Neurology AS Flashcards

Question 1

Q

Gross anatomy of the spinal cord?

Answer

A

From Foramen magnum to L1
Terminates as conus medullaris
Spinal nerves continue inferiorly as corda equina
Denticulate ligament and filum terminale are pial extensions that suspend cord in subarachnoid space.

Question 2

Q

What is the blood supply of the spinal cord?

Answer

A

3 longitudinal vessels.

2 posterior spinal arteries supply the dorsal 1/3
1 anterior spinal artery supplies 2/3
Reinforced by segmental feeder arteries (artery of Adamkiewicz)
Longitudinal veins drain into extradural vertebral plexus.

Question 3

Q

What are the tracts of the spinal cord?

Answer

A

Dorsal Columns
Lateral spinothalamic tract
lateral corticiospinal tract
Thalamic nuclei

Question 4

Q

Where are the dorsal columns organised in the spinal cord?

Answer

A

Most posteriorly.

Composed of the fasciculus gracilis and cuneate fasciculus.
Cuneate is cervical + thoracic and is positioned less posteriorly than gracile (sacral and lumbar).
Sensory tracts moving info upwards.

Question 5

Q

What mode of information do the dorsal columns carry?

Answer

A

Fine touch
Vibration
Proprioception

Cell body in the dorsal root ganglion

Question 6

Q

Where is the decussation of the dorsal columns?

Answer

A

In the medulla forming medial lemniscus

Question 7

Q

Where is the lateral spinothalamic tract situated in the spinal cord?

Answer

A

Organised anterolaterally
Cervical is medial, whilst sacral is lateral.
Also known as the anterior white commisure

Question 8

Q

What mode of information does the lateral spinothalamic tract carry?

Answer

A

Pain and temperature
Cell body in the DRG

Carrying information upwards

Question 9

Q

Where is the decussation of the lateral spinothalamic tract

Answer

A

In the cord, at the entry level.

Question 10

Q

Where is the lateral corticospinal tract situated in the spinal cord?

Motor Pyramidal tracts

Answer

A

These are the pyramidal tracts

- posterio-laterally but also anterior.

Question 11

Q

What mode of information does the lateral corticospinal tract carry?

Answer

A

Motor information

- Cell body in the primary motor cortex.

Question 12

Q

Where is the decussation of the lateral corticospinal tract?

Answer

A

Pyramidal decussation in the ventral medulla

Question 13

Q

Other motor tracts of the spinal cord?

Answer

A

Rubrospinal
Reticulospinal
Vestibulospinal
Olivospinal

Question 14

Q

Other sensory tracts?

Answer

A

Spinocerebellar

Question 15

Q

What are the thalamic nuclei?

Answer

A

VPL: Ventral posteriolateral nucleus
VPM: Ventral posteriomedial nucleus
LGN: Lateral Geniculate Nucleus
MGN: Medial Geniculate Nucleus

Question 16

Q

What is the role of the ventral posteriolateral nucleus?

Answer

A

Somatosensory body - Touch

Question 17

Q

What is the role of the ventral posteriomedial nucleus?

Answer

A

Somatosensory head - Touch

Question 18

Q

What is the role of the lateral geniculate nucleus?

Question 19

Q

What is the role of the medial geniculate nucleus?

Question 20

Q

Role of the cerebellum and basal ganglia?

Answer

A

Output to cortex via thalamus

- Regulation of posture, locomotion, coordination and movement.

Question 21

Q

Role of internal capsule?

Answer

A

White matter carrying axonal fibres from motor cortex to pyramids of medulla

An infarction here –> Contralateral hemiparesis

Question 22

Q

Role of the frontal lobe?

Answer

A

Cognition and memory
Executive function
Motor cortex
Dominant hemisphere: motor speech (Broca’s Area).

Question 23

Q

Role of the parietal lobe?

Answer

A

Sensory cortex

Body orientation - Visuospatial processing

Question 24

Q

Role of temporal lobe

Answer

A

Memory

Dominant hemisphere: receptive language (Wernicke’s - language comprehension).

Question 25

Q

Homunculus structure?

Answer

A

Medially, the feet, legs, then head.

Laterally, hand, nose, upper lip.

Question 26

Q

Anterior cerebral circulation?

Answer

A

Medial top band of brain.
Therefore occlusion = paralysis or weakness of foot and lef on the opposite side.

Cortical sensory loss in opposite foot and leg

Question 27

Q

Middle cerebral

Answer

A

Bulk of lateral surface of hemisphere
Superior division of Broca’s area = language expression (resulting aphasia) (anterior branch of MCA)
INferior devision supplies lateral temporal lobe (location of Wernicke’s areas - Language comprehension
(posterior branch of MCA)

Lesion is located in the superior temporal gyrus.

Question 28

Q

Posterior cerebral artery

Answer

A

Supplies occipital lobe, cerebellum and brainstem.

Vertebral arteries

Basilar artery splits
Can get PICA (posterior inferior cerebellar artery) = Lateral medullary syndrome
Anterior inferior cerebellar artery

Question 29

Q

Long tracts of the motor pathway?

Answer

A

Descending motor pathway (UMN) 
- From motor cortex
            V
-  internal capsule
            V
- Midbrain
            V
- Pons
            V
- Medulla
            V
- Decussation of pyramids (cross over) 
            V
- Cervical cord 
- Thoracic cord 
etc

Question 30

Q

Long tracts of the dorsal column pathway? Sensory (proprioception, fine touch, vibration)

Answer

A

- Post-central gyrus
            V
-  Thalamus (VPL) 
            V
- Midbrain
            V
- Pons (becoming the medial lemniscus)
            V
- Medulla (cross over of medial lemniscus (becomes nucleus gracilis, nucleus cuneate)
            V
- Decussation of pyramids (cross over) 
            V
- Cervical cord 
- Thoracic cord 
etc

Question 31

Q

Long tracts of the spinothalamic pathway? Sensory (pain + temperature)

Answer

A

- Post-central gyrus
            V
-  Thalamus (VPL) 
            V
- Midbrain
            V
- Pons (becoming the medial lemniscus)
            V
- Medulla 
            V
- Cervical cord 
- Thoracic cord 
etc
- Lumbar 
            V
- CROSS OVER THEN

Question 32

Q

12 cranial nerves?

Answer

A

I - Olfactory
II - Optic
III - Oculomotor
IV - Trochlear
V - Trigeminal
VI - Abducens
VII - Facial
VIII - Vestibulocochlear
IX - Glossopharyngeal
X - Vagus
XI - Accessory
XII - Hypoglossal

Question 33

Q

Nuclei of the cranial nerves?

Answer

A

All cranial nerves have a nucleus that are present in the brainstem EXCEPT the optic and olfactory (I + II).

Question 34

Q

Mid-brain contains nuclei of which cranial nerves?

Answer

A

Mid- brain houses oculomotor nerve (III) and trochlear nerve (IV).

Question 35

Q

Pons contains nuclei of which cranial nerve?

Answer

A

Trigeminal (V) (M+S)
Abducens (VI)
Facial nerve (VII)
Vestibulocochlear (VIII)

Question 36

Q

Medulla contains nuclei of which cranial nerve?

Answer

A

Glossopharyngeal (XI)
Vagus (X)
Accessory (XI)
Hypoglossal (XII)

Rule of S + M

Question 37

Q

What is special about Trigeminal (V)

Answer

A

Sensory and motor nerve fibres from 4 nuclei

Question 38

Q

What is the structure of the NMJ + Stages of synaptic conduction?

Answer

A

Presynaptic voltage-gated Ca2+ channels open –> Ca influx
ACh vesicles released from presynaptic terminal
Ach diffuses across cleft
Ach binds to NICOTINIC receptors on post-synaptic terminal
–> Na+ influx –> Depolarisation –> Ca2+ release from SR –> Muscle contraction
Ach is degraded by acetylcholinesterase and choline is taken up into presynaptic terminal

Question 39

Q

What drug is used to block presynaptic choline uptake?

Answer

A

Hemicholinium

Question 40

Q

What drug blocks ACh vesicle fusion?

Answer

A

Botulinum

Lambert-Eaton Myasthenic Syndrome

Question 41

Q

Which drugs block nicotinic ACh receptors?

Answer

A

Antimuscarinic blocks muscarinic Ach
Antinicotonic block nicotonic receptors.

Non-depolarising: Atracurium, vecuronium

Depolarising: suxamethonium - paralysis therefore short-term paralysis as part of GA.

Question 42

Q

Antimuscarinic agents?

Answer

A

Antipsychotics (clozapine) 
Atropine
Tropicamide
Scopolamine
Atropine

Question 43

Q

Antinicotinic agents?

Answer

A

Bupropion

Hexamethonium

Question 44

Q

What are the dopamine pathways of the CNS?

Answer

A

Mesocorticolimbic
Nigrostriatal
Tuberoinfundibular

Question 45

Q

Role of Mesocorticolimbic in disease?

Answer

A

Schizophrenia

Question 46

Q

Role of Nigrostriatal in disease?

Answer

A

Parkinson

Question 47

Q

Role of tuberoinfundibular?

Answer

A

Hyperprolactinaemia

Question 48

Q

Sympathetic Nervous System structure?

Answer

A

Autonomic nervous system
Cell Bodies from T1-L2.
Response to fight-flight or freeze.
Supplied form the spinal cord, to the left + right ganglia.

Question 49

Q

Where do general visceral efferent fibres synapes to in the sympathetic nervous system?

Answer

A

Paravertebral ganglia
Prevertebral ganglia
Chromaffin cells of adrenal medulla

Question 50

Q

How are preganglionic fibres different to postganglionic fibres?

Answer

A

Pre = Myelinated + release ACh @ nicotinic receptors
Post = Unmyelinated + release noradrenaline @ adrenergic receptors (except @ sweat glands where they reelase ACh for muscarinic receptor)

Question 51

Q

What are the parasympathetic nerve system cranial nerves?

Answer

A

Rest and digest/ Feed and Breed. Arousal, salivation, lacrimation, urination, digestion, defectation.

3 - Ciliary Ganglion for eye
7 -
- Pterygopalatine: mucus membranes of nose, palate + lacrimal gland
- Submandibular: submandibular and sublingual glands

9 - Otic: Parotid gland

10 - Vagus (thoracic and abdo viscera)

Sacral: Pelvic splanchnic nerves (S2-4) innervate pelvic viscera.

Question 52

Q

What is the difference between preganglionic and post ganglion parasympathetic fibres?

Answer

A

Pregang = ACh @ nicotinic receptors 
Postgang = ACh @ muscarinic receptors

Question 53

Q

All nuclei except 4 in Cranial nerves?

Answer

A

All except 4 innervate ipsilateral side.

Fibres from trochlear nucleus decussate in medulla + supply contralateral superior oblique muscle.

Question 54

Q

Vestibulo-ocular pathways?

Answer

A

Vestibulo-ocular reflex (VOR)

Axons from vestibular neurons project via MLF to abducens and oculomotor nuclei.
Head turns L –> Eyes turn R

Question 55

Q

Absent Doll’s Eye Sign

Answer

A

Brainstem death

Question 56

Q

Caloric Test physiology?

Answer

A

Warm –> Increasing firing of vestibular nerve –> eye turn to contralateral side with nystagmus to ipsilateral side.

Fast direction of nystagmus COWS
Cold: opposite
Warm: Same

Absence = brainstem damage on side being tested

Question 57

Q

Visual Field Defects? Central Scotoma?

Answer

A

Blind Spot or due to MS

Question 58

Q

Visual Field Defects? Monocular vision loss?

Answer

A

Damage of the optic nerve

Question 59

Q

Bitemporal hemianopia?

Answer

A

Damage at the optic chiasm

Upper quadrant defect > lower quadrant defect = inferior chiasmal compression, from pituitary tumour

Lower quadrant defect > upper quadrant defect = superior chiasmal compression, commonly a craniopharyngioma. This may cause a diabetic insipidus.

Question 60

Q

Contralateral homonymous hemianopia

Answer

A

Therefore a left contralateral homonymous hemianopia means there is damage to the right hand side. Defect is on the left.

Due to damage at the optic tract. = Incongruous defect

Also due to damage at the whole of the optic radiation. = congrous defect.

Also due to damage of the entire calcarine fissure.

Question 61

Q

Contralateral superior quadrantanopia?

Answer

A

Damage at the right Meyer’s Loop in the right temporal radiation.
Temporal = Superior

Superior TEMPO

Question 62

Q

Contralateral inferior quadrantanopia

Answer

A

Damage at the calcarine fissure at the parietal lobe
Inferior quadrantanopia
Remember left inferior quadrantanopia = right parietal lobe lesion.

Question 63

Q

Homonymous hemianopia with central macular sparing?

Answer

A

Lesion at occipital pole - Contralateral. Lesion of the occipital cortex

Question 64

Q

Pupillary light reflex? Optic nerve damage to left?

Answer

A

Left direct reflex is lost. When left eye is stimulated, neither pupil constrict.

Right consensual reflex is lost. When left eye is stimulated, right does not constrict.

Right direct reflex is intact. Right constricts when signs.

Left consensual is intact as it relies on the oculomotor nerve.

Answer 63

A

Retina on left and right
Travels down optic nerve either side.
Cross overs at retectal N to contralateral and ipsilateral Edinger-Westphal nuclei.
Then travels down CN3 (oculomotor) to the ciliary sphincter.

Answer 64

A

Left direct is lost
Right consensual reflex is intact
Right direct reflex is intact.
Left consensual reflex is lost.

Answer 65

A

Person with abnormal left direct + abnormal right consensual reflex
Afferent pupillary defect.

Answer 66

A

Hyperreflexia proximally in arm or leg

Answer 67

A

Contralateral hemiparesis with pyramidal distribution
Lesions with epilepsy, decrease cognition of homonymous hemianopia = In cerebral hemisphere
Lesion with contralateral CN palsy = brainstem lesion on the side of the palsy (e.g Milliard-Gubler syn)

Answer 68

A

Quadriparesis/paraparesis

Motor and reflex level: LMN signs at level of lesion and UMN sign below

Answer 69

A

Usually distal weakness
GBS weakness is proximal (root involvement)
Single nerve = Mononeuropathy: trauma or entrapment
Several nerves = mononeuritis multiplex: Vasculitis or DM.

Asymmetrical involvement of individual non-contiguous nerve trunks.

Answer 70

A

increased tone ± clonus
Hyperreflexia
Up-going plantars
pyramidal weakness:
extensors in UL (weak extensor)
flexors in LL (weak flexor)
No wasting

Motor cells in pre-central gyrus to anterior horn cells in the cord.

Answer 71

A

Decreased tone/flaccidity
Hyporeflexia
Down-going plantars (normal
Wasting
Fasciculations

Anterior horn cells to peripheral nerves

Answer 72

A

Symmetrical loss
reflexes lost later vs neuropathies
No sensory loss
Fatiguability in myasthenia

Answer 73

A

Pain + temp travel along spinothalamic tracts

- Touch, joint and vibration travel in large fibres peripherally + dorsal column centrally.

Answer 74

A

Neuropathy

Answer 75

A

Hallmark of cord lesion

Hemi-cord lesion –> Brown-Sequard Syndrome
Ipsilateral loss of proprioception + vibration and UMN weakness with contralateral loss of pain + temp

Answer 76

A

Selective loss of pain and temp with conservation of proprioception and vibration
Occurs in cervical cord lesions e.g syringomyelia

Answer 77

A

Dydiadochokinesia
Dysmetria: past-pointing
Ataxia
Nystagmus
Intention Tremor
Speech: slurred, staccato, scanning dysarthria
Hypotonia

Head: head tremor (titubation) eye nystagmus and dysarthria (Speech - British Constitution)

Arms: rebound pehomenon, intention tremor, past pointing.

LEgs: heel-shin, ataxic gait, Romberg’s negative.

Cerebellar hemisphere - finger-nose ataxia.

Cerebellar vermis - Gait ataxia.

Answer 78

A

PASTRIES

Paraneoplastic: e.g from bronchial Ca
Alcohol: thiamine
Sclerosis
Tumour: e.g CPA lesion
Rare: MSA, Friedrich’s, Ataxia Telangiectasia
Iatrogenic: phenytoin
Endo: hypothyroidism
Stroke: vertebrobasilar

Answer 79

A

Supplies frontal and medial part of cerebrum
Contralateral motor/sensory loss in the legs >arms
Face is spared
Abulia (pathological laziness)

Answer 80

A

Supplies lateral and external part of hemisphere
Contralateral motor/sensory loss in face and arms > legs
Contralateral homonymous hemianopia due to involvement of optic radiation.
Cognitive changes
Dominant (L): aphasia (Broca’s)
Non-dominant (R): neglect, apraxia.

Broca's = inferior frontal gyrus. expressive. Comprehension is normal, but speech is non-lfuent, laboured and halting. 
Wernicke's = receptive aphasia - superior temporal gyrus. Sentences make no sense, speech remains fluient and comprehension is impaired.

Dominant is normally left. Therefore the middle cerebral artery supplies both Wernicke’s and Broca’s area.

Answer 81

A

Supplies occipital lobe

Contralateral homonymous hemianopia with macula sparing

Answer 82

A

Supplies cerebellum, brainstem and occipital lobes.
Combination of symptoms
: Visual: hemianopia, cortical blindness
Cerebellar: DANISH
CN Lesions
Hemi-/quadriplegia
Uni/bilateral sensory symptoms.

Answer 83

A

PICA: Ipsilateral: facial pain and temperature loss
Contralateral: limb/torso pain and temperature loss
Ataxia, nystagmus

AICA: Symptoms are similar to Wallenberg’s (see above), but:
Ipsilateral: facial paralysis and deafness

It is an important syndrome to be aware of as it is most often due to a stroke affecting the posterior inferior cerebellar artery (PICA). It is the most commonly survived stroke that affects the brainstem and is commonly used as an exam question scenario. Given her symptoms, this would be in keeping with a right-sided posterior inferior cerebellar artery infarct.

An anterior inferior cerebellar artery infarct would present in the same way but with the additional symptoms of a same-sided facial weakness and loss of hearing. A basilar artery infarct would result in a locked-in syndrome where the patient is unable to move or communicate but is fully conscious. Both of these are more likely to affect the autonomic centres in the medulla and are associated with a higher mortality.

Answer 84

A

Pontine lesions (e.g infarc) 
Effects: 6th (can't look laterally) and 7th CN palsy + contralateral hemiplegia.

Answer 85

A

Pt is aware + cognitively intact but completely paralysed except for eye muscle

Causes
- Ventral pons infarction: basilar artery. Secondary to hypertension. Reduced GCS, quadriplegia, miosis, absent horizontal eye movement. Pinpoint pupils point to pons.

