Neuroscience Flashcards

Question 1

Q

Learning objectives

Question 2

Q

Define Bell’s palsy

Answer

A

• Idiopathic lower motor neurone facial nerve palsy

Question 3

Q

Explain the aetiology/risk factors of Bell’s palsy

Answer

A

IDIOPATHIC
60% are preceded by an upper respiratory tract infection
This suggests that it has a viral or post-viral aetiology

Question 4

Q

Summarise the epidemiology of Bell’s palsy

Answer

A

• Most cases: 20-50 yrs

Question 5

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Recognise the presenting symptoms of Bell’s palsy

Answer

A

• Prodrome of pre-auricular pain (in some cases)
• This is followed by unilateral facial weakness and droop
• Maximum severity: 1-2 days
• 50% experience facial, neck or ear pain or numbness
• Hyperacuisis
o This is due to stapedius paralysis
• Loss of taste (uncommon)
• Tearing or drying of exposed eye
o Because it may be difficult to close the eye fully

Question 6

Q

Recognise the signs of Bell’s palsy on physical examination

Answer

A

• Lower motor neurone weakness of facial muscles
o Affects ipsilateral muscles of facial expression
o Does NOT spare the muscles of the upper part of the face (unlike upper motor neurone facial nerve palsy)
• Bell’s Phenomenon
o Eyeball rolls up but the eye remains open when trying to close their eyes
• Despite reporting unilateral facial numbness, clinical testing of sensation is normal
• Examine the ears to check for other causes of facial nerve palsy (e.g. otitis media, herpes zoster infection)

Question 7

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Identify appropriate investigations for Bell’s palsy

Answer

A

Usually unnecessary (except for excluding other causes)

* EMG - may show local axonal conduction block

Question 8

Q

Generate a management plan for Bell’s palsy

Answer

A

• Protection of cornea with protective glasses/patches or artificial tears
• High-dose corticosteroids is useful within 72 hrs
o Only given if Ramsey-Hunt Syndrome is excluded
• Surgery - lateral tarsorrhaphy (suturing the lateral parts of the eyelids together)
o Performed if imminent or established corneal damage

Question 9

Q

Identify possible complications of Bell’s palsy

Answer

A

• Corneal ulcers
• Eye infection
• Aberrant reinnervation
o E.g. Blinking may cause contraction of the angle of the mouth due to aberrant sympathetic innervation of orbicularis oculi and oris
o Crocodile Tears Syndrome - parasympathetic fibres may aberrantly reinnervate the lacrimal glands causing tearing whilst salivating

Question 10

Q

Summarise the prognosis for patients with Bell’s palsy

Answer

A

• 85-90% recover function within 2-12 weeks with or without treatment

Question 11

Q

Define central nervous system (CNS) tumours

Answer

A

Tumours of the central nervous system.
NOTE: brain tumours cannot be truly differentiated into benign and malignant because supposedly ‘benign’ tumours can cause significant morbidity and mortality

Instead they are differentiated into:

High-Grade = a tumour that grows rapidly and aggressively
• Glioma and glioblastoma multiforme
• Primary cerebral lymphoma
• Medulloblastoma

Low-Grade = a tumour that grows slowly and may or may not be successfully treated 
•	Meningioma
•	Acoustic neuroma 
•	Neurofibroma
•	Pituitary tumour
•	Craniopharyngeoma
•	Pineal tumour

Brain metastases commonly arise from:
•	Lung
•	Breast 
•	Stomach 
•	Prostate 
•	Thyroid 
•	Colorectal

Question 12

Q

Explain the aetiology / risk factors of central nervous system (CNS) tumours

Answer

A

• Can arise from any of the cells in the CNS (e.g. glial cells, ependymal cells, oligodendrocytes)
• Risk Factors
o Ionising radiation
o Immunosuppression (e.g. HIV)
o Inherited syndromes (e.g. neurofibromatosis, tuberous sclerosis)

Question 13

Q

Summarise the epidemiology of central nervous system (CNS) tumours

Answer

A

Primary brain tumours = 2% of tumours diagnosed in the UK
AIDS patients have an increased risk of developing CNS tumours
Can develop at any age but are more common between 50-70 yrs

Question 14

Q

Recognise the presenting symptoms & signs of central nervous system (CNS) tumours

Answer

A

Presentation depends on the size and location of the tumour
Headache (worse in the morning and when lying down)
Nausea and vomiting
Seizures
Progressive focal neurological deficits
Cognitive and behavioural symptoms
Papilloedema

Question 15

Q

Identify appropriate investigations for central nervous system (CNS) tumours and interpret the results

Answer

A

Bloods - check CRP/ESR to eliminate other causes (e.g. temporal arteritis)
CT/MRI
Biopsy and tumour removal
Magnetic resonance angiography - define changing size and blood supply of the tumour
PET
NOTE: distant metastases are RARE with primary CNS tumours

Question 16

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Define cluster headache

Answer

A

• A neurological disorder characterised by recurrent, severe headaches on one side of the head typically around the eye, tending to recur over a period of several weeks.

Question 17

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Explain the aetiology/risk factors of cluster headaches

Answer

A

UNKNOWN aetiology

* Genetic factor implicated

Question 18

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Summarise the epidemiology of cluster headaches

Answer

A

More common in MEN

* Usually occurs between 20-40 yrs

Question 19

Q

Recognise the presenting symptoms and signs of cluster headaches

Answer

A

• TWO types of cluster headaches:
o Episodic - occurring in periods lasting 7 days - 1 year, separated by pain-free periods lasting a month or longer. Cluster periods usually last between 2 weeks - 3 months
o Chronic - occurring for 1 year without remissions or with short-lived remissions of less than a month. Chronic cluster headaches can arise de novo or arise from episodic cluster headaches.
• Pattern of Occurrence
o Headaches occur in bouts lasting 6-12 weeks
o These occur once every year or once every 2 years, and tends to occur at the same time each year
o Headaches typically occurs at night, 1-2 hours after falling asleep
o The interval between bouts tends to be the same
o 10% with episodic cluster headaches go on to develop chronic cluster headaches
• Nature of Symptoms
o Pain comes on rapidly over around 10 mins
o Pain is intense, sharp and penetrating
o Pain is centred around the eye, temple or forehead
o Pain is unilateral
o Pain typically lasts around 45-90 mins (range: 15 mins - 3 hours)
o Pain occurs once or twice daily
o Associated autonomic features:
• Ipsilateral lacrimation
• Rhinorrhoea
• Nasal congestion
• Eye lid swelling
• Facial swelling
• Flushing
• Conjunctival injection
• Partial Horner’s syndrome
o Patients find it difficult to stay still and will pace around, occasionally banging their heads on things
• Triggers
o ALCOHOL - major precipitant
o Exercise and solvents
o Sleep disruption

