parietal lobes
• Basal ganglia
• Anterior fornix
• Anterior corpus callosum - motor, cognitive, sensory

Question 165

What area does the middle cerebral artery supply?

Answer 165

• Lateral aspects of frontal, temporal and parietal lobes
• Corona radiata
• Globus pallidus
• Caudate and putamen

Question 166

What area does the posterior cerebral artery supply?

Answer 166

• Occipital lobe
• Inferomedial temporal lobe
• Large portion of the thalamus
• Upper brainstem and midbrain

Question 167

What a upper motor neuron lesion signs?

Answer 167

• Spasticity - velocity dependent increase in tone
• Clonus
• Weakness
• Hyperreflexia
• Babinski sign

Question 168

What is a pyramidal pattern of muscle weakness?

Answer 168

Corticospinal tracts

• Arm - extensors predominatly affected
• Legs - flexors are predominantly affected

Question 169

What are lower motor neuron signs?

Answer 169

• Fasciculations
• Muscle atrophy
• Hypotonia
• Weakness
• Hyporeflexia/areflexia

Question 170

What is the difference between pyramidal and extra-pyramidal signs?

Answer 170

Extrapyramidal signs and symptoms occur as a result of pathology in the basal ganglia. Pyramidal signs occur following an upper motor neurone lesion.

Question 171

What is Wernicke’s Aphasia?

Answer 171

Receptive aphasia is a disorder of language comprehension. Speech fluency (word production) is typically not affected. The patient’s speech is meaningless or strange and may contain paraphasic errors (inappropriate word substitutions based on meaning or sound

Question 172

What features of speech are impaired in Wernicke’s Aphasia?

Answer 172

• Naming
• Comprehension
• Repetition
• Reading

Question 173

What can cause Wernicke’s Aphasia?

Answer 173

• MCA territory infarction
• Cerebral haemorrhage
• Vascular dementia
• Migraine (transient)
• Alzheimer’s disease
• Mass lesion – tumour, abscess, AVM
• Primary progressive aphasia

Question 174

What is the mechanism behind Wernicke’s Aphasia?

Answer 174

Caused by a lesion in the posterior superior temporal gyrus of the dominant hemisphere supplied by MCA.

Question 175

What does occlusion of the anterior cerebral artery cause in terms of clinical signs?

Answer 175

• Contralateral leg +/- similar/milder arm features
• Spared face

Question 176

What can occlusion of the middle cerebral artery cause in terms of clinical signs?

Answer 176

• Contralateral hemiparesis
• Hemisensory loss - esp face and arm (look at homunculus)
• Contralateral homonymous hemianopia - optic radiation involvement
• Dysphasia - dominant hemisphere
• Visuospatial disturbance - non-dominant hemisphere

Question 177

What can occlusion of the posterior cerebral artery cause in terms of clinical signs?

Answer 177

• Contralateral homonymous hemianopia

Question 178

What does occlusion of the vertebrobasilar system cause in terms of clinical signs?

Answer 178

Cerebellum, brainstem, occipital lobes:

• Hemianopia
• Cortical blindness
• Diplopia
• Nystagmus
• Ataxia
• Dysarthria
• Dysphasia
• Hemi/qudraplegia
• Unilateral/bilateral sneory symptoms

Question 179

What syndromes can occur due to brainstem infarction?

Answer 179

• Lateral meduallry syndrome
• Locked-in syndrome

Question 180

What is L’hermittes Phenomenon?

Answer 180

An electrical sensation that runs down the back and into the limbs on neck flexion. The sensation can feel like it goes up or down the spine

Question 181

What is the mechanism behind L’hermittes phenomenon?

Answer 181

Suggests a lesion or compression of the upper cervical spinal cord or lower brainstem—usually dorsal columns of the cervical cord or caudal medulla.

Question 182

What are causes of L’Hermittes Phenomenon?

Answer 182

• MS
• Transverse myelitis
• Cervical myelopathy
• Radiation myelopathy
• Vitamin B12 deficiency (subacute combined degeneration)
• Compression of the spinal cord in the neck from any cause - cervical spondylosis, disc herniation, tumor, and Arnold-Chiari malformation, trauma

Question 183

What is the doll’s eye reflex?

Answer 183

Vestibulo-ocular reflex

Passive head turning produces conjugate ocular deviation away from the direction of rotation

https://www.youtube.com/watch?v=B8SXlFeyNLM

Question 184

What would indicate a positive doll’s eye reflex?

Answer 184

Eyes move conjugately away from the side that the head is moving towards

Question 185

What would indicate a negative Doll’s eye reflex?

Answer 185

Eyes fixed midorbit on movement

Question 186

What are causes of absent doll’s eye reflex?

Answer 186

• Deep coma
• Brainstem lesion
• Brain death

Question 187

What are features of a disorder in the basal ganglia?

Answer 187

Extrapyramidal symptoms/signs:

• Akinesia/bradykinesia
• Rigidity
• Tremor
• Dyskinesia
• Dystonia

Question 188

What is the extrapyramidal system?

Answer 188

part of the motor system network causing involuntary actions. The system is distinguished from the tracts of the motor cortex that reach their targets by traveling through the pyramids of the medulla. The pyramidal tracts (corticospinal tract and corticobulbar tracts) may directly innervate motor neurons of the spinal cord or brainstem (anterior (ventral) horn cells or certain cranial nerve nuclei), whereas the extrapyramidal system centers on the modulation and regulation (indirect control) of anterior (ventral) horn cells.

Question 189

How does the extra-pyramidal system differ from the pyramidal system in terms of motor control?

Answer 189

Pyramidal is involved in voluntary motor control of muscles. Extrapyramidal target lower motor neurons in the spinal cord that are involved in reflexes, locomotion, complex movements, and postural control. These tracts are in turn modulated by various parts of the central nervous system, including the nigrostriatal pathway, the basal ganglia, the cerebellum, the vestibular nuclei, and different sensory areas of the cerebral cortex

Question 190

What are extrapyramidal symptoms?

Answer 190

Collection of movement disorders that are typically seen due to disruption of pathways in basal ganglia:

• Bradykinesia
• Rigidity
• Athetosis
• Chorea
• Ballismus
• Tics
• Tremors