Central pontine myelinolysis: rapid correction of hyponatreamia

Answer 86

A

Causes: Acoustic neuroma, meningioma, cerebellar astrocytoma, metastasis

Leads to a ipsilateral CN5,6,7,8 + cerebellar signs

Answer 87

A

Subclavian A stenossi proximal to origin of vertebral A may_-> blood being stolen from this vertebral artery by retrograde flow

Syncope/presyncope or focal neurology using the arm
BP difference of >20mmHg between arms.

Answer 88

A

Infarction of spinal cord in distribution of anterior spinal artery: ventral 2/3 of cord.
Causes: Aortic Aneurysm dissection or repair
Effects
Para/Quadriparesis
Impaired pain and temperature sensation
Preserved touch and proprioception

Answer 89

A

Cerebrum

Vascular: infarct, haemorrhage
Inflammation: MS
SOL
Infection: Encephalitis, abscess

Cord

Vascular: Anterior spinal artery infarction
Inflammation: MS
Injury

Anterior Horn
- MND, polio

Answer 90

A

- Motor Nerves
Mononeuropathy: compression
Polyneuropathy: GBS, CMT
- NMJ 
GB, LEMS, Botulism
- Muscle
Toxins: steroids
Poly/dermatomyositis
Inherited: DMD, BMD, FSH

Answer 91

A

Basal:

PD
Parkinsonism: MSA, PSP, Lewy Body Dementia, CBD

Hypokinetic (parkinsons)
Hyperkinetic (Huntington’s)

Answer 92

A

Cord: Compression, trauma, hereditary spastic paraparesis, syringomyelia, transverse myelitis

Bihemispheric: CP, MS

Answer 93

A

Hemisphere lesion: CVS, MS, SOL

Hemicord: MS, tumour

Answer 94

A

Polyneuropathy: CMT (charcot-marie tooth), GBS

Corda equina

Answer 95

A

Ant horn: Polio
Radicular: L5 root lesion
Sciatic/common peroneal nerve: trauma, DM.

Weakness of hip abduction is L5 radiculopathy.

Answer 96

A

Motor Neuron Disease
Friedrich’s ataxia - Same as SCD but with cerebellar ataxia.
Subacute combined degeneration of the cord =

First to go is the dorsal column with joint position and vibration.

bilateral spastic paresis (damage to lateral columns) bilateral loss of proprioception and vibration sensation (damage to posterior columns) leading to sensory ataxia and positive romberg’s test. Bilateral limb ataxia (damage to peripheral nerve) - absent ankle and knee jerk.

Answer 97

A

Cord

Anterior Horn: MND, polio
Syringomyelia

Roots
- Compression: spondylosis, neurofibroma

Brachial Plexus
-  Compression 
Cervical rib
Tumour: Pancoast's, breast
- Avulsion: Klumpke's palsy

Neuropathy 
- Generalised: Charcot Marie Tooth
- Mononeuritis multiplex: DM
- Compressive mononeuropathy 
Median: thenar wasting 
Ulnar: hypothenar and interossei wasting

Muscle

Disuse: RA
Compartment syndrome: Volkman’s ischaemia
Distal myopathy: myotonic dystrophy
Cachexia

Answer 98

A

(all Romberg’s +ve)

Meniere’s
Viral Labyrinthitis
Brainstem Lesion

Answer 99

A

Ataxic

ETOH
Infarct

Wide-based gait, loss of heel to toe pattern and instability.

Answer 100

A

Dorsal columns: B12 deficiency
Peripheral Neuropathy: DM, ETOH, Uraemia

Visual Loss

Answer 101

A

Stokes-Adams Attack = collapse without warning and loss of consciousness.

Bradycardia: heart block, sick sinus, Long QT
Tachycardia: SVT, VT
Structural

Weak heart: LVF, tamponade
Block: AS, HOCM, PE, ACS

Answer 102

A

Vagal overactivity

Vasovagal syncope
Situational: cough, effort, micturition
Carotid sinus syncope

Sympathetic underactivity= postural hypotension
- Salt deficiency: hypovolaemia, Addison’s
- Toxins
Cardiac: ACEi, diuretics, nitrates, a-B
Neuro: TCAs, benzos, antipsychotics, L-DOPA
- Autonomic neuropathy: DM, Parkinson’s, GBS
Dialysis
Unwell: chronic bed-rest
Pooling, venous: varicose veins, prolonged standing (orthostatic hypotension) .

Answer 103

A

Vertebrobasilar insufficiency: migraine, TIA, CVA, Subclavian steal
Shock
HTN: phaeochromocytoma

Answer 104

A

Metabolic: decreased glucos
Resp: hypoxia, hypercapnoea
Blood: anaemia, hypervisocity

Answer 105

A

Epilepsy

Drop Attacks

Answer 106

A

Postural HTN: difference of >20/10 after standing for 3 mins vs lying down - Orthostatic hypotension
Cardiovascular assessment
Neurological assessment

Answer 107

A

ECG ± 24hr ECG
U+E, FBC, Glucose
Tilt table (confirms dysautomomia for neuro)
EEG, Sleep EEG
Echo, CT, MRI brain

Answer 108

A

Trigger: Exertion, drug, unknown

Before: Palpitations, chest pain, dyspnoea

During: pale, slow/absent
pulse, clonic jerks may occur

After: Rapid recovery

IX: ECG, 24hr ECG, Echo

Answer 109

A

Trigger: prolonged standing, heat, fatigue, stress, emotional upset
Before
- Gradual onset: sec–> mins
- Nausea, pallor, sweating, tunnel vision, tinnitus.
- Cannot occur lying down

During

Pale, grey, clammy, brady
Clonic jerks and incontinence can occur, but no tongue biting

After: rapid recovery

Ix: Tilt-table testing

Answer 110

A

Prodrome of sweating, pallor and N+V before a transient LOC are suggestive of a reflex syncope.
Most common cause.

Defined as SBP fall of at least 20mmHg within 3 mins of standing.

Trigger: standing up
Before, during and after same as vagal above

Ix: Tilt-table testing

Answer 111

A

Trigger: Arm elevation (Subclavian steal), migraine

Before, during and after same as vasovagal ± brainstem signs (diplopia, nausea, dysarthria

Ix: MRA, duplex vertebrobasilar circulation

Answer 112

A

Hypoglycaemia: tremor, hunger, sweating, light-headedness –> LOC

Answer 113

A

Trigger: flashing lights, fatigue, fasting

Before: aura in complex partial seizures - feeling strange, epigastric rising, deja/jamais vu, smells, lights, automatisms

During: tongue biting, incontinence, stiffness –> Jerking, eyes open, cyanosis, Decreased SpO2.

After: headache, confusion, sleeps, Todd’s palsy.

Ix: EEG, increased SE prolactin at 10-20mins (greater than 2x baseline indicates generalise tonic clonic seizure). Check glucose, WBC, electrolytes.

Answer 114

A

No trigger. No warning.
During: Sudden weakness of legs causes older woman to fall to ground.
No post-ictal phase.

Answer 115

A

The illusion of movement: usually rotatory
Of patients or surrounding
Worse on movement

Answer 116

A

Faintness
Light-headedness
Lost awareness

Answer 117

A

With impaired consciousness = blackout

Without impaired consciousness:

Vertigo: Vestibular in nature
Imbalance: vestibular, cerebellar, extrapyramidal

Answer 118

A

IMBALANCE

Infection/Injury

Labyrinthitis: post-viral severe vertigo, n/v, hearing loss
Ramsay Hunt (shingles of facial nerve)
Trauma: to petrous temporal bone

Investigation with audiogram, Rinne’s and Weber’s test. Will show a sensorineural hearing loss. Previous viral infection.

Answer 119

A

Recurrent vertigo (~20mins) ± n/v
Fluctuating SNHL (sensorineural hearing loss)
Tinnitis
Aural fullness (ear feeling full)

Answer 120

A

Sudden vertigo proved by head rotation. Short lived experience. Free-floating endolymph particles otoconia).
- Episodic vertigo.

Answer 121

A

Aminoglycosides/Frusemide

Lymph, peri, fistula
Path: Connection between inner and middle ears
Causes: congenital, truama
PC: vertigo, SNHL
O/E: tulio’s phenomenon - nystagmus evoked by loud sound

Arterial

Migraine
TIA/Stroke

Nerve
- Acoustic Neuroma/Vestibular schwannoma

Central lesions
- Demyelination, tumour, infarction

Epilepsy
- Complex partial

Answer 122

A

WIDENING

Wax or foreign body
Infection: Otitis media, OME
Drum perforation
Extra: ossicle discntinuity - otosclerosis, trauma
Neoplasia: carcinoma
Injury: Barotrauma
Granulomatous: Wegener’s, Sarcoid

Answer 123

A

Development

Genetic: Alport’s
Congenital: TORCH
Perinatal: Anoxia

Degenerative
- Presbyacusis

Infection

VZV, Measles, Mumps, Influenza
Meningitis

Vascular

Ischaemia: Interal Auditory Artery - sudden hearing loss and vertigo
Stroke

Inflammation

Vasculitis
Sarcoidosis

Neoplasia
- CPA tumours: acoustic neuroma (commonest cause of unilateral SNHL)

Injury

Noise
head trauma

Toxins

Gentamicin
Frusemide
Aspirin

Lymph

Endolymphatic hydrops = Meniere’s (abnormal fluctuation of the fluid in the ear).
Perilymphatic fistula: ruptured round window.

Answer 124

A

Regular, rhythmic oscillation

Asterixis = rhythmic myoclonus - tremor of the hand when stretched out

Answer 125

A

Resting
Action/Postural
Intention
Dystonic

Answer 126

A

Features

4-6 Hz, pill rolling
Abolished on voluntary movement
increased with distraction (counting backwards)

Causes: Parkinsonism
Management: Dopamine agonists (levodopa, cabergoline, bromocriptine), antimuscarinic (procyclidine)

Answer 127

A

Features

6-12Hz
Absent at rest
Worse with outstretched hands or movement (part of the essential tremors)
Equally bad at all stages of movement
Can also affect the vocal cords.

Cause

Benign essential tremor
Endo: thyrotoxicosis, decreased glucose, phaeo
Alcohol withdrawal (caffeine, opioids)
toxins, valproate, theophylline
Sympathetic: physiological tremor may be enhanced e.g in anxiety

Answer 128

A

Features

> 6Hz, irregular, large amplitude
worse at the end of movement
E.g past-pointing

Causes: cerebellar damage

Answer 129

A

Variable presentations

Mostly idiopathic, as for dystonia

Answer 130

A

Autosomal dominant
Occurs with action and worse with anxiety, emotion, caffeine
Arms, neck, voice
Doesn’t occur during sleep
Better with ETOH.

Management: Propranolol
Primidone

Answer 131

A

Sudden, involuntary jerks

Answer 132

A

Metabolic = asterixis (L, R, increased CO2)
Neurodegenerative disease
CJD
Myoclonic epilepsies (infantile spasms)

Answer 133

A

AD
Childhood onset frequency generalised myoclonus without progression
May respond to valproate

Answer 134

A

Prolonged muscle contractures –> Unusual joint posture or repetitive movement

Answer 135

A

AD

Childhood onset: starts in one leg, spreads on that side of the body over 5-10 years.

Answer 136

A

Commonest form of dystonia
Confined to one part of the body
worsened by stress
Involves rigidity and writhing movements rather than twitching.

Types

Spasmodic torticolis
Blepharospasm (eyelids)
Oromandibular

Answer 137

A

Torticollis, trismus and or occulogyric crisis
Typically a drug reaction:
Antipsychotics
Metoclopramide
L-Dopa
Rx: Procyclidine (antimuscarinics).

Answer 138

A

Non-rhythmic, purposeless, jerky, flitting movements
Facial grimacing, extending the fingers
Huntington’s
Sydenham’s
Wilson’s
L-Dopa

Answer 139

A

Slow, sinuous, writhing movements
- Causes
Cerebral palsy
Kernicterus

Answer 140

A

Delayed onset following chronic exposure to Da agonists (antipsychotics, antiemetics, L-DOPA).

Dyskinesia: orobuccolingual, truncal
Dystonia: Sustained, sterotyped muscle spasms of twitching or turning
Akathisia: unpleasant sense of inner restlessness ± repetitive movements

Manage: Change to atypical or slowly withdraw drug
Dyskinesia: Da antagonist
Akathisia: B-Blockers.

Answer 141

A

Chronically impaired cognition that affects multiple domains: memory, attention, language

No impairment of consciousness
Acquired and progressive

Answer 142

A

Alzheimer’s
Vascular
Lewy Body
Frontotemporal Dementia (Pick’s)

Answer 143

A

Epi: 50%
Path: neurofibrillary tangles and B amyloid plaques
PC: Progressive, global cognitive decline. Memory loss, loss of recent memory first. Misplacing items, apathy, decline in activities, personality change. IADLs.
RF: ApoE4, presenillin 1/2 mutation, Down’s
Ix: MRI - medial temporal lobe atrophy. MMSE, metabolic panel
Rx: cholinesterase inhibitor (Donepezil, rivastigmine) if MMSE is 10-20.

Answer 144

A

Epi: 20%
Path: multiple infarcts
PC: sudden onset, stepwise deterioration, patchy deficits, vascular RFs.
Ix: MRI - extensive infarcts or small vessel disease
Rx: Manage predisposing factors

Answer 145

A

Epi: 20%
Path: Lewy body in occipito-parital cortex.
PC: Fluctuating cognitive dysfunction, recurrent visual hallucinations, REM sleep behaviour disorder. MAy have a symptom of parkinson’s. Distinguished from parkinson’s in the onset of dementia first.
Rx: Minise antipsychotics, use cholinesterase inhibitors - donepezil/rivastigmine.

Answer 146

A

<5%

Path: Pick bodies
PC: Disinhibition, personality change, early memory preservation, progressive aphasia
Ix: MRI - frontal or temporal atrophy

Answer 147

A

Infection

viral: HIV, HSV, PML
Helminth: cysticercosis, toxi

Vascular
- Chronic subdural haematoma

Inflammation

SLE
Sarcoid

Neoplasia

Nutrition

Thiamine deficiency
B12 and folate deficiency
Pellagra (B3/niacin deficiency)

Endocrinology

hypothyroidism
Hypoadrenalism
Hypocalcaemia
Hypocephalus (normal pressure)

Answer 148

A

Globally impaired cognition and impaired consciousness

Answer 149

A

Disorientation of person, time and place
Reversal of sleep-wake cycle (hyperactive at night)
Labile mood
illusions, delusions and hallucinations
Cognitive impairment: memory, language, concentration

Answer 150

A

DELIRIUMS

Drugs : opiods, sedatives, L-DOPA
Eyes, ears and other sensory deficit
Low O2 states: MI, stroke, PE
Infection: UTI
Retention: stool or urine
Ictal
under-hydration/nutrition
Metabolic: DM, post-op, sodium, uraemia
Subdural haemorrhage or other intracranial pathology

Answer 151

A

Bloods: FBC, U+E, LFTs, glucose, ABG
Urine Dip
Septic Screen
ECG, LP

Confusion screen = B12/folate, macrocytic anaemia and deficiencies worsen confusion.

Answer 152

A

ID and Rx underlying cause
Surround with familiar people
Nurse in moderately lit, quiet room
Find glasses, hearing aids
Avoid sedatives if possible, but if disruptive:
- Haloperidol 0.5-2mg
- Chlorpromazine 50-100mg PO/IM (avoid in elderly)

Answer 153

A

Common

Acute sinusitis
Otitis media
Menstrual headache
Medication withdrawal/overuse
Migraine
Tension headache
Cerebrovascular incident

ACUTE: Vicious 
- Vascular 
Haemorrhage: SAH, intracranial, intracerebral, intraventricular
Infarction: esp. posterior circulation
Venous: Sinus/cortical thrombosis

- Infection/Inflammation
Meningitis
Encephalitis
Abscess
trigeminal neuralgia

Compression
Obstructive hydrocephalus:tumour
Pituitary enlargement: apoplexy

ICP
- Spontaneous intracranial hypotension
Acute dural CSF leak
Worse on standing initially

Ophthalmic
- Acute Glaucoma

Unknown

Situational: cough, exertion, coitus.
medication overuse/withdrawal
Dental caries/wisdom tooth

Systemic

HTN: Phaeo, PET
Infection: sinusitis, tonsillitis, atypical pneumonia
Toxins: CO

Answer 154

A

MCD TINGS 
- Migraine
- Cluster Headache 
- Drugs 
Analgesics
Caffeine 
Vasodilators: Ca2+ antagonists, nitrates

Tension headaches

ICP increased/decreased

Increased: tumour, aneurysm, AVM, benign intracranial HTn
Decreased: Spontaneous intracranial hypotension

Trigeminal Neuralgia

GCA

Systemic

HTN
Organ failure e.g uraemia

Answer 155

A

Bloods
Urine
Micro
Blood cultures
Serology: enterovirus (common cause if viral meningitis), HSV, HIV, Syphilis, crypto
CSF
Radiology
Non-contrast CT
SAH: blood in sulci, cisterns (white). 90% sensitivity in first 24hr
MRI: MRA - aneurysm
MRV: sinus thrombosis

Answer 156

A

Opening pressure (normal = 5-20cm H20):

increased: SAH, meningitis
decreased: spontaneous intracranial hypotension

Answer 157

A

Yellow appearance of CSF due to bilirubin. Detected by spectrophotometry. Can show evidence of a subarachnoid haemorrhage.

If no answer here then cerebral angiography.

Answer 158

A

Appearance - Turbid 
Cells - PMN
Count - 100-1000
Glucose - decreased (<1/2 plasma) 
Protein - Increased x2 (>1.5)

Answer 159

A

Appearance - fibrin web
Cells - lympho/mononuc
Count - 10-1000
Glucose - Decreased (<1/2 plasma) 
Protein - Very very high (X3)

Answer 160

A

Appearance - Clear
Cells - Lympho-mononuclear
Count - 50-1000
Glucose - >1/2 plasma
Protein - mild increased (<1)

Answer 161

A

Sudden onset, worse ever, occipital headache

- Meningism, focal signs, decreased consciousness

Answer 162

A

Rapid onset of symptoms
Unilateral.
Can be septic or aseptic (trauma, prothrombotic feature)
Can have fever, ptosis, reduced corneal reflex, retinal-vein dilatation.