Question 20

Q

Identify appropriate investigations for cluster headaches

Answer

A

CLINICAL diagnosis based on history

* Neurological examination may be useful

Question 21

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Define encephalitis

Answer

A

• Inflammation of the brain parenchyma

Question 22

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Explain the aetiology / risk factors of encephalitis

Answer

A

Most commonly due to VIRAL INFECTION
Viral Causes
o	Herpes Simplex Virus - MOST COMMON in the UK 
o	VZV
o	Mumps 
o	Adenovirus 
o	Coxsackie 
o	EBV
o	HIV
o	Japanese encephalitis 
Non-Viral (RARE)
o	Syphilis 
o	Staphylococcus aureus 
In immunocompromised patients
o	CMV
o	Toxoplasmosis
o	Listeria
Autoimmune or Paraneoplastic
o	Associated with certain antibodies (e.g. anti-NMDA, anti-VGKC)

Question 23

Q

Summarise the epidemiology of encephalitis

Answer

A

• UK incidence: 7.4/100,000

Question 24

Q

Recognise the presenting symptoms of encephalitis

Answer

A

In most cases, encephalitis is self-limiting and mild
Subacute onset (hours to days)
Headache
Fever
Vomiting
Neck stiffness
Photophobia
Behavioural changes
Drowsiness
Confusion
History of seizures
Focal neurological symptoms (e.g. dysphagia, hemiplegia)
Obtain a detailed TRAVEL HISTORY

Question 25

Q

Recognise the signs of encephalitis on physical examination

Answer

A

Reduce consciousness
Deteriorating GCS
Seizures
Pyrexia

Signs of Meningism:
o Neck stiffness
o Photophobia
o Kernig’s test positive

Signs of raised ICP:
o Cushing’s Response: hypertension + bradycardia + irregular breathing
o Papilloedema
Focal neurological signs
MMSE may reveal cognitive/psychiatric disturbance

Question 26

Q

Identify appropriate investigations for encephalitis and interpret the results

Answer

A

Bloods
o	FBC - high lymphocytes (indicates viral cause) 
o	U&Es - SIADH may occur as a result of encephalitis 
o	Glucose 
o	Viral serology
o	ABG 
MRI/CT 
o	Exclude mass lesion 
o	HSV causes oedema of the temporal lobe on MRI 
Lumbar Puncture
o	High lymphocytes 
o	High monocytes 
o	High protein 
o	Glucose is usually normal
o	Viral PCR 
EEG - may show epileptiform activity 
Brain biopsy (rarely needed)

Question 27

Q

Define epilepsy

Answer

A

• A tendency to recurrent unprovoked seizures
• You need to have had > 2 seizures for epilepsy to be diagnosed
• Definition of Seizure: paroxysmal synchronised cortical electrical discharges
• Types of Seizure
o Focal Seizure: seizure localised to specific cortical regions (e.g. temporal lobe seizure). These can be further divided into:
• COMPLEX partial seizure: consciousness is affected
• SIMPLE partial seizure: consciousness is NOT affected
o Generalised Seizure: seizures that affect the whole of the brain. It also affects consciousness. There are different types of generalised seizure:
• Tonic-clonic
• Absence
• Myoclonic
• Atonic
• Tonic

Question 28

Q

Explain the aetiology/risk factors of epilepsy

Answer

A

• Most cases are IDIOPATHIC
• Primary epilepsy syndromes (e.g. idiopathic generalised epilepsy)
• Secondary Seizures
o Tumour
o Infection (e.g. meningitis)
o Inflammation (e.g. vasculitis)
o Toxic/Metabolic (e.g. sodium imbalance)
o Drugs (e.g. alcohol withdrawal)
o Vascular (e.g. haemorrhage)
o Congenital abnormalities (e.g. cortical dysplasia)
o Neurodegenerative disease (e.g. Alzheimer’s disease)
o Malignant hypertension or eclampsia
o Trauma
• Common things that look like seizures
o Syncope
o Migraine
o Non-epileptiform seizure disorder (e.g. dissociative disorder)
• Pathophysiology of Seizures
o Result from an imbalance in the inhibitory and excitatory currents or neurotransmission in the brain
o Precipitants include anything that promotes excitation of the cerebral cortex
o Often it is unclear why the precipitants cause seizures

Question 29

Q

Summarise the epidemiology of epilepsy

Answer

A

COMMON
1% of the general population
Typical age of onset: CHILDREN and ELDERLY

Question 30

Q

Recognise the presenting symptoms of epilepsy

Answer

A

• NOTE: try and obtain a collateral history from a witness as well as the patient
• Key features to consider when taking a history from a potential epilepsy patient:
o Rapidity of onset
o Duration of episode
o Any alteration in consciousness?
o Any tongue-biting or incontinence?
o Any rhythmic synchronous limb jerking?
o Any post-ictal abnormalities (e.g. exhaustion, confusion)?
o Drug history (alcohol, recreational drugs)
• Focal Seizure Presentation
o Frontal Lobe Focal Motor Seizure
• Motor convulsions
• May show a Jacksonian march (when the muscular spasm caused by the simple partial seizure spreads from affecting the distal part of the limb towards the ipsilateral face)
• May show post-ictal flaccid weakness (Todd’s paralysis)
o Temporal Lobe Seizures
• Aura (visceral or psychic symptoms)
• Hallucinations (usually olfactory or affecting taste)
o Frontal Lobe Complex Partial Seizure
• Loss of consciousness
• Involuntary actions/disinhibition
• Rapid recovery
• Generalised Seizures
o Tonic-Clonic (Grand Mal)
• Vague symptoms before attack (e.g. irritability)
• Tonic phase (generalised muscle spasm)
• Clonic phase (repetitive synchronous jerks)
• Faecal/urinary incontinence
• Tongue biting
• Post-ictal phase: impaired consciousness, lethargy, confusion, headache, back pain, stiffness
o Absence (Petit Mal)
• Onset in CHILDHOOD
• Loss of consciousness but MAINTAINTED POSTURE
• The patient will appear to stop talking and stare into space for a few seconds
• NO post-ictal phase
o Non-Convulsive Status Epilepticus
• Acute confusional state
• Often fluctuating
• Difficult to distinguish from dementia