Sagittal: headache, vomiting, seizures, decreased vision, papilloedema

Transverse: headache ± mastoid pain, focal CNS signs, seizure, papilloedema

Need a contrast enhanced high res CT of head.
Contrast-enhanced MRI of head
Blood cultures
Factor V Leiden

Answer 163

A

Fever, photophobia, neck stiffness, Kernig’s +ve
Purpuric rash
Decreased consciousness

Answer 164

A

Fever
Odd behaviour/confused
fits
focal neurology (complicated by temporal lobe may give motionless stare or confusion)
Decreased consciousness

Investigation
CSF: lymphocytosis, elevated protein
PCR for HSV
CT: medial temporal and inferior frontal changes (e.g. petechial haemorrhages) - normal in one-third of patients
MRI is better
EEG pattern: lateralised periodic discharges at 2 Hz

Answer 165

A

Constant unilateral eye pain, radiating to forehead
Decreased acuity, haloes, n/v
Red eye, cloudy cornea
Dilated non-responsive pupil

Answer 166

A

Bilateral/vertex-bitemporal

- Non-pulsatile, bandlike headache.

Answer 167

A

Thunderclap headache
Stroke-like focal symptoms over days
Focal seizures are common

Answer 168

A

Prodrome –> aura –> headache

Unilateral, throbbing
n/v phono/photophobia

Answer 169

A

Alcohol may trigger an attack. Occurs in smokers.

Rapid onset very severe pain around/behind eye
Red, watery eye, nasal congestion
Miosis, ptosis
Attacks last 15mins -3hrs, 1-2x a day.
Mostly nocturnal
Clusters last 4-12 weeks, remission lasts 3months - 3yrs.

Management: 100% O2 via non-rebreathe mask, sumitriptan

Prevention: verapamil, topiramate, Li.

Answer 170

A

Constriction of eye

Answer 171

A

Dropping of eyelid

Answer 172

A

Dilation of the pupil of eye

Answer 173

A

Paroxysms of unilateral intense stabbing pain in trigeminal distribution (usually V2/V3).

triggers: washing area, shaving, eating ,talking
Male >50yrs (refer if less than 50)
2ndry in 14%: compression of CNV, MS, Zoster, Chiari malformation
Exclude 2nd cause by MRI

Management: carbamazepine, lamotrigine, gabapentin

Management surgery: microvascular decompression

Answer 174

A

Episodic headache becomes daily chronic headache

- Use OTC analgesia on 6 days/month max

Answer 175

A

Increased ICP: worse in AM, stooping, visual problems (papilloedema), obese women
decreased ICP: worse sitting or standing

Answer 176

A

Worse on lying down
Pain wakes patient up
Present when waking up
Unexplained weight loss
Focal neurological deficit
N/V
Seizures
Vomiting more than once with no cause
New neurological deficit
Reduction in conscious level
Valsalva (coughing or sneezing headache)
Progressive headache with fever)

2 or more red flag are present an urgent CT should be performed as the likelihood of a serious intracranial pathology is high.

Answer 177

A

Preauricular pain on chewing
Associated with crepitus
Earache, headache

Answer 178

A

Unilateral temple/scalp pain and tenderness
Thickened, pulseless temporal artery
Jaw claudication
amaurosis fugax,
sudden blindness
Associated with PMR in 50%

Ix: ESR very high, platelets raised, ALP raised, HB reduced, temporal artery biopsy

Management

High dose prednisolone (60mg) for 5-7 days
guideed by symptoms and ESR
Give PPI + bisphosphonates
Prognosis: 2yr course then complete remission

Answer 179

A

Family history 
High caffeine intake
Obesity
Female
Stress life event 
Lack of sleep

Answer 180

A

Vascular: cerebrovascular constriction –> aura, dilatation –> headache

Brain: spreading cortical depression

Inflammation: activation of CN V nerve terminals in meninges and cerebral vessels

Answer 181

A

Chocolate
Cheese
OCP - contraindicated due to increased risk of stroke. 
Caffeine
Alcohol 
Anxiety
Travel
Exercise

Answer 182

A

Headache- Aura lasting 15-30 mins then unilateral, throbbing headache

Phono/photophobia
N/V
Allodynia (pain in response to touch etc)
Often premenstrual
Prodrome: precedes migraine by hrs - days
Yawning
Food cravings
Changes in sleep, appetite, mood.
Aura: precedes migraine by mins + may persist
Visual: distortion, lines, dots, zig-zags, scotoma. Hemianiopic disturbance - spreading scintillating scotoma.

Are fully reversible, develop over at least 5 mins, lasts 5-60 minutes.

hemianopia
Sensory: Paraesthesia (Fingers –> Face)
Motor: dysarthria, ataxia, ophthalmoplegia. May have a hemiplegia.
Speech: Dysphasia, paraphasia

Answer 183

A

Migraine with aura (classical migraine) - 25% of patients

Migraine without aura (common migraine)

Answer 184

A

Typical aura + headache or
> 5 headaches lasting 4-72hrs with either N/v or photo/phonophobia + >2:
Unilateral
Pulsating
Interferes with normal life
Worsened by routine activity

During headache at least one of the following:

1. nausea and/or vomiting
1. photophobia and phonophobia

Answer 185

A

Cluster/tension headache
Cervical spondylosis
HTN
Intracranial pathology
Epilepsy

Answer 186

A

Acute episode
NICE = oral triptan + NSAID/paracetamol
(diclofenac/aspirin) + M/D

2nd: Paracetamol + metoclopramide/domperidone
(metoclopramide can cause extrapyramidal SE)
3rd: Rizatriptan (CI: IHD, Uncontrolled HTN, SSRI)

Answer 187

A

Avoid triggers
1st line: Propranolol, topiramate. Propranolol instead of topiramate in child bearing age.
2ns line: Valproate, pizotifen (increased weight) gabapentin

Answer 188

A

Rupture of saccular aneurysms (80%)
AVMs
Anticoagulants

Answer 189

A

Smoking
HTN
ETOH
Bleeding diathesis
Mycotic aneurysms (SBE)
FH (close relatives have 3-5x isk)

Answer 190

A

Junction of the posterior communicating with internal carotid artery
Anterior communicating with anterior cerebral artery
Middle cerebral artery bifurcation

Answer 191

A

Adult Polycystic kidneys
CoA
Ehler’s Danlos

Answer 192

A

Sudden, severe occipital headache
Collapse
Meningism: neck stiffness, n/v, photophobia
Seizures
Drowsiness –> coma

Answer 193

A

Kernig’s +ve (flex hips, and knee at 90 degree, extension of knee causes back pain)
Retinal or subhyaloid haemorrhage
Focal neuro
@presentation suggests aneurysm location
Later deficits suggests complications

Answer 194

A

Around 6% of patients experience sentinel headache from a small warning bleed

Answer 195

A

In primary care, 25% of those with thunderclap headache have SAH

50-60% no cause found
Rest: Meningitis, intracerebral bleed, cortical vein thrombosis

Answer 196

A

Hyponatraemia is very common in these patients and sodium levels are usually closely monitored in the acute period.

CT
- Detects >90% of SAH within first 48hrs
Hyperdense areas in the basal cisterns, sulci + major fissures.

50% of patients have an abnormal ECG

LP

If CT -ve and no CIs >12hr after start of headache.
Xanthochromia due to breakdown of bilirubin
May have normal or raised opening pressure.

On LP = straw coloured, protein.

Refer to Neurosurg as soon as SAH is confirmed

Then confirm SAH with intracranial angiogram +/- digital subtraction angiogram

Answer 197

A

Frequent neuro obs: pupils, GCS, BP
Maintain CPP: Keep SBP >160
CCB vasospasm prophylaxis: Nimodipine 60mg orally every 4hrs for 21 days.
Endovascular coiling (preferable to surgical clipping)

If young unruptured aneurysms >7mm, young patients benefit from surgery.

Answer 198

A

Rebleeding in 20%
Cerebral ischaemia - Due to vasospasm
Hydrocephalus
Due to blockage of arachnoid granulations. Suddenly become unresponsive.

May require ventricular or lumbar drain

hyponatraemia: common and don’t manage with fluid restriction SIADH

Answer 199

A

Rapid onset, focal neurological deficit due to a vascular lesion lasting >24hr

Answer 200

A

Infarction due to ischaemia (80%) or intracerebral haemorrhage (20%)

Answer 201

A

Atheroma (80%)

Large (MCA
Small vessel perforators (lacunar)

Embolism

Cardiac (30%) of strokes: AF, endocarditis, MI
Atherothromboembolism: from carotids

Answer 202

A

Increased BP
Trauma
Aneurysm rupture
Anticoagulation
Thrombolysis

Answer 203

A

Watershed stroke: sudden decreased in BP (e.g sepsis)
Carotid artery dissection
Vasculitis: PAN, HIV
Cerebral vasospasm: 2ndry to SAH
Venous sinus thrombosis
Antiphospholipid syndrome, thrombophilia

Answer 204

A

Hypertension!!!
Smoking 
DM 
Increased lipids
FH
Cardiac: AF, valve disease
Peripheral vascular disease
Previous histroy 
Ethnicity: Increased in blacks and asians 
Increased PCV/Hct
OCP

Answer 205

A

retinopathy
nephropathy
Big heart of CXR

Answer 206

A

ECG± 24hr tape: AF
Echo: mural thrombus,
hypokinesis, valve lesions, ASD, VSD (paradoxical emboli)

Answer 207

A

Doppler US ± Angio

Endarterectomy beneficial if >70% symptomatic stenosis

Answer 208

A

‘Young’ Stroke blood test include thrombophilia and autoimmune screening - performed in those under 55

ANA, APL, ACL, Lupus anticoagulant, coagulation factors, ESR, homocysteine, syphilis.

Thrombophilia screen
Autoimmune
Thrombocytopenia

Answer 209

A

Oxford/Bamford Classification
- Based on clinical localisation of infarct
S = Syndrome: prior to imaging
I = Infarct: after imaging when atheroembolic infarct confirmed

Answer 210

A

Total Anterior Circulation Stroke (TACS)

Highest mortality + poor independence
Large infarct in carotid/MCa, ACA territory.

Has all 3 of

1) Hemiparesis (contralateral) and or sensory deficit (>2 of face, arm and leg)
2) Homonyzmous hemianopia (contralateral)
3) Higher cortical dysfunction
(dysphagia)

Dominant (L usually) dysphasia
Non-dominant: hemispatial neglect

Answer 211

A

Partial Anterior Circulation Stroke (PACS)

Carotid, MCA and ACA territory. Smaller arteries of anterior circulation (upper/lower division of middle cerebral artery)
2/3 TACS criteria, usually:
1) Hemiparesis (contralateral) and/or sensory deficit (>2 of face, arm and leg)
2) Higher cortical dysfunction
Dominant: dysphasia
Non-dom: neglect, constructional apraxia

Deficit is less dense or incomplete.

Answer 212

A

Infarct in the vertebrobasilar territory?
Any of
1. Cerebellar syndrome
2. Brainstem syndrome
3. Contralateral homonymous hemianopia (to the damage). Therefore homonymous hemianopia is on the same side as the paresis.

Lesion in the superior cerebellar artery, PICA or AICA.

Presetns with vertical nystagmus, and ataxia.

Answer 213

A

Presents with

1. Unilateral weakness of face and arm, arm and leg or all three
  1. pure sensory stroke
  2. ataxic hemiparesis

Small infarct around the basal ganglia, internal capsule, thalamus and pons. 
- Absence of
Higher cortical dysfunction
Homonymous hemianopia
Drowsiness
Brainstem signs

Answer 214

A

Pure motor: Post. limb of internal capsule (commonest)
Pure sensory: Posterior thalamus (VPL)
Mix sensorimotor: internal capsule
Dysarthria/clumsy hand
Ataxic hemiparesis: ant. limb of internal capsule - weakness + dysmetria

Answer 215

A

Carotid bruit
AF
Past TIA
IHD

Answer 216

A

Meningism
Severe headache
Coma

Answer 217

A

Hemi/quadrparesis

Answer 218

A

Conjugate gaze palsy (difficulty in moving eyes in the same direction)

Answer 219

A

Horner’s

Answer 220

A

Facial weakness

Answer 221

A

Nystagmus, Vertigo

Answer 222

A

Dysphagia, dysarthria

Answer 223

A

Dysarthria, ataxia

Answer 224

A

Assessment - ROSIER. Exclude hypoglycaemia.
LOC = -1
Seizure activity = -1

New acute onset

Asymmetric facial weakness
Asymmetric arm weakness
Asymmetric leg weakness
Speech disturbance
Visual field defect

Investigations = Non-contrast CT head scan is first line.

ABCDE

Ensure patent airway: consider NGT
NBM until swallowing assessment by SALT
Don’t overhydrate: risk of cerebral oedema

Answer 225

A

Glucose: 4-11mM: sliding scale if DM
BP: <185/110 (for thrombolysis)
Rx of HTN can –> decreased cerebral perfusion
Neuro obs

Answer 226

A

Urgent CT/MRI
Diffusion-weight MRI is most sensitive for acute infarct. T2 weighted

CT will exclude primary haemorrhage (contraindicatons = seizure at onset of stroke, cancer, GI haemorrhage, active bleeding, pregnancy, oesophageal varicies, uncontrolled HTN >200)

Carotid Dopplers (>70% stenosis) - don't treat it because it's done. 
ECG and ECho

24hr tape to identify AF.

Answer 227

A

Consider thrombolysis if 18-80 yr and <4.5hr since onset of symptoms
Alteplase (tPA)

Thrombectomy - pre-stroke status of <3 on Rankin scale. >5 on NIHSS.

OFfer thrombectomy within 6hrs + IV thrombolysis IF acute ischaemic stroke + occlusion of the proximal anterior circulation on CTA.

Offer thrombectomy ASAP between 6-24hr if confirmed occlusion of proximal anterior circulation and if there is a potential to salvage brain tissue shown on DW MRI.

Consider thrombectomy + IV thrombolysis as soon as possible for people last known to be well up to 24hrs.

+ CT 24hr post-thromboylsis to look for haemorrhage

+ ASAP Aspirin 24hr (300mg) once haemorrhagic stroke excluded ± PPI. If outside of the window give aspirin (Clopi is a more chronic drug).

Clopidogrel if aspirin sensitive.

VTE prophylaxis - heparin 5000 units every 12hrs.

Answer 228

A

May coil bleeding aneurysm
Decompressive hemicraniectomy for some forms of MCA infarction.

Stroke Unit

Specialist nursing and physio
Early mobilisation
DVT prophylaxis

Secondary prevention
Rehab

Answer 229

A

Control RFs: HTN, increased lipids, DM, smoking, cardiac disease. Consider statin is cholesterol >3.5.
Consider life-long anticoagulation in AF (use CHADS2)
Carotid endarterectomy if symptomatic 70% stenosis
Exercise

Answer 230

A

Risk factor control as above - Start on a statin

Aspirin/Clopi 300mg for 2 weeks after stroke then either
Clopi 75 OD (preferred)
Aspirin 75mg OD

Warfarin instead of aspirin/clopi if

Cardioembolic stroke or chronic AF

Starts 2 weeks post-stroke (INR 2-3)
Don’t use aspirin and warfarin together. Switch to NOAC.

Carotid endarterecotmy if good recovery + ipsilateral stenosis >70%

Answer 231

A

MDT: Physio, SALT, Dietician, OT, specialist nurses, neurologist, family

Eating

Screen swallowing: refer to specialist (consider PEG/NG)
Screen for malnutrition

Neurorehab: physio and speech therapy (Botulinum can help)

DVT prophylaxis

Sores must be avoided.

Occupational therapy

Impairment
Disability
Handicap

Chronic Risk management

AF start anticoagulation 10-14 days after stroke
HTN
Diabetes
Smoking

Carotid artery stenosis> Don’t forget carotid dopplers in investigations.

Answer 232

A

Sudden onset focal neurology lasting <24hr due to temporary occlusion of part of the cerebral circulation
~15% of 1st strokes are preceded by a TIA.

Answer 233

A

Symptoms usually brief
Global events (syncope, dizziness) are not typical
Signs mimic those of CVA in the same arterial territory

Answer 234

A

Carotid bruits
Increased BP
Heart murmur
AF

Answer 235

A

Atherothromboembolism from carotids is main cause
Cardioembolism: post-MI, AF, Valve disease
Hyperviscosity: poylcythaemia, SCD, myeloma

Answer 236

A

Vascular: CVA, migraine, GCA
Epilepsy
Hyperventilation
Hypoglycaemia

Answer 237

A

Blood glucose: <3.3 = hypo
U+E - Na, K, High Ca
FBC: usually normal
ECG: look for AF
CXR
Carotid doppler ± angiography
Consider diffusion weight MRI

Answer 238

A

In last 7 days = Make urgent assessment within 24hrs by stroke physician.

More than a week = refer to specialist assessment as soon as possible within 7 days.

Time to intervention is crucial
- Avoid driving for 1 month

ACAS
- Antiplatelet therapy =
Aspirin/clopi 300mg/d for 2 weeks then 75mg/d
Add dipyridamole MR to aspirin

Warfarin if cardiac emboli: AF, MI, MS
After 2 weeks

The Royal College of Physicians have published National Clinical Guidelines for Stroke that recommend Carotid endarterectomy for carotid stenosis 50-99% by NASCET criteria, for patients with TIA. The most appropriate initial treatment would therefore be antiplatelet therapy, and a statin would also be indicated.

The National Stroke Guidelines suggest patients with suspected TIA who are at high risk of stroke (e.g. an ABCD2 score of 4 or above) should receive aspirin or clopidogrel (each as a 300 mg loading dose and 75 mg thereafter) and a statin, e.g. simvastatin 40 mg started immediately after specialist assessment and investigation within 24 hours of onset of symptoms.

Therefore she could be given either aspirin or clopidogrel 300mg (as a one-off dose) then to continue on either aspirin or clopidogrel long-term.

Give clopidogrel as first line (aspirin acutely), then aspirin and dipyridamole for patients who cannot tolerate clopidogrel. Give it lifelong.

Don’t give aspirin if patient has bleeding disorder, taking an anticoagulant, patient is already taking low-dose aspirin regularly. Aspirin is contraindicated.

A single TIA patients can start driving if symptom free for 1 month and there is no need for them to inform the DVLA.

If multiple TIA 3 months off driving and inform DVLA.

Answer 239

A

BP, lipids, DM Smoking
Exercise
Diet: decreased salt

Answer 240

A

Within 24hr

Answer 241

A

Within 1 week

Answer 242

A

Age >60
BP >140/90
Clinical Features
1. Unilateral weakness (2 points)
2. Speech distubances w/o weakness
Duration
>1hr = 2 points
10-59 mins
DM
NB: 7 points max

Answer 243

A

Bleeding from bridging veins between cortex and sinuses
Haematoma between dura and arachnoid
Often due to minor trauma that occured a long time previously - especially deceleration injuries.