Question 31

Q

Recognise the signs of epilepsy on physical examination

Answer

A

Depends on aetiology

* Patients tend to be normal in between seizures

Question 32

Q

Identify appropriate investigations for epilepsy

Answer

A

•	Bloods
o	FBC
o	U&E
o	LFTs
o	Glucose 
o	Calcium
o	Magnesium
o	ABG 
o	Toxicology screen 
o	Prolactin - shows a transient increase shortly after seizures 
•	EEG
o	Helps to confirm diagnosis 
o	Helps classify the epilepsy 
o	Ictal EEGs are particularly useful (i.e. during a seizure)
•	CT/MRI
o	Shows structural, space-occupying or vascular lesions 
•	Other investigations
o	If it is suspected to be a secondary seizure (e.g. due to infection)

Question 33

Q

Generate a management plan for epilepsy

Answer

A

• Treatment of STATUS EPILEPTICUS
o DEFINITION of Status Epilepticus: a seizure lasting > 30 mins or repeated seizure without recovery and regain of consciousness in between
o Although the definition states that the seizure must last > 30 mins, treatment is usually initiated early (after around 5-10 mins)
o ABC approach
o Check GLUCOSE (give glucose if hypoglycaemic)
o IV lorazepam OR IV/PR diazepam - REPEAT again after 10 mins if seizure does not terminate
o If seizures recur following the next dose of lorazepam or diazepam, consider IV phenytoin - an ECG monitor is required
• NOTE: other agents include phenobarbitone, levetiracetam and sodium valproate
o If this also fails, consider general anaesthesia (e.g. thiopentone) - intubation and mechanical ventilation required
o Treat the CAUSE (e.g. hypoglycaemia or hyponatraemia)
o Check plasma levels of anticonvulsants (because status epilepticus is often caused by lack of compliance with anti-epileptic medications)
• Treatment of newly diagnosed epilepsy
o Only start anti-convulsant treatment after > 2 unprovoked seizures
o FOCAL Seizure 1st Line: lamotrigine or carbamazepine
o GENERALISED Seizure 1st Line: sodium valproate
o Start treatment with only ONE anti-epileptic drug
o Other anti-convulsants: phenytoin, levetiracetam, clobazam, topiramate, gabapentin, vigabatrin
• Patient Education
o Avoid triggers
o Use seizure diaries
o Particular consideration for women of child-bearing age because the anti-epileptic drugs can have teratogenic effects
o Be careful of drug interactions (e.g. AEDs can reduce the effectiveness of the oral contraceptive pill)
• Surgery may be considered for refractory epilepsy

Question 34

Q

Identify possible complications of epilepsy

Answer

A

•	Fractures from tonic-clonic seizures 
•	Behavioural problems 
•	Sudden death in epilepsy (SUDEP)
•	Complications of anti-epileptic drugs:
o	Gingival hypertrophy (phenytoin)
o	Neutropaenia and osteoporosis (carbamazepine)
o	Stevens-Johnson syndrome (lamotrigine)

Question 35

Q

Summarise the prognosis for patients with epilepsy

Answer

A

• 50% remission at 1 year

Question 36

Q

Define extradural haemorrhage

Answer

A

• Bleeding and accumulation of blood in the extradural space

Question 37

Q

Explain the aetiology / risk factors of extradural haemorrhage

Answer

A

TRAUMA
o Usually due to fracture of the temporal or parietal bones leading to rupture of the middle meningeal artery

Risk Factors
o Bleeding tendency
• E.g. haemophilia, anticoagulant therapy

Question 38

Q

Summarise the epidemiology of extradural haemorrhage

Answer

A

UK incidence: 20/10,000
10% of severe head injuries
Most commonly seen in YOUNG ADULTS

Question 39

Q

Recognise the signs of extradural haemorrhage on physical examination

Answer

A

Head injury with temporary loss of consciousness
Followed by lucid interval
Followed by progressive deterioration in conscious level

Question 40

Q

Recognise the presenting symptoms of extradural haemorrhage

Answer

A

•	Scalp trauma or fracture 
•	Headache 
•	Deteriorating GCS 
Signs of raised ICP 
o	E.g. dilated, unresponsive pupil on the side of the injury 
Cushing's Reflex
o	Hypertension 
o	Bradycardia 
o	Irregular breathing

Question 41

Q

Identify appropriate investigations for extradural haemorrhage and interpret the results

Answer

A

• Urgent CT Scan

o Check for a haematoma
o Look for features of raised ICP (e.g. midline shift)

Question 42

Q

Define Guillain-Barre syndrome

Answer

A

• Acute inflammatory demyelinating polyneuropathy

Question 43

Q

Explain the aetiology/risk factors of Guillain-Barre syndrome

Answer

A

• An inflammatory process where antibodies after a recent infection react with self-antigen on myelin or neurons
• There is often no aetiological trigger identified (40% of cases are idiopathic)
• Other causes:
o Post-infection (1-3 weeks) - bacterial, HIV, herpes viruses
o Malignancy - e.g. lymphoma
o Post-vaccination

Question 44

Q

Summarise the epidemiology of Guillain-Barre syndrome

Answer

A

UK incidence: 1-2/100,000

* Affects all age groups

Question 45

Q

Recognise the presenting symptoms of Guillain-Barre syndrome

Answer

A

• PROGRESSIVE symptoms
• < 1 month duration of:
o ASCENDING symmetrical limb weakness (lower > upper)
o ASCENDING paraesthesia
• Cranial nerve involvement (leading to, for example, dysphagia, dysarthria, facial weakness)
• Respiratory muscles may be affected in SEVERE cases
• Miller-Fisher Variant (RARE) = ophthalmoplegia, ataxia, arreflexia

Question 46

Q

Recognise the signs of Guillain-Barre syndrome on physical examination

Answer

A

• General MOTOR Examination
o Hypotonia
o Flaccid paralysis
o Arreflexia (ascending upwards from feet to head)
• General SENSORY Examination
o Impairment of sensation in multiple modalities (ascending from feet to head)
• Cranial Nerve Palsies
o Facial nerve weakness
o Abnormality of external ocular movements
o If pupil constriction is affected, consider botulism
• Type II Respiratory Failure
o Due to paralysis of respiratory muscles
• Autonomic Function
o Assess postural blood pressure change and arrhythmias