Acute subdural

Collection of fresh blood within the subdural space and is most commonly caused by high-impact trauma.
CT shows cresentic collection, not limited by suture lines. Appear hyperdense in comparison to brain.

Chronic subdural haematoma

Collection of blood in the subdural space that has been present for weeks to months.
Elderly and alcoholic patients are particularly at risk. Taught bridging veins.

Answer 244

A

Elderly: brain atrophy
Falls: Epileptics, alcoholics
Anticoagulation

Answer 245

A

Headache
Fluctuating GCS, sleepiness that can last for days.
Nausea/Vomiting
Gradual physical or mental slowing
Unsteadiness

SUBDURAL cannot cause meningeal irritation.

Answer 246

A

Increased ICP (can lead to tentorial herniation)

- Localising signs occur late

Answer 247

A

CT-non contrast. Convexity

Crescentic haematoma over one hemisphere
Clot goes from white –> Grey over time (hyperdense to hypodense)
Mid-line shift
Does not respect the suture lines.

Answer 248

A

Try ICP lowering techniques = bed to 30 degrees - reverse Trendelenberg. Hyperosmolar with hypertonic saline? Osmotic diuretics mannitol.

1st line: irrigation/evacuation via burr-hole craniostomy. Two holes made, clot is irrigated using saline.

2nd line: craniotomy/hemicraniectomy + duraplasty.
Address causes of trauma

Answer 249

A

Stroke
Dementia
SOL

Answer 250

A

Often due to fracture of the temporal or parietal bone –> - Laceration of the middle meningeal artery and vein.
Blood between bone and dura.
Suspect if after head injury GCS falls, is slow to improve or there is a lucid interval.

Answer 251

A

Lucid Interval!

Deterioration of GCSe after head injury that caused no LOC, or following initial improvement in GCS
Lucid Interval may be hrs or days.

ICP increased:

Headache
Vomiting
Confusion –> coma
Fits
Ipsilateral blown pupil (3rd nerve palsy)
± hemiparesis with upgoing plantars and increased reflexes.

Brainstem Compression
- Deep irregular breathing (brainstem compression)

Cushing response in response to increased IC Pressure.
increased BP - brain meets perfusion needs by increasing BP.
decreased HR is late.
Irregular breathing (Cheyne Stokes)
Death by cardioresp arrest.

Answer 252

A

CT - will see a lens-shaped haematoma.
Skull # (increased risk of extradural haemorrhage).
- Limited by suture lines

Answer 253

A

Neuroprotective ventilation (O2 >100, CO2 35-40)
Consider mannitol (1g/kg IV via central line)
Craniectomy for clot evacuation and vessel ligation

Answer 254

A

Gradually over days/weeks.
Sinus thrombosis may extended to cortical veins.

Thrombus formation within the cavernous sinus.

Answer 255

A

45% of IVT
Often co-exists if other sinuses are thrombosed
Headache, vomiting, seizures, decreased vision, papilloedema.
Cushing’s reflex

Answer 256

A

35% of IVT

- Headache + mastoid pain, focal neuro, seizures, papilloedema.

Answer 257

A

Cerebellar signs, lower CN palsy

Answer 258

A

5-6th nerve palsies (Gradenigo’s syndrome?)

Answer 259

A

Spread from facial pustules or folliculitis
Headache, chemosis, eyelid oedema, proptosis, painful ophthalmoplegia, fever.
Mostly caused cavernous sinus such as a nasopharyngeal malignancy.

Lateral wall components

Oculomotor nerve
Trochlear nerve
Ophthalmic nerve
Maxillary nerve

Answer 260

A

Often –> venous infarcts with stroke-like focal symptoms that evolve over days
Thunderclap headache
Focal-seizures

Answer 261

A

SAH
Meningitis
Encephalitis
Intracranial abscess
Arterial Stroke

Answer 262

A

Pregnancy/puerperium
OCP
Head injury
Dehydration
Intracranial/extracranial malignancy
Thrombophilia

Answer 263

A

Exclude SAH and meningitis
CT/MRI venography: Absence of a sinus/Contrast CT may show an enlarged sinus.
LP: increased pressure, may show RBCs and xanthochromia?

Answer 264

A

LMWH –> warfarin (INR 2-3).
Fibrinolytic (streptokinase) can be used via selective catheterisation
Thrombophilia screen

Answer 265

A

Meningitic
- Headache

Neck Stiffness
Kernig’s: Straightening leg with hip @ 90
Brudzinski’s: lifting head –> Lifting of legs
Photophobia
N/V

Answer 266

A

Decreased GCS –> Coma
Seizures (20%)
Focal neuro (20% ): E.g CN palsies

Answer 267

A

Fever 
Decreased BP, increased HR
Increased CRT 
Purpuric rash
DIC

Answer 268

A

Neisseria meningitidis (gram negative diplococci)
Strep Pneumo (gram positive diplococci) = 6-60yrs.

Listeria Monocytogenes (gram positive rod)
Haemophilus influenza (gram negative coccobacilli)
Group B strep
TB
Cryptococcus
Virus: Enterovirus (Coxsackie, echovirus), HSV2

0-3 months = GBS, E.coli, Listeria

3months - 6 yrs = Neisseria, Strep pneumonia, Haemophilus

6 yrs - 60 yrs = Neisseria meningitidis, Strep Pneumonia

> 60 = Strep pneumonia, neisseria meningitidis, listeria monocytogenes.

Answer 269

A

LP: MCS, glucose, virology/PCR, lactate/Gram stain.

Bloods: FBC, U+E, Clotting, Glucose, ABG

BLood cultures

Answer 270

A

Community: benpen 1.2g IV/IM
<50: ceftriaxone/cefotaxime 2g IV/IM BD + vancomycin
>50: cetriaxone/cefotaxime + ampicillin (cover listeria)

If viral suspected: aciclovir.

Answer 271

A

ABC

O2 15L - SpO2 94-98%
IVI fluid resus with crystalloid

If mainly septicaemic

Don’t attempt LP
Ceftriaxone 2g IVI
Consider ITU if shocked.

If mainly meningitic

If no shock or CIs do LP
Dexamethasone 0.15mg/kg IV QDS
Ceftriaxone 2g IVI post-LP

For TB treat for 12 months.

Answer 272

A

Ceftriaxone 2g BD IVI

Meningococcus: 7d IV then review
Pneumococcus: 14 d IV then review

Maintenance fluids

UO 30ml/h
SBP >80mm Hg

Rifampicin prophylaxis for household contacts
If response poor, consider !± inotropic support.

Answer 273

A

Thrombocytopenia
Pressure (signs of raised ICP)
Unstable (Cardio+ resp systems)
Coagulation disorder
Infection at LP site
Neurology (focal neurological signs)

Answer 274

A

Infectious prodrome: fever, rash, LNs, cold sores, conjunctivitis, meningeal signs.
Bizarre behaviour or personality change
Confusion
Decreased GCS –> coma
Fever
Headache
Focal neuro
Seizures
Hx of travel or animal bite

Answer 275

A

Usually viral

HSV 1/2
CMV, EBV, VZV
Arbovirusues
HIV

Answer 276

A

Same as meningitis (Strep Pneumo, Neisseria Meningitides, Haemophilus Infuenza, GBS

TB
Malaria
Lyme Disease

Answer 277

A

Blood: Cultures, viral PCR, malaria film, U+E (rickettsial), LFTs (coxiella, burnetii, rickettsia, tick-borne disase, cytomegalovirus)
Contrast CT: focal bilateral temporal involvement suggests HSV
LP: increased CSF protein, lymphocytes, PCR
EEG: shows diffuse abnormalities, may confirm ddx

Answer 278

A

Aciclovir STAT: 10mg.kg/8h IVI over 1h for 14/7.
Supportive measures in HDU/ITU
Phenytoin for seizures

If CMV = ganciclovir
EBV = aciclovir, ganciclovir, cidofovir

Answer 279

A

hypoglycemia 
Hepatic
DKA
Drugs
SLE
Uraemia
Hypoxic brain injury
Beri-Beri

Answer 280

A

Suppurative collection of microbes within a gliotic capsule occuring within the brain parenchyma.

Infection: ear, sinus, dental or peridontal 
Skull fracture
Congenital heart disease
Endocarditis
Bronchiectasis
Immunosuppression

Answer 281

A

Frontal sinus/teeth: Streptocuccus pyogenes, Strep Milleri, Staph A, oropharyngal anaerobes
Ear: Bacteriodes, other anaerobes

Answer 282

A

Seizures
Fever
Localising signs
Signs of ICP
Signs of infection elsewhere

Common complication of sinusitis = unilateral facial oedema, photophobia, proptosis, palsies of the cranial nerves which pass through it.

Answer 283

A

CT/MRI: ring-enhancing lesion

Increased WCC, increaseD ESR

Answer 284

A

Neurosurgical referral
Abx: e.g ceftriaxone
Treat increased ICP.

Answer 285

A

Recurrent tendency to spontaneous, intermittent, abnormal electrical activity in part of the brain, manifest as seizure.

Answer 286

A

2/3 are idiopathic - 2/3.
Mutations in the sodium/potassium channels.

Congenital

NF
Tuberous Sclerosis
TORCH
Perinatal anoxia

Acquired

Vascular: CVA
Cortical scarring: trauma, infection.
SOL
Other: SLE, PAN, MS, sarcoidosis

Non-epileptic/provoked seizures?

Withdrawal: ETOH, opiates, benzos
Metabolic: glucose, Na, Ca, Urea, NH3
increased ICP: trauma, haemorrhage, encephalitis, cycticerosis, HIV
Eclampsia
Pseudoseizures (pelvic thrusting, family member with epilepsy, common in females, crying after seizure, don’t occur when alone, gradual onset).

Phenomenon that can mimic true seizures but generally have findings which are not consistent with a seizure. The ability to control location of symptoms is very typical of pseudoseizures and does not fit with any other option.

Answer 287

A

Prodrome: Pt or others may notice change in mood or behaviour lasting hrs-days.
Not part of seizures.

Answer 288

A

A simple partial seizure (usually temporal) which may precede other manifestations

Experienced as strange feeling:
Epigastric rising
Deja/jamais vu
Automatism
Smells, lights, sounds

Answer 289

A

Isolated to one hemisphere

Answer 290

A

No warning/aura

Discharge is seen through the cortex and no ascertainable localising features.

Answer 291

A

Awareness is unimpaired

Answer 292

A

Awareness is impaired

Answer 293

A

Focal seizure moving to generalised

Such as an aura moving towards a tonic clonic.

Answer 294

A

Aura
Specific trigger e.g flashing lights
Lateral tongue biting (>incontinence)
Typical movements e.g tonic-clonic
Cyanosis
Post-ictal phase

Answer 295

A

Simple partial
Complex partial 
Absence (petit mal) 
Tonic-Clonic
Myoclonic seizure
Atonic 
West Syndrome/Infantile spasms

Answer 296

A

Focal motor, sensory, autonomic or psychic symptoms.

Can present with 2 mins of involuntary twitching movements in their right hand.
- Stereotyped movements and quick recovery is consistent with focal aware seizure.

Answer 297

A

5As

Aura
Autonomic: change in skin colour, temperature, palpitations
Awareness loss: Motor arrest, motionless stare.
Automatisms: lip smacking, fumbling, chewing, swallowing
Amnesia

Usually arise from temporal lobe.

Emotional disturbance and automatism are features of focal seizures.

Answer 298

A

Abrupt onset and offset
Short: <10s 
Eyes: glazed, blank-stare
Normal: intelligence, examination, brain-scan
Clonus or automatisms may occur
EEG: 3Hz spike and wave

Stimulated by hyperventilation and photics.

Doesnt involve motor aspects.

Answer 299

A

LOC
Tonic: limbs stiffen
Clonic: rhythmic jerking of limbs
± cyanosis, incontinence, - tongue biting
Post-ictal confusion and drowsiness. Normally lasts a while.

Answer 300

A

Sudden jerk of limb, face or trunk

Answer 301

A

Sudden loss of muscle tone – fall

No LOC

Answer 302

A

Clusters of head nodding and arm jerks

EEG shows hysarrhythrimia

Answer 303

A

Temporal

Automatisms: lip smacking, chewing, fumbling
Deja vu
Delusional behaviour
Abdominal; rising or n/v
Emotional disturbance: terror, panic, anger, elation
Tastes, smell

Answer 304

A

Frontal
- Motor features: arrest, Jacksonian march) is a phenomenon where a simple partial seizure spreads from the distal part of the limb toward the ipsilateral face , -

Todd’s palsy (weakness if part of the body after a seizure). One part of the body after means Todd’s Paresis.

Head/leg movement

Answer 305

A

Sensory disturbance: tingling, numbness

Answer 306

A

Visual phenomena: spots, lines, flashes.

Answer 307

A

After any seizure advise against driving, swimming etc until a Dx is established.
Following first seizure, patients must be seizure free for 6 months before they may reapply to the DVLA for their license to be reissued.
Formal diagnosis means seizure free for 12 months before they apply to DVLA.
For bus drivers - if 2 seizures must be seizure free for 10 yrs.
Don’t diagnose epilepsy from a single seizure
Diagnosis should be made by a specialist
After Dx, cannot drive until seizure-free for ?1yr
10yr for HGV (no meds)

Answer 308

A

Top investigations - EEG

Used to support Dx (cannot exclude or prove)
helps classification and prognosis (may show a generalised epileptiform activity or focal, localising abnormality).
Use with hyperventilation and photic stimulation

Other investigations

FBC, U+E, glucose
Se increased prolactin 10mins after fit (relative to baseline) - indicated a GTCS.
Se AED levels
Urine toxicology
ECG

Answer 309

A

Consider CT head for structural lesions or other process that have caused the seizure.
MRI not routine for idiopathic generalised epilepsy
Indications
= Developed epilepsy as an adult
or any evidence of focal onset
-Seizures continue despite 1st line Rx.

Answer 310

A

1st: Valproate (should not be prescribed to female children or aolescents).
2nd: Lamotrigine, carbamazepine

Answer 311

A

1st: Valproate/Ethosuximide
2nd: Lamotrigine

Answer 312

A

1st: Valproate
2nd: Levetiracetam

Answer 313

A

1st: Lamotrigine/Carbamazepine
2nd: Levetiracetam, sodium valproate, oxcarbazepine.

Answer 314

A

Avoid valproate: take lamotrigine or CBZ.

Ensure you give 5mg folic acid daily if child-bearing age.
CBZ and PHE are enzyme inducers and decrease the effectiveness of the OCP.

Answer 315

A

Following a first seizure, antiepileptic drug treatment should only be started before specialist review in exceptional circumstances.

Only start medication if:

Seizure activity observed on EEG
Presence of a neurological deficit
Presence of a structural brain abnormality
Patient, parent or carer considers the risk of a further seizure to be unacceptable

Neurosurgical resection can be an option if single epileptogenic focus is identified
Vagal nerve stimulation can decreased seizure frequency and severity in ~33%.

Driving - patients must contact the DVLA

Can drive again after one year of being seizures-free
If a patient has only had a single seizure: Six months if investigations normal.

Contraception
Pregnancy: valproate. Women considering should take regular folate

Safety measures - patients should not bathe or swim

Answer 316

A

Carbamazepine
Phenytoin
Barbiturates

Answer 317

A

Valproate

Answer 318

A

Skin rash –> SJS occurs within 8 weeks. Prodromal illness which resembles a viral URTI. Rapid onset of a painful red skin rash which starts on the trunks and extends abruptly onto the face and limbs. Does not affect scalp, palms or soles.
Fluid replacement.
Rash may be associated with hypersensitivity –> fever, increased LFTs and DIC.
Diplopia, blurred vision
Levels affected by enzyme inhibitors/inducers

Answer 319

A

VALPROATE

Vomiting.
Alopecia.
Liver toxicity.
Pancreatitis/ Pancytopenia.
Retention of fats (weight gain)
Oedema (peripheral)
Anorexia.
Tremor
Enzyme Inhibitor

Answer 320

A

Leukopenia
Skin reactions
Diplopia, blurred vision
SIADH –> hyponatraemia

Answer 321

A

PHENYTOIN:
P: P-450 interactions
H: Hirsutism
E: Enlarged gums
N: Nystagmus
Y: Yellow-browning of skin
T: Teratogenicity
O: Osteomalacia
I: Interference with folic acid absorption (hence anemia)
N: Neuropathies: vertigo, ataxia, headache

Trough levels, immediately before dose should be checked if

adjustment of phenytoin dose
Suspected toxicity
Detection of non-adherence to prescribed medication.

Answer 322

A

Generalised convulsive and non-convulsive status epilepticus are neurological and medical emergencies defined as 5 or more minutes of either continuous seizure activity or repetitive seizures with no intervening recovery of consciousness.

Answer 323

A

BM
Bloods: Glucose, ABG, U+E, FBC, Ca2+
ECG, EEG
Consider: AED levels, tox screen, LP, B-HCG, CT.

Rule out hypoxia and hypoglycaemia before thinking of other causes.
Use the ABCDE approach.

Answer 324

A

Lorazepam 
- 2-4mg IV bolus over 30s
- 2nd dose if no response within 2 mins
- Alternatives 
Diazepam 10mg IV/PR (2mg max) 
Midazolam 10mg buccal

If the following does not help

May need phenytoin
20mg/kg IVI @ 50mg/min
100mg/6-8hr maintenance
Monitor ECG and BP
CI: bradycardia or heart block

Answer 325

A

Airway - Oral/nasal airway, intubate/ Suction
Breathing: 100% oxygen
Check capillary glucose.

Gain IV access and take bloods

U+E, LFTs, FBC, Glucose, Ca2+
AED levels
Tox screen

Reverse potential causes

Thiamine 250mg IV if ETOH
100ml 20% glucose unless glucose known to be normal

Then start slow IV bolus phase

Lorazepam IV
IM Midazolam/ Buccal (10mg)
Rectal Diazepam (10mg)

Second dose if no response within 2 mins

Then

Phenytoin 18mg/kg IV (then 100mg/6-8hr)
Diazepam 100mg in 500ml 5% dex IVI
Phenobarbital if already on regular phenytoin.

Remember to use cardiac monitoring when using phenytoin.