Question 47

Q

Identify appropriate investigations for Guillain-Barre syndrome

Answer

A

•	Lumbar Puncture
o	HIGH protein 
o	NORMAL cell count and glucose 
•	Nerve Conduction Study
o	Reduced conduction velocity
o	NOTE: it may be normal in the early stages of the disease 
•	Bloods
o	Anti-ganglioside antibodies in Miller-Fisher variant + 25% of Guillain-Barre cases
•	Spirometry
o	Reduced fixed vital capacity - suggests ventilatory weakness 
•	ECG
o	Arrhythmias may develop

Question 48

Q

Define Horner’s Syndrome

Answer

A

•	A condition that results from the disruption of the sympathetic nerves supplying the face resulting in a triad of:
o	Ptosis 
o	Miosis 
o	Anhydrosis
o	(and enophthalmos)

Question 49

Q

Explain the aetiology/risk factors of Horner’s syndrome

Answer

A

•	It is caused by disruption of the sympathetic nerves 
•	Causes
o	Strokes 
o	Multiple sclerosis 
o	Apical lung tumours 
o	Lymphadenopathy 
o	Basal skull tumours 
o	Carotid artery dissection
o	Neck trauma

Question 50

Q

Summarise the epidemiology of Horner’s syndrome

Answer

A

RARE

* Important sign that is associated with various diseases (most notably, Pancoast tumours)

Question 51

Q

Recognise the presenting symptoms of Horner’s syndrome

Answer

A

Inability to open the eye fully on the affected side
Loss of sweating on affected side
Facial flushing
Orbital pain/headache
Other symptoms based on CAUSE

Question 52

Q

Recognise the signs of Horner’s syndrome on physical examination

Answer

A

Ptosis
Miosis
Anhydrosis
Enophthalmos

Question 53

Q

Identify appropriate investigations for Horner’s syndrome

Answer

A

Investigations are directed towards figuring out the underlying cause
CXR - apical lung tumour
CT/MRI - cerebrovascular accidents
CT angiography - dissection

Question 54

Q

Generate a management plan for Horner’s syndrome

Answer

A

Horner’s syndrome is a sign not a disease in itself
So, the management depends on the cause (e.g. management for carotid dissection is very different to management of apical lung tumours)

Question 55

Q

Identify possible complications of Horner’s syndrome

Answer

A

• Depends on cause

Question 56

Q

Summarise the prognosis of Horner’s syndrome

Answer

A

• Depends on the cause

Question 57

Q

Define Huntington’s disease

Answer

A

• Autosomal dominant trinucleotide repeat disease characterised by progressive chorea and dementia, typically commencing in middle age

Question 58

Q

Explain the aetiology/risk factors of Huntington’s disease

Answer

A

The huntingtin gene codes for a protein called huntingtin
In the huntingtin gene there is a trinucleotide repeat expansion (CAG) that results in toxic gain of function
Autosomal DOMINANT
Earlier age of onset with each successive generation

Question 59

Q

Summarise the epidemiology of Huntington’s disease

Answer

A

• Average age of onset: 30-50 yrs

Question 60

Q

Recognise the presenting symptoms of Huntington’s disease

Answer

A

•	Family history 
•	INSIDIOUS onset in middle-age 
•	Progressive 
•	Fidgeting 
•	Clumsiness 
•	Involuntary, jerky, dyskinetic movements often accompanied by grunting and dysarthria
•	EARLY COGNITIVE CHANGES:
o	Lability 
o	Dysphoria (a state of unease or generalised dissatisfaction with life) 
o	Mental inflexibility
o	Anxiety
o	Develops into dementia 
•	LATER STAGES:
o	Rigid 
o	Akinetic
o	Bed-bound 
•	Enquire about drug history (especially cocaine and anti-psychotics)

Question 61

Q

Recognise the signs of Huntington’s disease on physical examination

Answer

A

Chorea
Dysarthria
Slow voluntary saccades
Supranuclear gaze restriction
Parkinsonism
Dystonia
MMSE shows cognitive and emotional deficits

Question 62

Q

Identify appropriate investigations for Huntington’s disease

Answer

A

• Genetic Analysis
o Diagnostic if there are > 39 CAG repeats in the HD gene
o Reduced penetrance leads to an intermediate number of CAG repeats
• Imaging
o Brain MRI or CT may show symmetrical atrophy of the striatum and butterfly dilation of the lateral ventricles
• Bloods
o To exclude other pathology

Question 63

Q

Define hydrocephalus

Answer

A

• Enlargement of the cerebral ventricular system.
• It can be subdivided into obstructive and non-obstructive
o AKA communicating and non-communicating
• Hydrocephalus ex vacuo = apparent enlargement of the ventricles as a compensatory change due to brain atrophy

Question 64

Q

Explain the aetiology/risk factors of hydrocephalus

Answer

A

• Abnormal accumulation of CSF in the ventricles can be caused by:
o OBSTRUCTIVE: Impaired outflow of the CSF from the ventricular system
• Lesions of the 3rd and 4th ventricle or cerebral aqueduct
• Posterior fossa lesions (e.g. tumour) compressing the 4th ventricle
• Cerebral aqueduct stenosis
o NON-OBSTRUCTIVE: Impaired CSF reabsorption into the subarachnoid villi
• Tumours
• Meningitis
• Normal Pressure Hydrocephalus - idiopathic chronic ventricular enlargement. The long white matter tracts are damaged leading to gait and cognitive decline

Answer 64

A

• Bimodal age distribution
o YOUNG - congenital malformations and brain tumours
o ELDERLY - strokes and tumours

Answer 65

A

•	Obstructive Hydrocephalus 
o	Acute drop in conscious level
o	Diplopia
•	Normal Pressure Hydrocephalus
o	Triad of symptoms:
•	Dementia 
•	Gait disturbance 
•	Urinary incontinence

Answer 66

A

•	Obstructive Hydrocephalus
o	Low GCS 
o	Papilloedema 
o	6th nerve palsy 
•	6th nerve has the longest intracranial path of all the cranial nerves and so is most susceptible to palsy due to raised ICP
o	NEONATES:

•	Increased head circumference 
•	Sunset sign (downward conjugate deviation of the eyes)
•	Normal Pressure Hydrocephalus
o	Cognitive impairment 
o	Gait apraxia (shuffling)
o	Hyperreflexia

Answer 67

A

• CT Head
o FIRST-LINE for detecting hydrocephalus
o May also pick up the cause (e.g. tumour)
• CSF
o From ventricular drain or lumbar puncture
o May indicate pathology (e.g. tuberculosis)
o Check MC&S, protein and glucose
• Lumbar Puncture
o IMPORTANT: contraindicated if raised ICP
o Therapeutic in normal pressure hydrocephalus

Answer 68

A

• Inflammation of the leptomeningeal (pia and arachnoid mater) coverings of the brain, most commonly due to infection

Answer 69

A

BACTERIAL
Neonates
•	Group B streptococci
•	Escherichia coli
•	Listeria monocytogenes
Children
•	Haemophilus influenzae
•	Neisseria meningitidis 
•	Streptococcus pneumoniae
Adults
•	Neisseria meningitidis
•	Streptococcus pneumoniae
•	Tuberculosis
Elderly
•	Streptococcus pneumoniae
•	Listeria monocytogenes

VIRAL
o	Enteroviruses 
o	Mumps 
o	HSV
o	VZV
o	HIV

Fungal
o	Cryptococcus (common cause of meningitis in HIV patients)

Others
o Aseptic meningitis (not due to microbes)
o Mollaret’s meningitis (recurrent benign lymphocytic meningitis)

RISK FACTORS
o	Close communities (e.g. college halls) 
o	Basal skull fractures 
o	Mastoiditis 
o	Sinusitis 
o	Inner ear infections 
o	Alcoholism
o	Immunodeficiency
o	Splenectomy 
o	Sickle cell anaemia 
o	CSF shunts 
o	Intracranial surgery

Answer 70

A

• UK: 2500 notifications/yr

Answer 71

A

Severe headache
Photophobia
Neck or backache
Irritability
Drowsiness
Vomiting
High-pitched crying or fits (common in children)
Reduced consciousness
Fever

IMPORTANT: take a good travel history and exposure history and take not of exposure to any of the following
o Rodents (lymphocytic choriomeningitis virus)
o Ticks (Lyme borrelia, Rocky Mountain spotted fever)
o Mosquitoes (West Nile virus)
o Sexual activity (HSV-2, HIV, syphilis)
o Travel

Answer 72

A

• Signs of MENINGISM
o Photophobia
o Neck stiffness
o Kernig’s Sign - with the hips flexed, there is pain/resistance on passive knee extension
o Brudzinski’s Sign - flexion of the hips when the neck is flexed

•	Signs of INFECTION
o	Fever 
o	Tachycardia
o	Hypotension
o	Skin rash 
o	Altered mental state

Answer 73

A

Bloods
o Two sets of blood cultures

Imaging
o CT scan - exclude mass lesion or raised ICP before LP

Lumbar Puncture
o	MC&S
o	Bacterial meningitis:
•	Cloudy CSF 
•	High neutrophils
•	High protein
•	Low glucose 
o	Viral meningitis:
•	High lymphocytes 
•	High protein 
•	Normal glucose 
o	TB meningitis:
•	Fibrinous CSF 
•	High lymphocytes 
•	High protein 
•	Low glucose

Answer 74

A

IMMEDIATE IV Antibiotics (before LP)
o First choice: 3rd generation cephalosporin (e.g. cefotaxime or ceftriaxone)
o Benzylpenicillin may be used as an initial blind therapy

Dexamethasone IV
o Given shortly before or with the first dose of antibiotics
o Associated with a reduced risk of complications

Resuscitation
o Manage in ITU
o Notify public health services

Answer 75

A

Septicaemia
Shock
DIC
Renal failure
Seizures
Peripheral gangrene
Cerebral oedema
Cranial nerve lesions
Cerebral venous thrombosis
Hydrocephalus
Waterhouse-Friderichsen Syndrome (bilateral adrenal haemorrhage caused by severe meningococcal infection)

Answer 76

A

Mortality rate from bacterial meningitis: 10-40% with meningococcal sepsis
Viral meningitis is self-limiting

Answer 77

A

• Severe episodic headache that may have a prodrome of focal neurological symptoms (aura) and is associated with systemic disturbance.
• Can be classified as:
o Migraine with aura (classical migraine)
o Migraine without aura (common migraine)
o Migraine variants (e.g. familial hemiplegic, ophthalmoplegic)

Answer 78

A

Poorly understood
Early aura of cortical spreading depression is associated with intracranial vasoconstriction leading to localised ischaemia
This is then followed by meningeal and extracranial vasodilation mediated by serotonin, bradykinin and the trigeminovascular system

Answer 79

A

• Prevalence:
o Males - 6%
o Females - 15-20%
• Usually occurs in adolescence and early adulthood

Answer 80

A

•	Headache
o	Pulsatile 
o	Duration 4-72 hrs 
o	Episodic 
o	NOTE: chronic daily headaches lasting weeks would suggest a different aetiology
•	Associated Symptoms
o	Nausea 
o	Vomiting
o	Photophobia/Phonophobia
o	Aura:
•	Flashing lights 
•	Spots 
•	Blurring 
•	Zigzag lines 
•	Blind spots (scotomas)
•	Tingling/numbness in the limbs 
•	Triggers and Risk Factors
o	Stress 
o	Exercise 
o	Lack of sleep 
o	Oral contraceptive pill 
o	Foods (e.g. caffeine, alcohol, cheese, chocolate)

Answer 81

A

NO specific physical findings

* Exclude secondary causes with MMSE, neurological examination, fundoscopy etc.

Answer 82

A

Diagnosis is usually based on HISTORY
Investigations may be useful for excluding other diagnoses
Bloods, CT/MRI, lumbar puncture

Answer 83

A

•	NOTE: analgesia overuse can cause headaches
•	ACUTE
o	NSAIDs
o	Paracetamol
o	Codeine 
o	Antiemetics 
o	Triptans (5-HT agonists) - e.g. sumatriptan
•	Prophylaxis
o	-blockers 
o	Amitriptyline 
o	Topiramate 
o	Sodium valproate
o	Menstrual migraines can be controlled with the oral contraceptive pill
•	Advice
o	Avoid triggers 
o	Rest in a quiet dark room during episodes

Answer 84

A

Disruption of daily activities

* Can lead to analgesia-overuse headaches in people who use analgesia regularly

Answer 85

A

Usually CHRONIC

* Most cases can be managed well with preventative/early treatment measures

Answer 86

A

•	A progressive neurodegenerative disorder of cortical, brainstem and spinal motor neurons (lower and upper motor neurons)
•	Subtypes:
o	Amyotrophic Lateral Sclerosis (ALS)
•	AKA Lou Gehrig's disease 
•	Combined generation of upper AND lower motor neurones resulting a mix of LMN and UMN signs 
o	Progressive Muscular Atrophy Variant
•	Only LMN signs 
•	Better prognosis 
o	Progressive Bulbar Palsy Variant
•	Dysarthria 
•	Dysphagia 
•	Wasted fasciculating tongue 
•	Brisk jaw jerk reflex 
o	Primary Lateral Sclerosis Variant
•	UMN pattern of weakness 
•	Brisk reflexes 
•	Extensor plantar responses 
•	NO LMN signs