RSI phase - Rapid sequence induction of anaesthesia.

never spend >20 mins with someone in status w/o getting an anaesthetist.
Propofol/thiopental

Answer 326

A

Primary survey

A: Intubation, immobilisation, C-spine
B: 100% O2, RR
C: IV access, BP, HR
D: GCS, pupils

If patient has a GCS less than 8, need immediate review by anaesthetist due to risk of unsecure airway.

Treat seizures
Lorazepam 2-4mg IV
Phenytoin 18mg/kg IVI then 100mg/6-8hr.

E: exposure patient and look for other obvious injuries

Answer 327

A

Look for: 
Lacerations
- Obvious facial/skull deformity
- CSF leak from nose or eats
- Battle's sign, Racoon eyes
- Blood behind TM
- C-spine tenderness ± deformities

To test for CSF - check glucose.

Gold standard for CSF is Beta-2-transferrin.

Head-to-toe examination for other injuries
Fundoscopy
Log roll

Answer 328

A

How + when
GCS and other vitals immediately after injury
Headache, fits, vomiting, amnesia, ETOH.

Answer 329

A

Bloods: FBC (for required blood products) , U+E, glucose, clotting (coagulopathy) , ETOH, ABG (if not breathing),
CT head + c-spine. Non-contrast CT - to detect midline shift, subarachnoid haemorrhage.

MRI if not clear - immediate CT indicated in all patients with TBI.

Answer 330

A

Neurosurgical opinion if signs of increased ICP, CT evidence of intracranial bleed significant skull #.

Admit if

Abnormalities on imaging
Difficulty to assess: ETOH, post-ictal
Not returned to GCS 15 after imaging
CNS signs: vomiting, severe headache

Neuro-obs half-hrly until GCS 15

GCS
Pupils
HR/BP
RR/SpO2
Temperature

Answer 331

A

- Stay with someone for first 48hr
Give advice card advising to return on: 
- Confusion, drowsiness, unconsciousness
- Visual problems
- Weakness
- Deafness
- V.painful headache that won't go away
- Vomiting 
- Fit

Answer 332

A

GCS <8
PaO2 <9kPA on air/ <13 kPA on O2 or PCOs >6
Spontaneous hyperventilation: PCO2 <4kPa
Respiratory irregularity

Answer 333

A

CT immediately

Break: Open, depressed or base of skull
Amnesia >30 mins retrograde
Neuro deficit or seizure
GCS: <13 @ any time or <15 2hr after injury
Sickness: vomited > once

Within 8hrs.

LOC or any amnesia and any of:

Dangerous mechanism: RTA, great height
Age >65
Coagulopathy (inc warfarin).

Answer 334

A

Fully conscious with no fracture = <1:1000

Confused with skull fracture = 1:4

Answer 335

A

Out of 4

Eyes: 4
4 – Spontaneous eye opening 
3 – Open to voice
2 – Open to pain
1 – No opening

Answer 336

A

Out of 5

Verbal: 5
5 – Orientated conversation 
4 – Confused conversation
3 – Inappropriate speech
2 – Incomprehensible sounds 
1 – No speech

Answer 337

A

Motor: 6

6 – Obeys commands
5 – Localises pain
4 – Withdraws to pain
3 – Decorticate posturing to pain (flexor)
2 – Decerebrate posturing to pain (extensor)
1 – No movement

Answer 338

A

Increased ICP

Headache: worse on walking, lying down, bending forward, coughing, straining
Vomiting
Papilloedema
decreased GCS

Seizure
- Exclude SOL in adult-onset seizures, especially with localising aura or post-ictal weakness (Todd’s).

Evolving focal neurology
- May be false-localising (esp. CN6 palsy)

Subtle personality change

Answer 339

A

Vascular: chronic subdural haematoma, AVM, Aneurysm
Infection: abscess, cyst (cysticercosis)
Neoplasm: primary or secondary
Granuloma: TB, sarcoid

Answer 340

A

30% are metastatic: breast, lung, melanoma, colorectal.

AStrocytoma

Glioblastoma multiforme
- Glioblastoma is the most common primary tumour in adults and is associated with a poor prognosis (~ 1yr).

On imaging they are solid tumours with central necrosis and a rim that enhances with contrast. Disruption of the blood-brain barrier and therefore are associated with vasogenic oedema.
Histology: Pleomorphic tumour cells border necrotic areas
Treatment is surgical with postoperative chemotherapy and/or radiotherapy. Dexamethasone is used to treat the oedema.
Ependymoma
Commonly seen in the 4th ventricle
May cause hydrocephalus
Histology: perivascular pseudorosettes

Meningioma

The second most common primary brain tumour in adults

Meningiomas are typically benign, extrinsic tumours of the central nervous system. They arise from the dura mater of the meninges and cause symptoms by compression rather than invasion.
They typically are located at the falx cerebri, superior sagittal sinus, convexity or skull base.
Histology: Spindle cells in concentric whorls and calcified psammoma bodies
Investigation is with CT (will show contrast enhancement) and MRI, and treatment will involve either observation, radiotherapy or surgical resection.

Cerebellar haemangioblastoma

Vascular tumour of the cerebellum
• Associated with von Hippel-Lindau syndrome
• Histology: foam cells and high vascularity

CNS lymphoma

Answer 341

A

CT or MRI (for better post.cranial fossa)

- Consider biopsy

Answer 342

A

A syndrome of reduced cerebrospinal fluid absorption

Risk factors = Obesity, female, pregnancy, drugs (OCP, steroids, tetracycline, Vit A, Lithium).

Answer 343

A

Typically obese females
As if SOL 
- Increased ICP
- Headache
- Papilloedema

Visual

Blurred vision
6th nerve palsy
Enlarged blind spot

Answer 344

A

High opening pressure on Lumbar puncture

Visual field defects testing - looking for enlarged blind spot, inferonasal loss, other nerve fibre bundle.

Answer 345

A

Weight loss
1st line: Acetazolamide = carbonic anhydrase inhibitor
Topiramate
Lumbar-peritoneal shunt may be necessary if drugs fail and visual loss deteriorates.

NB - if it is cerebral oedema = give DEX.

Answer 346

A

Vasogenic (increased cap permeability): trauma, tumour, ischaemia, infection.
Cytotoxic: from hypoxia
Interstitial: e.g obstructive hydrocephalus, decreased Na.

Answer 347

A

Haemorrhage
Tumours
Infection: meningitis, encephalitis, abscess
Hydrocephalus
Status
Cerebral oedema

Answer 348

A

Headache
N/V
Seizures
Drowsiness –> coma
Cushing reflex –> increased HR, decreased BP, irregular breathing.
6th CN palsy (may be false localising)
Cheyne-Stokes respiration (longer, deeper breathing, followed by apnoeic episodes).
Pupils: miosis –> mydriasis
Papilloedema, loss of venous - pulsation @ disc.

Answer 349

A

ABC 
- Then treat seizure and correct HTN
- Elevate bed to 40 degrees
- Neuroprotective ventilation 
PaO2 >13 
PCO2 4.5 
Good sedation ± NM blockade
- Mannitol or hypertonic saline. Start first then give Burr Hole.
- Decreased ICP short-term but may lead to rebound increased ICP later. 
Mannitol 1g/kg (20% @ 5ml/kg).

Answer 350

A

Tonsillar
Transtentorial
Subfalcine

Answer 351

A

Increased pressure in posterior fossa –> displacement of cerebellar tonsils through foramen magnum
–> compression of brainstem and cardioresp centres in medulla
CN6 palsy, upgoing plantars –> irregular breathing –> apnoea

Answer 352

A

Lateral supratentorial mass –> compression of ipsilateral inferomedial temporal lobe (uncas) against free margin of tentorium cerebelli.
Ipsilateral CN3 palsy: mydriasis (dilation) then down and out. Parasympathetic fibres of CN3 nerve are arranged around the outside, they are damaged first, leaving a tonic sympathetic input, creating a dilated and fixed pupil.
Ipsilateral corticospinal tract: contralateral hemiparesis
May –> compression of contralateral corticospinal tracts –> Ipsilateral hemiparesis.

Answer 353

A

Frontal mass
Displacement of cingulate gyrus (medial frontal lobe) under falx cerebri
Compression of ACA –> Stroke
Contralateral motor/sensory loss in legs>arms
Abulia (pathological laziness)

Answer 354

A

Parkinson’s disease
Parkinson’s Plus syndrome (basal ganglia degeneration + other symptoms)
MSA/Shy Drager
Progressive supranuclear palsy
Corticobasilar degeneration
Lewy body dementia

Answer 355

A

Infection: Syphilis, HIV, CJD
Vascular: Multiple infarcts in SN
Drugs: Antipsychotics, metoclopramide
Trauma: Dementia pugilistica
Genetic: Wilson's

Drug induced parkinson’s = Symmetrical tremor is rarely caused by idiopathic Parkinson’s disease.

Answer 356

A

Autonomic dysfunction: postural hypotension, bladder dysfunction
Cerebellar + pyramidal signs
Unilateral symptoms
Rigidity > Tremor
Severe/early onset autonomic dysfunction (postural hypotension/erectile dysfunction)

Answer 357

A

Postural instability –> falls
Speech disturbance (+ dementia)
Palsy: vertical gaze

Answer 358

A

Aphasia, dysarthria, apraxia
Akinetic rigidity in one limb
Asterognosis (cortical sensory loss)
Alien limb phenomenon

Answer 359

A

Fluctuating cognition

Visual hallucinations

Answer 360

A

Tremor

Worse at rest
Exacerbated by distraction
4-6Hz, pill rolling
Unilateral resting tremor with bradykinesia.

Rigidity

Increased tone in all muscle groups: lead-pipe rigidity
Rigidity + tremor –> cogwheel rigidity

Bradykinesia

Slow initiation of movement with reduction of amplitude on repetition
Expressionless face
Monotonous voice
Micrographia

Gait

Decreased arm swing
Festinance (Shortened stride quickened gait)
Freezing (esp in doorways

Answer 361

A

Mean onset 65 yrs

2% prevalence

Answer 362

A

Destruction of dopamingeric neurons in pars compacta of substantia nigra?

alpha synuclein
Lewy bodies

Answer 363

A

Asymmetric onst: side of onset remains worse

Resting Tremor: increased by stress, decreased by sleep.
Rigidity: lead-pipe, cogwheel
Bradykinesia: slow initiation, difficulty with repetitive movement, micrographia, monotonous voice, mask-like face.
Postural instability: stooped gait with festingation
Postural hypotension + Other autonomic dysfunction
Sleep disorder: insomnia, excessive daytime sleeping, OSA, RBD
Psychosis: esp visual hallucination
Depression/Dementia.

Answer 364

A

Affects ~90% of PD patients

Insomnia + frequent waking –> excessive daytime sleeping. Inability to turn, restless legs, early morning dystonia, nocturia, OSA.
REM Behavior sleep disorder
Loss of muscle atonia during REM sleep
Violent enactment of dreams

Da SEs: insomnia, drowsiness, excessive daytime sleeping

Answer 365

A

Combined effects of drugs and neurodegeneration
Postural hypotension
Constipation
Hypersalivation –> Dribbling (decreased ability to swallow saliva)
Urgency, frequency, nocturia
ED
Hyperhidrosis (excessive sweating)

Answer 366

A

DOPAMINE

Dyskinesia
On-Off phenomena = mototr fluctuations
Psychosis
Decreased ABP
Mouth dryness
Insomnia
N/V
EDS (excessive daytime sleeping)

Answer 367

A

End-of dose: deterioration as dose wears off with progressively shorter benefit

On-Off effect: unpredictable fluctuations in motor performance unrelated to timing of dose.

Answer 368

A

Dopaminergic agent trial
Mainly diagnosis is made clinically.
Consider MRI brain (mostly normal. May show mild small vessel disease.
DaTscan
Bins to dopamingeric neurons and allows visualisation of substantial nigra.

Answer 369

A

MDT: neurologist, PD nurse, physio, OT, social worker , GP and carers.
Assess disability
- UPDRS: unified Parkinson’s Disease Rating Scale. - FALLS assessment
- Physiotherapy: postural exercises
- Depression screening.

Medications

Ensure regular medication review to anticipate any difficulties, non-concordance, polypharmacy.
Risk of acute akinesia or neuroleptic malignant syndrome if medication is not taken/absorbed (gastroenteritis).
Advise against giving patients a drug holiday.
Avoid dopamine antagonist like Haloperidol.
Impulse control disorder more common with dopamine agonist therapy, history of previous impulsive behaviours.
Orthostatic hypotension - develops review potential causes. Use Midodrine.
Glycopyrronium bromide for drooling.
If nauseous - prescribe domperidone - does not cross BBB.

Answer 370

A

If GP suspects signs - refer urgently to neurology. Medications is handled by a specialist - and requires careful titration to maximise effect.

If young and motor symptoms affecting quality of life
1. Levodopa. If they cannot take levodopa orally, given a dopamine agonist patch to rescue and prevent acute dystonia.

If young motor symptoms not affecting quality of life
1. Da agonists: Ropinirole, pramipexole, or levodopa, monoamine oxidase B (MAO-B) inhibitor.

Drugs

Da agonist: ropinirole, pramipexole
MOA-B inhibitors: rasagiline, selegiline
L-Dopa: co-careldopa or co-beneldopa.

Complications

Falls, cognitive impairment, depression.
SE of medications.

Answer 371

A

More improvement in motor symptoms. More improvement in ADLs.

BUT more motor complications

Fewer specified adverse events.

Usually combined with a decarboxylase inhibitor (carbidopa) to prevent peripheral metabolism of levodopa to dopamine (Sinemet, Medapar)

reduced effectiveness with time
Unwanted effects: dyskinesia, on-off effect, dry mouth, postural hypotension, psychosis. Normally at a higher dose.
No use in neuroleptic induced parkinsonism
It is important not to acutely stop levodopa. Can be given a dopamine agonist patch as rescue medication to prevent acute dystonia.

Answer 372

A

Less improvement in motor symptoms, less improvement in ADLs, fewer motor complications, and more specific adverse effects such as hallucinations.

Ropinirole, apomorphine (non-ergot)
Bromocriptine, cabergoline (ergot derived) associated with pulmonary, retroperitoneal and cardiac fibrosis.

Must do a echo, ESR, creatinine + chest x-ray. More likely than levodopa to cause hallucinations in older patients.

Can also cause nasal congestion + postural hypotension.

Answer 373

A

MAO-B = less improvement in motor symptoms, less improvement in ADLs, fewer motor complications, fewer adverse events.

Selegiline
Inhibits the breakdown of dopamine secreted by the dopaminergic neurons.

Answer 374

A

Mechanism not understood. Increases dopamine release + inhibits uptake from dopaminergic synapses.
- side effects include ataxia, slurred speech, confusion, dizziness, livido reticularis.

Management of drug induced dyskinesias

Answer 375

A

Entacapone, tolcapone

- COMT is an enzyme involved in the breakdown of dopamine + used as an adjunct to levodopa

Answer 376

A

Block cholinergic receptors
Now used more to treat drug-induced parkinsonism rather than idiopathic.

Help tremor and rigidity
- Procyclidine, benzotropine

Answer 377

A

Parkinson's plus syndrome 
Multiple infarct
Drugs: neuroleptics
 Inherited: Wilsons 
Infection: HIV, Syphilis, CJD
Dementia pugilistica.

Answer 378

A

A chronic inflammatory condition of the CNS characterised by multiple plaques of demyelination disseminated in time and space.

Answer 379

A

Common: 1/1000
Age: Mean @ onset = 30 yrs
Sex: F>M = 3:1
Race: rare in blacks

Answer 380

A

Genetic (HLA-DRB1), environmental, viral?

Answer 381

A

CD4 cell-mediated destruction of oligodendrocytes –> Demyelination and eventual neuronal death

Initial viral inflammation primes humoral AB responses vs MBP
Plaques of demyelination are hallmark.

Answer 382

A

Relapsing-remitting: 80% - acute attacks followed by periods of remission.

Secondary Progressive (RR patients who have deteriorated + developed neuro signs + symptoms).

Primary Progressive (progressive accumulation) : 10%

Answer 383

A

Female, catheterised, eye signs, cerebellar signs - ATAXIA (unable to heel-toe walk)

UMN signs - pyramidal weakness + brisk reflexes.
Tingling/burning
Eye: optic neuritis (decreased central vision + eye movement pain)
Ataxia + other cerebellar signs
Motor: usually spastic paraparesis (motor walking) - muscle stiffness.

Answer 384

A

Dys/paraesthesia
Decreased vibrations sense
trigeminal neuralgia

Answer 385

A

Spastic weakness
Transverse myelitis
Foot dragging
Fatigue

Answer 386

A

Diplopia
Visual phenomena
Bilateral INO (internuclear ophthalmoplegia) - due to medial longitudinal fasciculus lesion.
Optic nerve damage - central scotoma, RAPD, colour and VA loss, optic atrophy.
Optic neuritis

Answer 387

A

Trunk and limb ataxia
Scanning dysarthria (jerky, explosive speech)
Fall
Dorsal column disease - reduced vibration, proprioception, Romberg’s +ve.

Answer 388

A

Swallowing disorders

Constipation

Answer 389

A

ED + anorgasmia
Retention
Incontinence

Answer 390

A

Neck Flexion –> electric shocks in trunk/limbs

Answer 391

A

Pain on eye movement, rapid decrease in central vision
Uhthoff’s: vision decreased with heat: hot bath, hot meal, exercise.
O/E: decreased acuity, decreased colour vision, white disc, central scotoma, RAPD.

Answer 392

A

Disruption of Medial Longitudinal Fasciculus connecting CN6 and CN3.
Weak adduction of ipsilateral eye.
Nystagmus of contralateral eye.
Convergence preserved.

Answer 393

A

MRI: Gd-enhancing or T2 hyper-intense plaques.
Gd-enhancing = active inflammation
MRI contrast. Shows dissemination in time and space.

-Typically located in periventricular white matter.
SAgitall FLAIR = periventricular white matter.

LP: IgG oligoclonal bands (not present in serum) - less used

Ab:
Anti-MBP,
NMO-IgG: highly specific for Devic’s syndrome (affects the optic nerves + spinal cord).

Evoked potentials: delayed auditory, visual, sensory.

Don’t forget hypothyroidism and B12.

Answer 394

A

Demonstration of lesions disseminated in time and space
May use McDonald’s Criteria.

Dissemination in space (DIS)
- One or more T2-hyperintense lesions in 2 or more of 4 areas of CNS: periventricular, cortical or juxtacortical, infratentorial and spinal cord.

Dissemintated in time

Asymptomatic Gd enhancing and non-enhancing lesions at any time
New T2 and/or Gd-enhancing lesion on follow-up MRI.