Answer 87

A

• UNKNOWN
• Free radical damage and glutamate excitotoxicity have been implicated
• Pathology
o Progressive motor neurone degeneration and death
o Gliosis replacing lost neurones
• Associations
o Frontotemporal lobar dementia

Answer 88

A

RARE
Incidence: 2/100,000
Mean age of onset: 55 yrs
5-10% have a family history with autosomal dominant inheritance

Answer 89

A

Weakness of limbs
Speech disturbance (slurring or reduction in volume)
Swallowing disturbance (e.g. choking on food)
Behavioural changes (e.g. disinhibition, emotional lability)

Answer 90

A

•	Combination of UMN and LMN signs 
•	LMN Features
o	Muscle wasting 
o	Fasciculations  
o	Flaccid weakness 
o	Hyporeflexia
•	UMN Features
o	Spastic weakness 
o	Extensor plantar response 
o	Hyperreflexia
•	Sensory examination - should be NORMAL

Answer 91

A

• Bloods
o Mild elevation in CK
o ESR
o Anti-GM1 ganglioside antibodies
• Electromyography (EMG)
• Nerve conduction studies - often normal
• MRI - exclude cord compression and brainstem lesions
• Spirometry - assess respiratory muscle weakness

Answer 92

A

• Inflammatory demyelinating disease of the CNS
• Types
o Relapsing-Remitting MS
• COMMONEST form
• Clinical attacks of demyelination with complete recovery in between attacks
o Clinically Isolated Syndrome
• Single clinical attack of demyelination
• The attack in itself does NOT count as MS
• 10-50% progress to develop MS
o Primary Progressive MS
• Steady accumulation of disability with NO relapsing-remitting pattern
o Marburg Variant
• Severe fulminant variant of MS leading to advanced disability or death within weeks

Answer 93

A

• UNKNOWN
• Autoimmune basis with potential environmental trigger in genetically susceptible individuals
• Immune-mediated damage to myelin sheaths results in impaired axonal conduction
• Risk Factors
o EBV exposure
o Prenatal vitamin D levels

Answer 94

A

UK prevalence: 1/1000
2 x as common in FEMALES
Age of presentation: 20-40 yrs

Answer 95

A

•	Varies depending on the site of inflammation 
•	Optic Neuritis (COMMONEST)
o	Unilateral deterioration of visual acuity and colour perception 
o	Pain on eye movement 
o	Common first symptoms of multiple sclerosis 
•	Sensory
o	Pins and needles 
o	Numbness 
o	Burning 
•	Motor 
o	Limb weakness 
o	Spasms 
o	Stiffness 
o	Heaviness 
•	Autonomic 
o	Urinary urgency
o	Hesitancy 
o	Incontinence 
o	Impotence 
•	Psychological
o	Depression
o	Psychosis 
•	Uhthoff's Sign - worsening of neurological symptoms as the body gets overheated from hot weather, exercise, saunas, hot tubs etc.
•	Lhermitte's Sign - an electrical sensation that runs down the back and into the limbs when the neck is flexed

Answer 96

A

• Optic Neuritis
o Impaired visual acuity (MOST COMMON)
o Loss of coloured vision
• Visual Field Testing
o Central scotoma (if optic nerve is affected)
• Scotoma = a blind spot in the normal visual field
o Field defects (if optic radiations are affected)
• Relative Afferent Pupillary Defect (RAPD)
• Internuclear Ophthalmoplegia

o Lateral horizontal gaze causes failure of adduction of the contralateral eye
o Indicates lesion of the contralateral medial longitudinal fasciculus
• Sensory
o Paraesthesia
• Motor
o UMN signs
• Cerebellar
o Limb ataxia (intention tremor, past-pointing, dysmetria)
o Dysdiadochokinesia
o Ataxic wide-based gait
o Scanning speech

Answer 97

A

• Diagnosis is based on the finding of two or more CNS lesions with corresponding symptoms, separated in time and space - McDONALD CRITERIA
• Lumbar Puncture
o Microscopy - exclude infection/inflammatory causes
o CSF electrophoresis shows unmatched oligoclonal bands
• MRI Brain, Cervical and Thoracic Spine (with gadolinium)
o Plaques can be identified
o Gadolinium enhancement shows active lesions
• Evoked Potentials
o Visual, auditory and somatosensory evoked potentials may show delayed conduction velocity

Answer 98

A

• An autoimmune disease affecting the neuromuscular junction producing weakness in skeletal muscles

Answer 99

A

Impairment of neuromuscular junction transmission
Most commonly due to autoantibodies against the nicotinic acetylcholine receptor
Lambert-Eaton Syndrome - paraneoplastic subtype of myasthenia gravis caused by autoantibodies against pre-synaptic calcium channels, leading to impairment of acetylcholine release
Myasthenia gravis is associated with other autoimmune conditions (e.g. pernicious anaemia)

Answer 100

A

Prevalence: 8-9/100,000
More common in FEMALES at younger ages
Equal gender distribution in middle age

Answer 101

A

• Muscle weakness that worsens with repetitive use or towards the end of the day
o NOTE: in Lambert-Eaton syndrome, muscle weakness improves after repeated use
• Ocular symptoms
o Drooping eyelids
o Diplopia
• Bulbar symptoms
o Facial weakness (myasthenic snarl)
o Disturbed hypernasal speech
o Difficulty smiling, chewing or swallowing

Answer 102

A

• May be generalised (affecting many muscle groups)
• May be bulbar (affecting the bulbar muscles i.e. those associated with cranial nerves 9, 10, 11 and 12)
o NOTE: bulbar = relating to the medulla oblongata (cranial nerves 9, 10, 11 and 12 have their nuclei in the medulla)
• May be ocular
• Eye Signs
o Ptosis
o Complex ophthalmoplegia
o Check for ocular fatigue by asking the patient to sustain and upward gaze for 1 min and watch the progressive ptosis that develops
• Ice on Eyes Test
o Placing ice packs on closed eyelids for 2 mins can improve neuromuscular transmission and reduce ptosis
• Bulbar Signs
o Reading aloud may cause dysarthria or nasal speech
• Limbs
o Test the power of a muscle before and after repeated use of the muscle