Answer 395

A

Cervical spondylosis - without the cerebellar signs
CNS sarcoidosis
SLE
Devic’s Neuromyelitis optica (NMO)
- MS variant with transverse myelitis and optic atrophy
- Distinguished by presence of NMO-IgG abs. Don’t get hemiplegia/spasticity

Transverse myelitis (entire width of spinal care) - acute or subacute development of motor weakness, sensory impairment and autonomic dysfunction. Seperate entity to MS - demyelination, autoimmune causes, infectio, 
Follows a pyramidal pattern. 
May develop sensory loss. 
Bladder symptoms 
Bowel symptoms 
Lhermitte sign

Answer 396

A

MDT: Neurologist, radiologist, physio, OT, specialist nurse, GP, family.

Answer 397

A

Methylprednisolone 1000 mg OD for 3 days.
Doesn’t influence long-term outcome
Decreased duration and severity of attack. Consider plasma exchange?

Answer 398

A

DMARDS

IFN-B: decreased relapse by 30% in RR MS
Glatiramer: similar efficacy to IFN-B

-Natalizumab, ocrelizumab, cladribine and alemtuzumab are for more aggressive disease.

Biologicals
- Natalizumab: anti-VLA-4Ab 
decreases relapses by 2/3 in RRMS
- Alemtuzumab (Campath): anti-CD52 
2nd line RRMS

Answer 399

A

Fatigue: amantadine, consider mindfulness training and CBT.
Depression: SSRI
Pain: amitryptylline, gabapentin
Spasticity: physio, baclofen, dantrolene, botulinum. Second line is diazepam, dantrolene, tizanidine.
Oscillopsia (visual fields appear to oscillate). Gabapentin is first-line.
Urgency/frequency: oxybutynin, tolterodine
ED: sildenafil
Tremor: clonazepam

Answer 400

A

Older
Male
Motor signs @onset
Many relapses early on
Many MRI lesions 
Axonal loss

Answer 401

A

Female 
<25
Sensory signs @onset
Long interval between relapses
Few MRI lesions

Answer 402

A

Deep, local spinal pain
Stabbing, radicular pain in a dermatomal distribution and LMN weakness @ lesion level.
Progressive UMN weakness and sensory loss below lesion
Bladder hesitancy, frequency –> painless retention.
Faecal incontinence or constipation.

Answer 403

A

Look for motor, reflex and sensory level.
SHooting, radicular pain @ level, anaesthesia below
LMN signs @ level, UMN below level.
Tone and reflexes are usually reduced in acute cord compression.

Answer 404

A

Trauma
Infection: epidural abscess, TB
2ndry to malignancy: breasth, thyroid, bronchus, kidney, prostate.
Disc prolapse
Haematoma: warfarin
Intrinsic cord tumour
Myeloma

Answer 405

A

CXR for primaries (Disc space height, loss of bony detail)
MRI is definitive modality
Epidural enhancement, mass effect, T2 cord signal.
Gadolinum-enchanced MRI spine

Answer 406

A

This is a neurosurgical emergency
- Malignancy
Dexamethasone IV
Consider chemo radio, decompressive laminectomy
- Abscess: abx and surgical decompression.

Answer 407

A

Transverse myelitis
MS
Cord vasculitis
Spinal artery thrombosis
Aortic dissection

Answer 408

A

Spinal cord tapers to its end at L1

- Compared with lesions high up the cord, these lesions are - flaccid and areflecix (cf spastic and hyperreflexic)

Answer 409

A

At the cone itself

Mixed UMN/LMN weakness
Early constipation and retention
Back pain - mild pain
Sacral sensory disturbance
Erectile Dysfunction

Answer 410

A

Saddle anaesthesia
Back pain
Radicular pain down legs
Bilateral flaccid, areflexic lower limb weakness
Incontinence, retention of faeces, urine.
POOR anal tone.

Answer 411

A

As for cord compression

These are neurosurgical emergencies and require urgent imaging and surgical decompression

Answer 412

A

Degeneration due to trauma or ageing
IV disc/vertebral collapse
Osteophytes
May –> central (myelopathy) = cord itself and/or lateral (radiculopathy - nerve root)) pathology.

Answer 413

A

90% of men >60

Women >50

Answer 414

A

Specific term for osteoarthritis of the spine, including spontaneous degeneration of either disc or facet joints.

Answer 415

A

Usually asymptomatic
Neck stiffness ± crepitus
Stabbing/dull arm pain (brachialgia)
Upper limb motor and sensory disturbances according to compression level (often C7).
Can –> Myelopathy with quadriparesis and sphincter dysfunction

Specific signs

Lhermitte’s sign: neck lexion –> tingling down spine
Hoffman reflex: flick to middle finger pulp –> brief pincer flexion of thumb and index finger

Answer 416

A

Motor weakness - Deltoid, Supraspinatus, decreased supinator jerk.

Sensory abnormality - Numb elbow

Answer 417

A

Motor weakness

Biceps (bicep reflex)
Brachioradialis (brachioradialis test)
Decreased biceps jerk

Sensory
- numb thumb and index finger

Answer 418

A

Motor weakness

Triceps (tricep test)
Finger extension
Decreased tricep jerk

Sensory
- Numb middle finger

Answer 419

A

Finger flexors
Intrinsic hand

Numbness ring and little finger and medial side of hand.

C8 exits the spine below the C7 vertebra, only nerve root below a vertebra.

Answer 420

A

MRI

Consider X-ray

Answer 421

A

Urgently referred for assessment by specialist spinal services (neurosurgery or orthopaedic spinal surgery).

Conservative: stiff collar, analgesia/physiotherapy
Medical: Consider NSAIDs, transforaminal steroid injection

Most effective treatment -
Surgical: decompression, laminectomy or laminoplasty

Postoperatively, patients with cervical myelopathy require ongoing follow-up as pathology can recur at adjacent spinal levels. Known as adjacent segment disease.

Answer 422

A

MS
Nerve root neurofibroma
SACD (subacute combined degeneration of the spine) .

Answer 423

A

L5 and S1 roots most commonly compressed by prolapse of L4/L5, L5/S1 disc.

may present as severe pain on sneezing/ coughing a few days after low back strain.
Lumbago - low back pain
Sciatica - shooting radicular pain down buttocks and thigh.

Answer 424

A

Limited spinal flexion

- Pain on straight-leg raise

Answer 425

A

Weak hallux extension ± foot drop.

In foot drop due to L5 radiculopathy, weak inversion (tibpost) helps distinguish from peroneal N. palsy.
Decreased sensation on inner dorsum of foot.

Conservative management - leg crossing, squatting and kneeling should be avoided.

Symptoms typically improve over 2-3 months.

Answer 426

A

Weak foot plantarflexion and eversion
Loss of ankle-jerk
Calf pain
Decreased sensation over sole of foot and back of calf

Answer 427

A

MRI is definitive (emergency if cauda-equina syndrome)

Answer 428

A

Conservative: rest, analgesia, mobilisation
Medical: transforaminal steroid injection
Surgical: Discectomy or laminectomy may be considered in cauda-equina

Answer 429

A

Inflammatory oedema from entrapment of CN7 in narrow facial canal.
Probably of viral origin (HSV1)
75% of facial palsy
Pregnant women are 3x more likely to develop Bell’s palsy.

Answer 430

A

Sudden onset: eg overnight
Complete, unilateral facial weakness in 24-72hrs
Failure of eye closure –> dryness
Bell’s Sign: eyeballs roll up on attempted closure
Smooth of nasolabial folds
Drooling, speech difficulty
Numbness or pain around ear
decreased taste (Ageusia)
Hyperacusis: stapedius palsy (sensitivity to sound)
involvement of all nerve branches

Examination
- Close eyes, raise eyebrows, frown

UMN/LMN - UMN spares the upper fae - presumed evolutionary bicortical innervation to protect eyes.

Loss of corneal reflex (efferent)

Answer 431

A

Mainly clinical
EMG (decreasd in amplitude in muscle action)
Serology for Borrelia Burgdoferi
Examination for Ears (Herpes Zoster Ramsey Hunt).
Must go to ENT - cholesteatoma
Consider MRI: (SOL, stroke, MS), consider LP

Answer 432

A

Give prednisolone w/i 72hrs
- 60mg/d PO for 5/7 following by tapering

Valaciclovir if zoster is suspected: Otherwise antiviral don’t help
Protect glasses
Dark glasses, artificial tears, tape closed at night.
Plastic surgery may help if no recovery.

Answer 433

A

Incomplete paralysis: recovers completely within weeks

- Complete paralysis: 80% get full recovery: remainder

Answer 434

A

Aberrant Neural Connections

Synkinesis: e.g blinking causing up-turning or mouth
Crocodile tears: eating stimulates unilateral lacrimation, not salivation

Answer 435

A

Reactivation of VZV in geniculate ganglion of CNVII

Answer 436

A

Preceding ear pain or stiff neck
Vesicular rash in auditory canal ± TM, pinna, tongue, hard palate (no rash = zoster sine herpete)
Normal ear exam goes against RH.
Ipsilateral facial weakness, ageusia, hyeracusis
May affect CN8 –> vertigo, tinnitus, deafness

Answer 437

A

If Dx suspected give valaciclovir and prednisolone within first 72hrs

Answer 438

A

Managed within 72hrs: 75% recovery

Otherwise: 1/3 full recovery, 1/3 partial, 1/3 poor.

Answer 439

A

Bilateral symptoms: consider Lyme, GBS, Leukaemia, Sarcoid, MG.

UMN signs: Sparing of frontalis and orbicularis oculi
- Due to bilateral cortical representation
Other CN palsies
Limb weakness
Rashes

LMN 
- Bell's palsy
Ramsay-Hunt syndrome (due to herpes zoster)
acoustic neuroma
parotid tumours
HIV
multiple sclerosis*
diabetes mellitus

Answer 440

A

SOL, MS, Vascular.
- motor cortex –> UMN (assoicated with ipsilateral hemiplegia)
- Brainstem nuclei –> LMN
Usually associated with CN6 palsy + contralateral hemiplegia
- Cerebello-pontine angle: acoustic neuroma, meningioma
Both may be accompanied by 5th, 6th and 8th Cn palsies and cerebellar signs
- Loss of corneal reflex
- Sensorineural deafness, tinnitus, vertigo
- DANISH

Answer 441

A

Cholesteatoma
Ramsay Hunt
Otitis Media
Trauma

Answer 442

A

Parotid tumours

Trauma

Answer 443

A

Peripheral neuropathy

Demyelinating: GBS
Axonal: DM, Lyme, HIV, Sarcoid
Pseudopalsy: MG, Botulism

Answer 444

A

Median 
Ulnar 
Radial 
Brachial Plexus
Phrenic 
Lat Cut N Thigh 
Sciatic
Common Peroneal
Tibial

Answer 445

A

Lesions of individual peripheral or cranial nerves.
EMG helps define site of lesions
Mononeuritis multiplex: 2 or more peripheral nerves affects :
Usually systemic cause: DM most commonly
Also WAARDS PLC
Wegener’s
AIDS
Amyloid
RA
DM
Sarcoidosis
PAN
Leprosy
Carcinomatosis

Investigation = Blood (Autoimmune serology: ANA, ANCA, RF, dsDNA.

Imaging

XR elbow
US cubital tunnel

Special tests
- Nerve conduction studies

Answer 446

A

C6-T1

Wrist: carpal tunnel, trauma (amyloidosis)

Answer 447

A

Motor features?

LLOAF muscles (lateral 2 lumbricals, Opponens Pollicis, Abductor Pollicis Brevis, Flexor Pollicis Brevis)
Thenar wasting
Sign of Benediction
Pronation of hand

Sensory Loss/Features
- Radial 3.5 fingers and palm.
- Aching pain in hand (decreased 2 point discrimination)
- Tinel’s and Phalen’s +ve.
Look for sensation over the thenar eminence
- If lost - cannot be carpal tunnel syndroe
- PCB arises proximal to the carpal tunnel

Answer 448

A

C8-T1
Mainly caused by Elbow Trauma (e.g supracondylar fracture).

BRanches
- Muscular branch = flexor carpi ulnaris, medial half of the flexor digitorum profundus.

Palmar cutaneous branch - medial part of the palm
Dorsal cutaneous branch - dorsal surface of medial part of hand.

Answer 449

A

Motor weakness - most muscles except LOAF. Medial two lumbricals, aDductor pollicis, interossei, abductor digitia minimi, flexor digiti minimi .

Partial claw hand
Hypothenar wasting (first dorsal interosseus)
Can’t do good luck sign
Weakness and wasting of 1st dorsal interosseous
Froment’s +ve (finger pinch grip)
Loss of thumb adduction

Sensory Loss/Features

Ulnar 1.5 fingers
Loss of senation over hypothenar eminence means PCB affect - injury is above wrist.

Ulnar paradox - higher lesion causes lesser deforimit
- Lower lesions spares FDP - causes flexion at the DIP

Answer 450

A

If Low: wrist trauma
If high: humerus
if V high: axilla

Fracture of the shaft of the humerus.

Answer 451

A

Motor:

Low: finger drop
High: wrist drop
V.high: triceps paralysis, wrist drop

Sensory:
Dorsal thumb root (snuff box)

Answer 452

A

Caused by Trauma
Radiotherapy (e.g breast)

High (C5-C6): Erb’s Palsy –> Waiter’s tip (Catching from behind). Loss of C5-C6 dermatome. Hand hanging loose, pronated and medially rotated.

Low (C8-T1) - Klumpke’s –> claw hand. Loss of C8-T1 dermatome. Horner’s syndrome. Weakness of hand intrinsic muscle.

Root which supplies the thumb adduction and finger abduction is T1. Medial epicondyle is the testing point for the T1 dermatome.

Answer 453

A

Phrenic.

Damage caused by

Neoplastic: Lung Ca, Myeloma, Thymoma.
Mechanical: Cervical spondylosis, big left atrium.
Infective; C3-C5 zoster, HIV, lyme, TB.

Presents with orthopnoea + raised hemidiaphragm.

Answer 454

A

Entrapment under inguinal ligament.

Meralgia paraesthetica –> anterolateral burning thigh pain.

Answer 455

A

Causes of mononeuropathy

Pelvic tumours
Pelvic or femur #s.

Motor features

Hamstrings
All muscles below knees weakened.

Sensory
- Below knee laterally and foot

Answer 456

A

Fibular head: trauma, sitting cross legged.
Motor:
Foot drop: can’t walk on heels
Weak ankle dorsiflexion, eversion. NB: inversion intact!

Sensory loss/Features: Below knee laterally.

Answer 457

A

Can’t plantar flex –> can’t stand on tiptoe
Foot inversion
Toe Flexion

Loss of sensation sole of foot.

Answer 458

A

Generalised disorders of peripheral or cranial nerves.
Distribution is symmetrical and widespread
Distal weakness and sensory loss (Glove and stocking)
Classification of polyneuropathies
Time-course: acute, chronc
Function: motor, sensory, autonomic, mixed
Path: Demyelination, axonal degeneration, both.

Answer 459

A

Mostly axonal

DM
Renal failure/uraemia
hypothyroidism
decreased B1/B12 (EToH)

Answer 460

A

PAN (Polyarteritis Nodosa)
RA
Wegener’s

Answer 461

A

GBS

- Sarcoidosis

Answer 462

A

HIV
Syphilis
Leprosy
Lyme

Answer 463

A

Charcot Marie Tooth

Refsum’s syndrome

Answer 464

A

Lead
Amyloid
Paraproteinemias

Answer 465

A

Isoniazid
ETOH
Phenytoin
Vincristine

Answer 466

A

Time-course
Precise symptoms 
Associated event 
- D+V: GBS
- DecreaseD weight loss: Ca
- Arthralgia: connective tissue

Travel, ETOH, drugs.

Answer 467

A

LFTs, U+E, Glucose, ESR, B12
TFTs, B1, ANA, ANCA
Genetic tests: PMP22 in CMt
NErve conduction studies
EMG

Answer 468

A

Alcohol
B12
Chronic Renal Failure and Ca (paraneoplastic)
DM
Every vasculitis
Hypothyroidism
HIV

Answer 469

A

Gloves and stocking distribution: length dependent
Deep tendon reflexes may be decreased or absent
E.g Loss of ankle jerks in diabetic neuropathy
Signs of trauma or joint deformity (Charcot’s joints)
Diabetic and alcoholic neuropathies are painful
Some aetiologies favour loss of particular fibres.

Answer 470

A

Caused in B12

Loss of proprioception –> ataia
Pins and needles

Answer 471

A

Caused in alcohol

Loss of pain and temperature sensation
Painful dysaethesia: e.g burning, hyperalgesia

Answer 472

A

Guillan Barre Syndrome
Charcot Marie Tooth, Hereditary Motor and Sensory Neuropathy
Paraneoplastic
Lead poisoning

Answer 473

A

Weakness/clumsiness of hands, difficulty walking
LMN signs
CN: diplopia, Dysarthria, dysphagia
Involvement of respiratory muscles –> Decreased FVC.

Answer 474

A

Diabetes
HIV
SLE
GBS 
LEMS

Answer 475

A

Postural hypotension
Ejaculatory failure
Decreased sweating
Constipation
Retention
Horner’s

Answer 476

A

BP: Postural drop >20mmHg
ECG: variation >10bpm with respiration

Answer 477

A

Idiopathic or part of MSA/PD.

Answer 478

A

AIPD: acute autoimmune demyelinating polyneuropathy
AMAN: acute motor (+ sensory) axonal neuropathy
Miller-Fisher: (mainly japan) Ophthalmoplegia + ataxia + areflexia. Eyes are affected first.

Answer 479

A

2/3 patients have had infections within 6 weeks of conditions, usually URTI .

Immune mediated attack on myelin sheath.

Answer 480

A

Abs cross-react to gangliosides
No precipitants found in 40%?
Bacteria: C.jejuni, mycoplasma

Viruses; CMV, EBV, HSV, HIV, Flu

Vaccines: esp rabies.

Answer 481

A

GBS = AIDP = acute autoimmune demyelinating polyneuropathy

Presents with GBS (Diarrhoea then weakness).

Growing weakness
Breathing + bulbar problems
Back pain
- Sensory disturbances (paraesthesia in extremities + sensory ataxia in Miller-Fisher)
Autonomic neuropathy (arrhythmias, decreased HR, Labile BP, sweating, urinary retention)

Answer 482

A

Symmetrical, ascending flaccid weakness/paralysis
LMN sign: areflexia, fasciculations may occur
Proximal > distal (trunk, resp, CNS 7)
Progressive phase last <4 weeks.