Answer 103

A

• Bloods
o CK - exclude myopathies
o Serum acetylcholine receptor antibody (positive in 80%)
o TFTs (it is associated with hyperthyroidism)
o Anti-voltage gated calcium channel antibody (in Lambert-Eaton syndrome)
• Tensilon Test
o Short-acting anti-cholinesterase (edrophonium bromide) increases acetylcholine levels and causes a rapid and transient improvement in clinical features
o Risk of bradycardia - so is generally avoided
• Nerve Conduction Study
o Repetitive stimulation shows decrements of muscle action potential
• EMG
• CT Thorax/CXR - visualise thymoma in the mediastinum or lung malignancies

Answer 104

A

•	An autosomal dominant genetic disorder affecting cells of neural crest origin, resulting in the development of multiple neurocutaneous tumours
•	Type 1 Neurofibromatosis (von Recklinghausen's disease)
o	Characterised by:
•	Peripheral and spinal neurofibromas
•	Multiple café au lait spots 
•	Freckling (axillary/inguinal)
•	Optic nerve glioma 
•	Lisch nodules (on iris) 
•	Skeletal deformities 
•	Phaeochromocytomas
•	Renal artery stenosis
•	Type 2 Neurofibromatosis
o	Characterised by:
•	Schwannomas (often bilateral vestibular schwannomas)
•	Meningiomas 
•	Gliomas 
•	Cataracts

Answer 105

A

• Associated with multiple mutations in tumour suppressor genes NF1 (type 1) and NF2 (type 2)

Answer 106

A

• No gender or racial predilection

Answer 107

A

•	Positive family history (however, 50% are caused by new mutations)
•	Type 1
o	Skin lesions 
o	Learning difficulties (40%)
o	Headaches 
o	Disturbed vision (due to optic gliomas)
o	Precocious puberty (due to lesions of the pituitary gland from an optic glioma involving the chiasm)
•	Type 2
o	Hearing loss 
o	Tinnitus 
o	Balance problems 
o	Headache 
o	Facial pain
o	Facial numbness

Answer 108

A

• Type 1
o 5+ café au lait macules of > 5 mm (prepubertal)
o 5+ café au lait macules of > 15 mm (post-pubertal)
o Neurofibromas (may appear as cutaneous nodules or complex plexiform neuromas)
o Freckling in armpit or groin
o Lisch nodules (hamartomas on the iris)
o Spinal scoliosis

• Type 2
o Few or no skin lesions
o Sensorineural deafness with facial nerve palsy or cerebellar signs (if the schwannoma is large)

Answer 109

A

Ophthalmological assessment
Audiometry
MRI brain and spinal cord - for vestibular schwannomas, meningiomas and nerve root neurofibromas
Skull X-ray (sphenoid dysplasia in NF1)
Genetic testing

Answer 110

A

• Neurodegenerative disease of the dopaminergic neurones of the substantia nigra, characterised by:
o Bradykinesia
o Rigidity
o Resting tremor
o Postural instability
• Pathophysiology
o Degeneration of dopaminergic neurones projecting from the substantia nigra to the striatum
o Patients are only symptomatic after the loss of > 70% of dopaminergic neurones

Answer 111

A

• Sporadic/Idiopathic Parkinson’s Disease
o Most COMMON
o Aetiology UNKNOWN
o May be related to environmental toxins and oxidative stress
• Secondary Parkinson’s Disease
o Neuroleptic therapy (e.g. for schizophrenia)
o Vascular insults (e.g. in the basal ganglia)
o MPTP toxin from illicit drug contamination
o Post-encephalitis
o Repeated head injury
• There are some familial forms of Parkinson’s disease

Answer 112

A

Very COMMON
Prevalence: 1-2% of > 60 yrs
Mean age of onset: 57 yrs

Answer 113

A

INSIDIOUS onset
Resting tremor (mainly in hands)
Stiffness and slowness of movements
Difficulty initiating movements
Frequent falls
Smaller hand writing (micrographia)
Insomnia
Mental slowness (bradyphenia)

Answer 114

A

•	Tremor 
o	Pill rolling rest tremor 
o	4-6 Hz 
o	Decreased on action 
o	Usually asymmetrical
•	Rigidity
o	Lead pipe rigidity of muscle tone 
o	Superimposed tremor can cause cogwheel rigidity
o	Rigidity can be enhanced by distraction
•	Gait
o	Stooped 
o	Shuffling 
o	Small-stepped gait
o	Reduced arm swing 
o	Difficulty initiating walking 
•	Postural Instability
o	Falls easily with little pressure from the back or the front 
•	Other features
o	Frontalis overactivation (leads to furrowing of the brow)
o	Hypomimic face 
o	Soft monotonous voice 
o	Impaired olfaction 
o	Tendency to drool
o	Mild impairment of up-gaze 
•	Psychiatric
o	Depression
o	Cognitive problems and dementia (in later stages)

Answer 115

A

• CLINICAL diagnosis
• Levodopa Trial
o Timed walking and clinical assessment after administration of levodopa
• Bloods
o Serum caeruloplasmin - rule out Wilson’s disease as a cause of Parkinson’s disease
• CT or MRI Brain
o To exclude other causes of gait decline (e.g. hydrocephalus)
• Dopamine Transporter Scintigraphy
o Reduction in striatum and putamen

Answer 116

A

• Injury to the spinal cord with neurological symptoms dependent on the site and extent of the injury

Answer 117

A

•	MOST CASES: trauma and tumours 
•	Trauma can lead to compression by:
o	Direct cord contusion 
o	Compression by bone fragments 
o	Haematoma 
o	Acute disk prolapse 
•	Tumours are more frequently METASTASES
•	Other causes: spinal abscess, TB (Pott's disease)
•	Risk Factors
o	Trauma
o	Osteoporosis 
o	Metabolic bone disease
o	Vertebral disc disease

Answer 118

A

COMMON
Trauma occurs across all age groups
Malignancy/disc disease is more common in the ELDERLY

Answer 119

A

• History of trauma or malignancy
• Pain
• Weakness
• Sensory loss
• Disturbance of bowel and bladder function
• A large central lumbar disc prolapse may cause:
o Bilateral sciatica
o Saddle anaesthesia (loss of sensation in the area of the buttocks that is covered by a bike seat)
o Urinary retention

Answer 120

A

• Diaphragmatic breathing
• Reduced anal tone
• HYPOreflexia
• Priapism (persistent and painful erection)
• Spinal shock (low blood pressure without tachycardia)
• Sensory Loss - at level of the lesion
• Motor
o Weakness or paralysis
o Downward plantars (in acute phase)
o UMN signs below the level of the lesion
o LMN signs at the level of the lesion
• Brown-Sequard Syndrome - seen with hemisection of the spinal cord

Answer 121

A

• Radiology
o Lateral radiographs of spine to look for loss of alignment, fractures etc.
o MRI or CT
• Bloods - FBC, U&Es, calcium, ESR, immunoglobulin electrophoresis (multiple myeloma)
• Urine - look for Bence Jones proteins (multiple myeloma)

Answer 122

A

• Pain, tingling and numbness that arise from nerve root compression or irritation in the lumbosacral spine.