Answer 483

A

Immune - Serology for anti-ganglioside ABs. Evidence of infections - stool sample
Demyelinating nerve conduction studies - slow conduction velocities
isolated raised Protein in CSF - protein often >5.5 g/L. Normal WCC.
Spirometry - Vital Capacity + ABG on air for vent.
Swallow assessment
ECG for arrhythmia and BP for autonomic disturbance.

Answer 484

A

Supportive

Airway/ventilation: ITU if FVC <1.5L
Analgesia: NSAIDS, gabapentin
Autonomic: may need inotropes, catheter
Antithrombotic: TEDs, LMWH

Immunosuppression

IVIG
Plasma exchange

Prognosis

85% complete recovery
10% unable to walk alone at 1yr
5% mortality

Answer 485

A

Peroneal muscular atrophy

- Hereditary motor and sensory neuropathy

Answer 486

A

HMSN1/CMT1 - commonest form, demyelinating, AD mutation in the peripheral myelin protein 22 gene
HMSN2/CMT2 - second commonest form. Axonal degeneration (therefore near normal conduction studies)
CMT4 - AR

Answer 487

A

Typically history of ankle sprains and scoliosis.
Motor and sensory loss (sensory milder).
- Antero-lateral compartments affected.
- Absent reflexes
- Pes cavus

Onset at puberty? 
- Nerve = thickened, enlarged nerves 
- Motor = 
Foot drop --> high stepping gait, 
weak ankle dorsiflexion and toe extension, 
- absent ankle jerks 
- symmetrical muscle atrophy: 
Peroneal muscles (loss of muscles) 
- champagne bottle 
Hand and arm muscles
- Claw hand
Pes Cavus (high-arched feet)

Papable lateral popliteral nerve - thickened nerves at medial malleolus.

Answer 488

A

Variable loss of sensation in a stocking distribution

- Neuropathic pain in some

Answer 489

A

-Genetic tests: PMP22 gene mutations
- Nerve conduction studies: decreased conduction speed in CMT1
B12
DM
Alcohol
- Physio
- Walking aids
- Ankle and foot supports

Answer 490

A

Supportive
Physio
Podiatry
Orthoses e.g ankles braces

Answer 491

A

Cluster of degenerative diseases characterised by axonal degeneration of neurones in the motor cortex, CN nuclei, anterior horn cells.
UM and LN neurons affected (polyneuropathy)
No sensory loss or sphincter disturbances (cf. MS)
Never affects eye movements (compared to MG)

Answer 492

A

Prevalence: 6/100,000
Sex: M>F = 3:2
median age @ onset = 60yrs
Often fatal in 2-4 yrs

Answer 493

A

Unknown

Types:
- ALS (Amyotrophic lateral sclerosis) = death of both UMN and LMN in motor cortex.
LMN signs = flaccid paralysis, weakness, wasting, fasiciultion.
UMN = Spastic paralysis, pyramidal weakness, hyper-reflexia, up-going plantars.

Primary lateral sclerosis
- UMN signs only

Progressive muscular atrophy

LMN signs only
Affects distal muscles before proximal
Carries best prognosis

Progressive bulbar palsy

Palsy of tongue, muscles of chewing/swallowing and facial muscles due to loss of function of brainstem motor nuclei.
Caries worst prognosis.

Answer 494

A

Primarily Clinical

Braincord MRI: exclude structural causes - cervical cord compression (myelopathy) or brainstem lesions).
LP: exclude inflammatory cause
EMG: shows acute denervation

Use Revised EI Escorial Diagnostic Criteria (presence of UMN + LMN of the cranial, cervical, thoracic and lumbosacral segments of neuroaxis.

Answer 495

A

MDT: Neurologist, physio, OT, dietician, specialist nurse, GP, family
Discussion of end-of-life decision
- Advanced directive
- DNAR

Answer 496

A

Riluzole: antiglutamatergic that prolongs life by 3 months.

Answer 497

A

Drooling: proantheline or amitriptyline
Dysphagia: NG or PEG feeding
Respiratory failure: NIV
Pain: analgesic ladder
Spasticity: Baclofen

Answer 498

A

ALS - Loss of Motor neurones in cortex and anterior horn (UMN + LMN + fasciculation)
Progressive Bulbar Palsy (only affects CN9-12 –> bulbar palsy)
Progressive Muscular Atrophy (Anterior horn cell lesions (LMN signs only), distal to proximal. Better prognosis vs ALS)

Primary Lateral Sclerosis

Loss of Betz cells in motor cortex –> mainly UMN signs
Marked spastic leg weakness and pseudobulbar palsy
No cognitive decline

Answer 499

A

Disease of nuclei 9-12 in the medulla. 
- LMN lesions of tongue, talking and swallowing. 
- Signs 
Flaccid, fasciculating tongue
Speech: quiet or nasal (donald duck) 
Normal/absent jaw jerk
Loss of gag reflex

Causes

MND
GBS
MG
Central pontine myelinolysis

Answer 500

A

Commoner than bulbar palsy
Bilateral lesions above mid-pons (corticobulbar tracts) –> UMN lesions of swallowing and talking.
CN motor nuclei have bilateral cortical representation except lower half of CN7.

Signs

Spastic tongue
Slow tongue movements with slow deliberate speech: Hot-potato speech
Brisk jaw jerk
Emotional incontinence

Causes

MS
MND
Stroke
CPM

Answer 501

A

RNA virus
Affects anterior horn cells
Fever, sore throat, myalgia.
- Asymmetric LMN paralysis
- No sensory involvement
- May be confined to upper or lower limbs or both
- Respiratory muscle paralysis can –> Death

Answer 502

A

Myopathy

Gradual onset
Symmetrical, proximal weakness: Difficulty combing hair, climbing stairs, getting up from chairs
Dystrophies usually affect specific muscle groups
Preserved tendon reflexes.

Neuropathy

Distal weakness
Paraesthesia (tingling) , bladder problems.

Other pointers-

Rapid onset: neuropathy, or drug, toxic or metabolic myopathy
Fatigability: MG, LEMS
Spontaneous pain and tenderness @ rest: inflammatory myopathy
Pain on exercise: ischaemia or metabolic myopathy
Oddly firm muscles: pseudohypertrophy in muscular dystrophies
Fasciculations: anterior horn cell or root disease

Answer 503

A

ESR, CK, AST, LDH

- EMG

Answer 504

A

Group of genetic disease with progressive degeneration and weakness of specific muscle groups.

Answer 505

A

3/1000 male births.
X-linked recessive –> non-functional dystrophin.

presents at 4 yrs old
Difficulty standing
Calf pseudohypertrophy
Resp failure
increasing lordosis
Diminished muscle tone + Deep tendon reflexes.

Investigations: increased CK
Some survive >20 yrs.

Can use steroids etc.

Answer 506

A

X-linked recessive
Partially functioning dystrophin
Presents later is less severe and has better prognosis.

Answer 507

A

Almost as common as DMD
AD inheritence 
- Presents @12-14 yrs old 
Difficulty puffing cheeks and raising arms above heads. 
Signs 
- Weakness of face, shoulders, upper arms (asymmetric with deltoids spared) 
- winging of scapula 
- Foot drop

Answer 508

A

AD Cl- channelopathy
Onset in 20s
Tonic muscle spasm (myotonia)

Lower Motor Neuron.

Presentation

Face

Myopathic face: Long, thin, expressionless
Wasting of facial muscles and SCM (guttering of the temporalis)
Bilateral Ptosis
Dysarthria: myotonia of tongue and pharynx.

Shake hand - squeeze my hand, and told for 3 seconds. try to let go. Percussion myotonia: hypothenar eminence depression visibly fills slowly after percussion.

Hands

Myotonia: slow relaxation so inability to release hand after shake.
Wasting and weakness of distal muscles + areflexia –> Wrist drop
Percussion myotonia: percuss thenar eminence –> involuntary thumb flexion.

Other signs

Frontal balding
Cataracts
DM
Cardiomyopathy, tachy/bradyarrythmias (pacemaker scar)
Dysphagia
Testicular atrophy

Assocations

Cataracts
Dysphagia
Cardiac - cardio + heart block (PPM)
DM
Hypogonasism

Invx

LFTs should be checked for NM rsp insufficient
ECG conduction block
Echo for CM
Fasting glucose DM
Slit lamp for cataracts
SALT
EMG: ‘ Dive bomber’ potentials.

How to present
- The gentleman has evidence of myopathic facies, frontotemporal hair loss with bilateral ptosis, wasting of the facial msucles and sternocleidomastoids.

There is also symmetrical wasting of the forearm muscles and small muscles of the hands bilaterally. There is a reduction in power distally in both arm in all muscle groups tested with normal sensation and coordination. The reflexes are reduced.

Mr X had difficulty in releasing my hand from a squeeze and opening his eyes when closed firmly - suggesting myotonia.

THis is likely to be myoptonic dystrophy> to complete my assessment I owuld like to exaomine the cardiovascular, check bloods, perform a full functional asssessment. Diagnosis can be confirmed with a family history, EMG and geentic testing.

Answer 509

A

No Rx for weakness
Phenytoin may improve myotonia
Caution with GA: high risk of anaesthetic complications.

Answer 510

A

Part of systemic disease

Hyperthyroidism, Cushing’s increased or decreased Ca.
Drugs: Steroids, Statins, ETOH.

Answer 511

A

Inclusion body myositis
Polymyositis
Dermatomyositis

Answer 512

A

AI disease mediated by Abs vs nicotinic Ach receptors

- Interferes with NM transmission via deletion of working post-synaptic receptor sites.

Answer 513

A

Increasing muscle fatigue

Extra-ocular: Bilateral ptosis, diplopia
Bulbar: voice deteriorates on counting to 50
Face: myasthenic snarl on attempt to smile
Neck: head droop
Limb: asymmetric, prox weakness
Normal tendon reflexes
Weakness worsened by: pregnancy,
infection,
emotion,
drugs (B-B, gent, opiates, tetracylines)

Answer 514

A

Tensilon Test

Give edrophonium IV
+ve if power improves within 1 min. Not commonly used due to risk of cardiac arrhythmia.

Anti-AChR Abs: Increases in 90%, MuSK abs

EMG: decreased response to a train of impulses

Respiratory function: Decreased FVC

Thymus CT

TFTs

Answer 515

A

Polymyositis
SLE
Botulism

Answer 516

A

<50yr MG is commoner in women and asssociated with other AI disease (DM, RA, Graves) and thymic hyperplasia
> 50 yrs MG is commoner in men and associated with thymic atrophy or thymic tumour

Answer 517

A

Symptom control:
Anticholinesterase: eg. pyridostigmine
- Cholingeric SEs= SLUDGEM

Immunosuppression

Rx relapse with pred
Steroid may be combined with azathioprine or methotrexate

Thymectomy

Consider if young onset and disease not control by anticholinesterases
Remission in 25%, benefit in further 50%.

Answer 518

A

Myasthenic Crisis
- Weakness of resp muscles during relapse may be lethal
- Monitor FVC: vent support if <20ml/kg
- Plasmapheresis or IVIg
- Manage trigger for relapse (drugs, infection)
= Beta-blockers such as bisoprolol are common precipitants of myasthenic crises.

Penicillamine 
Quinidine, procainamide
Beta-blockers 
Lithium
Phenytoin
Antibitocs: gentamicin, macrolides, quinolones, tetracyclines.

For surgery -

Answer 519

A

Abs to VGCC decreased influx of Ca2+ during presynaptic excitation –> Decreased presynaptic ACh-vesicle fusion

Answer 520

A

Paraneoplastic: Eg. SCLC

Autoimmune

Answer 521

A

Same as MG except: 
- LEMS 
LEgs weakness early (before eyes) 
- Extra: Autonomic and areflexia
- Movement improves symptoms 
- Small response to edrophonium
-Anti-VGC abs

Answer 522

A

3,4-diaminopyridine (amifampridine)
or IVIG
Do regular CXR/HRCTs as symptoms may precede Ca by 4 yrs

Answer 523

A

Botulinum toxin prevents Ach vesicles release
Descending flaccid paralysis with no sensory signs
Anti-cholingeric effects: Mydriasis, cycloplegia, n/v, dry mouth.
Benpen + antiserum

Answer 524

A

CAFE NOIR 
- Cafe au lait spots 
1st yr of life
Increase in size and no with age
Adults: >6, >15 mm across

Axillary Freckling
Skin folds
Fibromas, neuro-
1) Subcutaneous
Small, gelantinous, violaceous nodules
Appear at puberty
May itch
Increased with age

2) Plexiform
- Overgrowth of nerve trunk and overlyign tissue
- Large cutaneous mass

Complications
- Sarcomatous change, compression of nerve roots or GI bleeds.

Eye
Lisch Nodules (brown/translucent iris hamartomas so use a slit lamp)
Optic N. glioma.

Neoplasia

CNS (Meningioma, ependyoma, astrocytoma)
Phaemochromocytoma
Chronic or AML

Orthopaedic

Kyphoscoliosis
Sphenoid dysplasia

Decreased IQ and epilepsy

Renal - RAS –> Increased BP

Answer 525

A

MDT with GP
yearly BP + cutaneous review
Excise some neurofibromas
Genetic counselling

Answer 526

A

NF
Mccune-albright
Multiple Lentigenes
Urticaria Pigmentosa

Answer 527

A

Rarer - AD Chromosome 22 but 50% are de novo.

Answer 528

A

Cafe-au-Lait (Rare, fewer than NF1)
- Bilateral vestibular schwannaomas (Characteristic, symptomatic by 20yrs, SNHL is first sign, then tinnitus, vertgio).

Juvenile Posterior Subcapsular Lenticular Opacity
Form of cataract
Bilateral

Complications

Tender schwannomas of cranial and peripheral nerve and spinal nerve roots
Meningiomas, GLiomas.

Answer 529

A

Hearing Test from puberty

MRI brain if abnormality detected

Answer 530

A

Hemi-cord lesion
Ipsilateral loss of proprioception sense and vibration
Ipsilateral UMN weakness
Contralateral loss of pain sensation

Answer 531

A

Syrinx: tubular cavity in central canal of the cervical cord. Downward displacement or herniation of the cerebellar tonsils through the foramen magnum. Malformation may be congentia.
Onset @ 30 yrs.
Symptoms may be static for years but then worsen fast.
e. g on coughing, sneezing as pressure increased.
Commonly located in cervical cord
Syrinx expands ventrally affecting
Decussating spinothalamic neurons
Anterior horn cells
Corticospinal tracts

Answer 532

A

Blocked CSF circulation with decreased flow from posterior fossa
Arnold-Chiari malformation (cerebellum herniates through foramen magnum)
Masses

Spina bifida
2ndry to cord trauma, myelitis, cord tumours and AVM.

Answer 533

A

Dissociated Sensory Loss (absent pain + temp –> Scar from burns). = Cape sign.
Spastic weakness (upper limbs)
Paraesthesia
Neuropathic pain
Upgoing plantars, bowel and bladder dysfunction.

Preserved touch proprioception + vibration

Root distribution reflects syrinx location.
IN a cape distribution (upper limbs + chest).
- Wasting/weakness of hand± claw hand
- Loss of reflexes in upper limbs
- Charcot Joints: shoulder and elbow

Other signs

UMN weakness in lower limbs with upgoing plantars
Horner’s syndrome
Syringobulbia: cerebellar and lower CN signs
Kyphoscoliosis

Answer 534

A

MRI spine

Answer 535

A

Decompression at the foramen magnum for Chiari Mal.

Use Shunt.

Answer 536

A

AR progressive degeneration of DRGs, spinocerebrellar and corticospinal tracts and cerebrellar cells.

Mitochondrial disoder
Onset in teenage

Associated with HOCM and mild dementia

Answer 537

A

- Pes Cavus and scoliosis 
Bilateral cerebellar signs (age <25) 
- Ataxia 
- Dysarthria
- Nystagmus

Leg wasting + areflexia but extensor plantar
Loss of lower limb proprioception and vibration sense
Optic atrophy (paleness of the disc)
HOCM –> ESM + 4th heart sound
DM –> Hyperglycaemia

20 yr old present with progressive difficulty in walking. Legs are stiff she has been complaining of tripping . UNcle has similar symptoms. Paternal grandfather, also had life long difficulties walking and died of an MI at 59. On examination, she is dysarthrtic. Pes Cavus bilaterall.y
Cerebellar signs

Answer 538

A

Lower limb spasticity
Ataxia
Extrapyramidal signs

Answer 539

A

Retrovirus in Japan and Caribbean?

Features 
- Adult T cell leukaemia/lymphoma
- Tropical spastic paraplegia
Slowly progressing spastic paraplegia
Sensory loss and paraesthesia
Bladder dysfunction

Answer 540

A

On inspection Mrs is well There is a right sided pronator drift and psuedoathetosis of the fingers (suggesting loss of proprioception). There is disuse atrophy of the muscles of the right arm. There are pyramidal signs as evidenced by rebound phenomenon and an intention tremor.

The combination of cerebellar, dorsal and pyramidal signs suggest a central pathology and the most likely diagnosis is demyelinating disease such as multiple sclerosis. Mrs X is currently using a wheelchair and there is a urinary catheter in place. She needs a full functional assessment.

I’d like to examine the fundi to complete my examination. The diagnosis can be confirmed on MRI looking for periventricular white matter lesion and VEPs. A full history would be beneficial to assess.

Answer 541

A

There is an ataxic nystagmus in the right eye as if fails to adduct. When the abducting eye is covered the other eye is able to adduct normally.

This is intranuclear ophthalmoplegia which is most likely related to MS due to lesion in the medial longitudinal fasciculus.

Answer 542

A

HIV
CIDP
Multiple Myeloma
MGUS
HMSN

Answer 543

A

On inspection of MR X there is symmetrical wasting of the muscles of the lower limbs distally with evidence of hammer toes with relative preservation of the thigh muscles with pes cavus. THere is also wasting of the distal small muscles of the hands.

There is a LMN pattern of weakness in the extensor of the toes and feet and a loss of sensation to light touch in a stocking distribution in both legs. The ankle jerks are absent and the plantar reflexes show no response.

The gait is high-stepping.

There is a combined sensory and motor peripheral neuropathy - likely hereditary motor and sensory neuropathy.

Mr X is currently using foot splints as mobility aids. He needs a full functional assessment. The diagnosis can be confirmed with a family history, nerve conduction studies and genetic testing.

Answer 544

A

High Foot arch that does not flatten on weight bearing

Causes: bilateral: Friedrich’s ataxia, spinal cord tumours, syringomyelia.
Unilateral: polio, compartment syndrome, spinal trauma/tumour.

Answer 545

A

Posterior communicating artery aneurysms

Painful eye to move apart from laterally and downward. Pupil is enlarged and the eyelid drooping.

Answer 546

A

This gentleman has signs on inspection of a resting pill-rolling tremor, expressionless face and decreased blink rate.

The gait is stooped, slow to initiate, and the steps are shuffling with decreased arm swing.

On examination of the arms there are asymmetric: UMN signs including increased tone and lead-pipe rigidity in the left compared with right and some loss of muscle power in all groups tested.

There is bradykinesia to all movements. There is no sensory involvement.

This gentleman has signs consistent with Parkinsonism - he needs a full functional assessment and MMSE. He is currently limited in his mobility as he uses a walkign stick.

I would like to take a drug history, look for postural BP drop and examine the cranial nerves for limited upgaze.

Answer 547

A

Normal pressure hydrocephalus

Failure to absorb CSF in subarachnoid spcce
LP - Normal pressure
Shunt will treat 70%. - Ventriculoperitoneal shunting.

Wet, wobbly and whacky.

Answer 548

A

Right PICA (same side). Switches below that level.

Answer 549

A

Primary Position
Max diplopia (outer image)
3rd nerve pupil involvement

Answer 550

A

On inspection there has a complete right sided ptosis

Globe down and out

Pupil dilatation
- if present means parasympathetic nerve damage, only in surgical causes like tumours/dissection/PCAA (classically painful)

Diabetes spares the pupil classically

Answer 551

A

LPS - levator palpebrae superioris

Answer 552

A

Check the BP and the capillary glucose and examine for a 4th nerve palsy

Dilated pupil warrants CT scan + angiography

Answer 553

A

Mononeuritis multiplex,
HTN + DM;
autoimmune, MS.

Additional cause include

Infections: lyme disease, syphillis
Autoimmune disease: SLE,RA, Small vessel vasculitidies
Malignancy: haematological malignancy

Consider mass lesion or compression along route of nerve.

Mid-brain
Cavernous sinus
Base of skull.

Answer 554

A

Eye is held adducted and slightly elevated and the patient has a head tilt away from the affect eye.

Unable to depress eye in adduction - causes worse diplopia

Outer image disappears when the affected eye is covered.

Answer 555

A

Vertical diplopia - reading books or climbing stairs
Trauma
MOnoneuritis mutliplex
Congenital

III, IV, V1, VI - Cavernous sinus
- Tumour, thrombosis, aneurysm

Answer 556

A

Longest intracranial nerve - false localising sign
May be raised ICP or Cancer.
Tumour till proven otherwise.

Examine the other cranial nerves; 7th and 8th nerve palsies and cerebellar system.

Fundoscopy: papilloedema
Palsy results in defective abduction –> Horizontal diplopia.

Answer 557

A

ICP
Helps to be anatomical - so start at the nucleus
Nerve itself (infiltrated by heavy metal/sarcoid, demyelinate)
- Diabetic neuropathy
- Compression by tumour, arterial aneurysm
- CPA

Answer 558

A

Petrous temporal bone, lateral pons, cerebellar 
First sign - loss of corneal reflex
- Failure of Abduct eye
- SNHL 
- Facial sensation loss
- Cerebellar sign

-Which nerves? 69 Nooooo try 58.

Answer 559

A

Midbrain: ipsilateral III CN and contralateral hemiparesis.

Involves the oculomotor nerve resulting in an ipsilateral CN III palsy.

Answer 560

A

Lateral (Sensory + sympathetic + pain)

Pons = 5,7,8
MEdulla = 9,10,11

Medial (motor)

3,4 (midbrain)
Pons (6)
Medulla (12)

Answer 561

A

MG
Myotonic dystrophy
Bilateral Horner’s and 3rd Nerve palsy
Congenital

Answer 562

A

Compressive 3rd nerve

Holmes Adie Pupil

Answer 563

A

Miosis

Argyll-Robertson,
Horner’s

Answer 564

A

Mainly in women
Benign
Associated with Sjorgens
Sluggish pupil constriction to light, normal to accommodation.

May be associated with reduced/absent reflexes and autonomic neuropathy.

Answer 565

A

Small, irregularly shaped pupils
Neurosyphillis
Diabetes

Accommodates but doesn;t react

Answer 566

A

Dorsal guttering - first to be affected in ulnar lesion.

Answer 567

A

This elderly lady is well on inspection and hold her right hand in a flexed position at the elbow with her right leg in extension. The gait is hemiplegic.

On examination of the legs a pyramidal pattern of weakness is evident with UMN sign on the right including increased tone, reduced power to at least grade 4 (with relatively greater weakness in the flexors) and brisk reflexes. Coordinations is intact but sensations is impaired to light touch with no clearly demonstrable sensory level or dermatome.

Those signs suggest a hemiparesis and the commonest cause of this would be a CVA.

The patient is currently wheelchair bound. This lady needs a full functional assessment.
To complete my exam i would like to fully examine the neurology in the arms and cranial nerves, look at an ECG for AF, the BP chart and dipstick the urine to aggressively control her secondary risk factors.

Image the brain with a stroke protocol MRI.

Answer 568

A

Thiamine Deficiency - chronic alcohol use or repeated vomiting

Triad: Delirium, ataxia and an eye movement disorder (most common nystagmus, could be 6th nerve or INO) . Can also have peripheral neuropathy. Bilateral lateral rectus palsy.

-

Mamillary bodies - classically involved on MRI.

IV thiamine for 2 days, then tablets.

Irreversible damage = amnesic syndrome (Korsakoff psychosis).

Addition of antero-retrograde amnesia and confabulation.

Answer 569

A

Red reflex (loss in cataract, retinoblasta, vitreous haemorrhage)
Disc
Follow each vessel to periphery
Look at the light - macula

3 C of disc - Colour, cup and contour

Answer 570

A

Vitreous - DM
Retina (RA/RV occlusion, hemorrhagic macular degeneration)
Optic nerve (ischaemia)
Cortex

Headaches? GCA?

Unilateral

Compressive
Ischaemic
Demyelination

Bilateral

Inherited
Toxic
Nutritional - Vitamin A

Answer 571

A

Blind Patient (white stick)
ABsent red reflex - associated cataract
Peripheral retina - bone spickle pigmentation

Optic atrophy (pale disc)

50% is sporadic
Friedrich’s ataxia
Deafness (hearing-ad/white stick with red stripes): Kearns-Sayre syndrome.

Discussion - blind by age 40, first sign - reduction in night vision
Retinal degeneration
Vitamin A - slow progression.

Answer 572

A

Lawrence-Moon-Bardet- Diedl: polydactyl
Usher: deafness
Kearns-Sayre: ophthalmoplegia - can’t see.
Refsum: cerebellar ataxia

Answer 573

A

Cataract
ARMD
Diabetic maculopathy
Glaucoma

Answer 574

A

Retinopathy - Need photocoagulation (reduce rate of progression) - Tunnel vision (peripheral vision worse). Should have a full assessment.

Aneurysm
Hard exudates
Cotton wool spots

Maculopathy
- Symptomatic loss of central vision (treated with laser).

Answer 575

A

Dopamine blockage by antipsychotics trigger massive glutamate release and subsequent neurotoxicity and muscle damage.
Presents with pyrexia, muscle rigidity, autonomic lability: HTN, Tachy, tachypnoea, agitated delirium with confusion.

CK present in most cases. AKI secondary to rhabdo may develop in severe cases - leading to deranged U+E.

Management

Stop antipsychotic
IV fluid s
Dantrolene in some cases.
Mainly dopamine agonist like bromocriptine.

Answer 576

A

Some Say Marry Money But My Brother Says Big Brains Matter Most

Answer 577

A

Estimating onset of acute ischaemic stroke within 6 hours enabling more patients to receive thrombolytic therapy.

T2 is more sensitive than T1 weighted imaging in detecting ischaemic changes.

Answer 578

A

Early changes after stroke event and diagnose vascular strokes highlighting the early presence of hypoxic oedematous changes.

Answer 579

A

Detecting cerebral mets and abscesses.

Answer 580

A

Genetic condition of autosomal dominant inheritance.

Neurocutaneous feature:

Depigmented ash-leaf spots which fluoresce under UV light.
Roughened patches of skin over lumbar spine.
Adenoma sebaceum (angiofibromas): butterfly distribution over nose.
Fibromata beneath nails
Cafe-au-lait spots may be seen.

Neurological features

Developmental delay
Epilepsy
Intellectual impairment

Also

Retinal hamartomas
Rhabodymoyomas
Gliomatous changes in brain
PKD

Answer 581

A

Severe, complex, childhood onset epilepsy.

Associated with West Syndrome

Answer 582

A

Damage to nervous system - often difficult to treat and responds poorly to standard analgesia.

Examples - diabetic neuropathy, post-herpetic neuralgia, trigeminal neuralgia, prolapsed intervertebral disc.

First line
- Amitriptyline, duloxetine, gabapentin or pregabalin

if the first-line drug treatment does not work try one of the other 3 drugs.
Tramadol may be used as rescue therapy for exacerbation.
Topical capsaicin may be used for localised neuropathic pain

Answer 583

A

Push down with your right heel and lift left lef up against resistance.

Sign of leg paresis is a specific manouever to distinguish organic and non-organic paresis.

This is based on the concept of synergistic contraction. If a patient is genuinely making an effort, the examiner would feel the ‘normal’ limb pushing downwards against their hand as the patient tries to lift the ‘weak’ leg. Noticing this is indicative of an underlying organic cause of the paresis. If the examiner, however, fails to feel the ‘normal’ limb pushing downwards as the patient tries to raise their ‘weak’ leg, then this is suggestive of an underlying functional weakness, also known as ‘conversion disorder’.

Answer 584

A

Compares a reflex with/without distraction.

Answer 585

A

Reflex test to investigation corticospinal tract lesion.

This patient is likely to have degenerative cervical myelopathy [DCM], which is associated with upper motor neuron signs. Hoffmans sign is elicited by flicking the distal phalaynx of the middle finger to cause momentary flexion. A positive result is exaggerated flexion of the terminal phalanyx of the thumb. Patients with DCM often have subtle signs that are easily missed [1], but as a progressive condition, these are likely to get worse [2]. Whilst the sensitivity of signs is low (i.e. their absence does not rule out a problem), their specificity is high (i.e. there will be a problem). Therefore, in order to diagnose early DCM and improve patient outcomes, a high index of suspicion, alongside a comprehensive neurological examination and monitoring for progression is required.

Answer 586

A

Remains conscious during whole-body convulsions, has no post-ictal state and can remember what happened.

Focal seizures do NOT involve whole-body convulsions.

Answer 587

A

Grade 0 = No movement
Grade 1 = Trace of contraction
Grad 2 = Movement at the joint with gravity eliminated
Grade 3 = Movement against gravity, but not against added resistance
Grade 4 = Movement against an external resistance with reduced strength
Grade 5 = Normal strength

Answer 588

A

May result from a number of causes:

CNS abscesses may result from a number of causes including, extension of sepsis from middle ear or sinuses, trauma or surgery to the scalp, penetrating head injuries and embolic events from endocarditis
The presenting symptoms will depend upon the site of the abscess (those in critical areas e.g.motor cortex) will present earlier. Abscesses have a considerable mass effect in the brain and raised intra cranial pressure is common.
Although fever, headache and focal neurology are highly suggestive of a brain abscess the absence of one or more of these does not exclude the diagnosis, fever may be absent and even if present, is usually not the swinging pyrexia seen with abscesses at other sites.
Assessment of the patient includes imaging with CT scanning.
Treatment is usually surgical, a craniotomy is performed and the abscess cavity debrided. The abscess may reform because the head is closed following abscess drainage.

Answer 589

A

Injured during axillary dissection. Armpit numbness.

Answer 590

A

Sudden and transient loss of muscular tone caused by strong emotion (laughter, being frightened). Around 2/3 patients with narcolepsy have cataplexy.

Ranges from buckling knees to collapse.

Answer 591

A

Antiemetics used in the management of chemotherapy related nausea.

Mainly act in the chemoreceptor trigger zone area of the medulla oblongata.

Examples - ondansetron, granisetron.

Constipation and prolonged QT interval are common SE.

Answer 592

A

Ankle - S1-S2 Button my shoe
Knee - L3-L4 Kick the door
Bicep - C5-C6 Pick up sticks
Tricep - C7-C8 open the gate

Answer 593

A

Carbamazepine is chemically similar to the tricyclic antidepressant drugs. It is most commonly used in the treatment of epilepsy, particularly partial seizures, where carbamazepine remains a first-line medication. Other uses include
trigeminal neuralgia
bipolar disorder

Adverse effects
P450 enzyme inducer
dizziness and ataxia
drowsiness
headache
visual disturbances (especially diplopia)
Steven-Johnson syndrome
leucopenia and agranulocytosis
hyponatraemia secondary to syndrome of inappropriate ADH secretion

Answer 594

A

Can only occur if the spinal cord injury occurs above the T6 level.

Combination of severe HTN, flushing, sweating without congruent response in HR in the context of spinal cord injury.
Indicates autonomic dysreflexia
Indicates a discontinuity between nocioreceptors on the visera and brainstem autonomic centres due to cord injury.

Afferent signals cause a sympathetic spina lreflex via thoracolumbar outflow. Usually centrally mediated, parasympathetic response is prevented by the cord lesion.

Answer 595

A

Commonly develops after a lumbar puncture

Caffeine and fluids used to treat low pressure headache. Small volume of cerebrospinal fluid is removed, which reduced pressure around the brain.

Second line: blood patch - small volume of the patients blood in to the epidural space a the site of the original lumbar puncture. The blood clots and in effect patches up the meningeal leak.

usually develops within 24-48 hours following LP but may occur up to one week later
may last several days
worsens with upright position
improves with recumbent position

Factors contributing to headache

Increased needle size
Direction of bevel
Not replacing the stylet
Increased number of LP attempts

Factors which do not contribute to headache

Increased volume of CSF removed
Bed rest following procedure
Increased fluid intake post procedure
Opening pressure of CSF
Position of patient

Answer 596

A

Winds around the bone at the neck of the humerus. Also at risk during shoulder dislocation.

Answer 597

A

Restless legs syndrome (RLS) is a syndrome of spontaneous, continuous lower limb movements that may be associated with paraesthesia. It is extremely common, affecting between 2-10% of the general population. Males and females are equally affected and a family history may be present

Clinical features
uncontrollable urge to move legs (akathisia). Symptoms initially occur at night but as condition progresses may occur during the day. Symptoms are worse at rest
paraesthesias e.g. ‘crawling’ or ‘throbbing’ sensations
movements during sleep may be noted by the partner - periodic limb movements of sleeps (PLMS)

Causes and associations

there is a positive family history in 50% of patients with - idiopathic RLS
iron deficiency anaemia
uraemia
diabetes mellitus
pregnancy

Mangement

simple measures: walking,stretching, massaging affected limbs
treat any iron deficiency
dopamine agonists are first-line treatment (e.g. Pramipexole, ropinirole)
benzodiazepines
gabapentin
Ropinirole

Answer 598

A

Spontaneous intracranial hypotension is a very rare cause of headaches that results from a CSF leak. The leak is typically from the thoracic nerve root sleeves.

Risk factors include connective tissue disorders such as Marfan’s syndrome.

Key features
strong postural relationship with the headache generally much worse when upright. Patients may, therefore, be bed-bound

Investigations
MRI with gadolinium: typically shows pachymeningeal enhancement

Management
usually conservative
if this fails an epidural blood patch may be tried

Answer 599

A

Anaerobic organisms = Gardnerella vaginalis.

Fall in lactic acid - raised vaginal pH.

Fishy, offensive odour.

Amsel criteria

Thin, white homogenous discharge.
Clue cells on microscopy
Vaginal pH >4.5
positive whiff test.

Manage with oral metronidazole

Answer 600

A

Full spine MRI to search for skip lesions.

SEA is commonly caused by Staph A. Due to IVDU or direct inoculation.

Presents with fever, back pain, focal neurological deficits.

Answer 601

A

Pressure ulcers develop in patients who are unable to move parts of their body due to illness, paralysis or advancing age. They typically develop over bony prominences such as the sacrum or heel. The following factors predispose to the development of pressure ulcers:
malnourishment
incontinence
lack of mobility
pain (leads to a reduction in mobility)

Waterlow score used to screen for patients who are at risk of developing pressure area.

Answer 602

A

Insert an intracranial pressure monitoring device.

For those with GCS 3-8 with normal CT.

Mandatory for patients with GCS 3-8 with abnormal CT can.

Answer 603

A

Poor CNS Perfusion

Answer 604

A

3rd nerve compression secondary to tentorial herniation

Answer 605

A

Opiates
Pontine lesions
Metabolic encephalopathy

Answer 606

A

Sympathetic pathway disruption

Answer 607

A

Criteria for brain stem death testing

Deep coma of known aetiology
reversible cause excluded
No sedation
Normal electrolytes.

Answer 608

A

Fixed pupils which do not respond to sharp changes in the intensity of incident light
No corneal reflex
Absent oculo-vesibular reflex
No response to supraorbital pressure
No cough reflex to bronchial stimulation or gagging response
No observed respiratory effort in response to disconnection of ventilator.

Answer 609

A

GCS <8 or = 8 with open fracture and depressed skull fracture.

Answer 610

A

Within 1 hr.

Answer 611

A

Age 65 and older
Danger mechanism of injury - fall from height, axial load to head like diving.
Focal peripheral neurological deficit
Paraesthesia in the upper or lower limbs
Provisional written radiology report should be made within 1hr of scan being performed.

Answer 612

A

Depressed fracture of the zygoma.

Answer 613

A

Present with increased head circumference, a bulging fontanelle and sunsetting of the eyes (pressure on the tectal plate)

Answer 614

A

Hydrocephalus is defined as a condition in which there is an excessive volume of cerebrospinal (CSF) fluid within the ventricular system of the brain and is caused by an imbalance between CSF production and absorption.

Answer 615

A

Headache (typically worse in the morning, when lying down and during valsalva)
Nausea and vomiting
Papilloedema
Coma (in severe cases)

Answer 616

A

Obstructive (‘non-communicating’) hydrocephalus - due to the structural pathology blocking the cerebrospinal fluid.

Non-obstructive (‘communicating’) hydrocephalus - increased production or failure of absorption - post-haemorrhagic.

Answer 617

A

Dementia
Incontinence
Disturbed gait

Answer 618

A

Head is rapidly accelerated or decelerated.

Multiple haemorrhages
Diffuse axonal damage in white matter.

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Neurology AS Flashcards

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