Answer 123

A

• Most commonly caused by a disc herniation
• Other causes:
o Spinal stenosis
o Spondylolisthesis
o Spinal injury or infection
o Tumour
o Cauda equina syndrome
• Risk Factors
o Age - older people are more like to get slipped discs
o Job that requires regular heavy lifting

Answer 124

A

Relatively COMMON

* More common in MALES

Answer 125

A

Pain (usually affects the buttocks and the legs more than the back)
Numbness
Tingling sensation that radiates from the lower back down one of the legs
Weakness in the calf muscles or the muscles that move the foot or ankle

Answer 126

A

CLINICAL diagnosis
Straight Leg Raise

o If pain in the distribution of the sciatic nerve is reproduced on passive flexion of the straight leg at the hip between 30-70 degrees then it is considered a positive sign (Lasegue’s sign)
o This test is sensitive but not very specific
• CT/MRI - helps visualise a lumbar disc herniation

Answer 127

A

• Rapid permanent neurological deficit from cerebrovascular insult. Also defined clinically, as focal or global impairment of CNS function developing rapidly and lasting > 24 hrs
• Can be subdivided based on:
o Location - anterior circulation vs posterior circulation
o Pathological Process - infarction vs haemorrhage

Answer 128

A

INFARCTION (80%)
Thrombosis
• Can occur in small vessels (lacunar infarcts)
• Can occur in larger vessels (e.g. middle cerebral artery)
• Can arise in prothrombotic states (e.g. dehydration, thrombophilia)
Emboli
• From carotid dissection, carotid atherosclerosis, atrial fibrillation
• NOTE: they can arise from venous blood clots that pass through a septal defect (e.g. VSD) and get lodged in the cerebral circulation
Hypotension
• If the blood pressure is below the autoregulatory range required to maintain cerebral blood flow, you can get infarction in the watershed zones between different cerebral artery territories
Others
• Vasculitis
• Cocaine (arterial spasm)

HAEMORRHAGE (10%)
o Hypertension
o Charcot-Bouchard microaneurysm rupture (DEFINITION: aneurysms within the brain vasculature that occur in small blood vessels)
o Amyloid angiopathy
o Arteriovenous malformations
o Less common: trauma, tumours, vasculitis

Answer 129

A

COMMON
Incidence: 2/1000
3rd most common cause of death in industrialised countries
Usual age of stroke patients: 70+

Answer 130

A

SUDDEN-ONSET
Weakness
Sensory, visual or cognitive impairment
Impaired coordination
Impaired consciousness
Head or neck pain (if carotid or vertebral artery dissection)
Enquire about time of onset (critical for emergency management if < 4.5 hrs)
Enquire about history of AF, MI, valvular heart disease, carotid artery stenosis, recent neck trauma or pain

Answer 131

A

Examine for underlying cause (e.g. atrial fibrillation)
Infarction

Lacunar Infarcts
• Affecting the internal capsule or pons: pure sensory or motor deficit (or both)
• Affecting the thalamus: loss of consciousness, hemisensory deficit
• Affecting the basal ganglia: hemichorea, hemiballismus, parkinsonism

Anterior Circulation
• Anterior Cerebral
 Lower limb weakness
 Confusion

Middle Cerebral
	Facial weakness 
	Hemiparesis (motor cortex)
	Hemisensory loss (sensory cortex)
	Apraxia 
	Hemineglect (parietal lobe) 
	Receptive or expressive dysphasia (due to involvement of Wernicke's and Broca's areas) 
	Quadrantopia (if superior or inferior optic radiations are affected)

Posterior Circulation
• Posterior Cerebral - hemianopia
• Anterior Inferior Cerebellar - vertigo, ipsilateral ataxia, ipsilateral deafness, ipsilateral facial weakness
• Posterior Inferior Cerebellar (affected in lateral medullary syndrome) - vertigo, ipsilateral ataxia, ipsilateral Horner’s syndrome, ipsilateral hemisensory loss, dysarthria, contralateral spinothalamic sensory loss
• Basilar Artery - cranial nerve pathology and impaired consciousness
• Multiple Lacunar Infarcts - vascular dementia, urinary incontinence, gait apraxia, shuffling gait, normal or excessive arm-swing
• Intracerebral - headache, meningism, focal neurological signs, nausea/vomiting, signs of raised ICP, seizures

Answer 132

A

Bloods
o Clotting profile - check if thrombophilia (especially in young patients)

ECG
o Check for arrhythmias that may be the source of the clot

Echocardiogram
o Identify cardiac thrombus, endocarditis and other cardiac sources of embolism

Carotid Doppler Ultrasound
o Check for carotid artery disease (e.g. atherosclerosis)

CT Head Scan
o Rapid detection of haemorrhages

MRI-Brain
o Higher sensitivity for infarction but less available

CT Cerebral Angiogram
o Detect dissections or intracranial stenosis

Answer 133

A

HYPERACUTE STROKE
o If < 4.5 hrs from onset
o Exclude haemorrhage using CT-head
o If haemorrhage excluded, thrombolysis may be considered

ACUTE ISCHAEMIC STROKE
o Aspirin + Clopidogrel to prevent further thrombosis (once haemorrhage excluded on CT head)
o Heparin anticoagulation considered if there is a high risk of emboli recurrence or stroke progression
o Formal swallow assessment (NG tube may be needed)
o GCS monitoring
o Thromboprophylaxis

Secondary Prevention
o Aspirin and dipyridamole
o Warfarin anticoagulation (atrial fibrillation)
o Control risk factors: hypertension, hyperlipidaemia, treat carotid artery disease

Surgical Treatment - carotid endarterectomy

Answer 134

A

Cerebral oedema (increased ICP)
Immobility
Infections
DVT
Cardiovascular events
Death

Answer 135

A

10% mortality in the first month
Up to 50% that survive will be dependent on others
10% recurrence within 1 year
Prognosis for haemorrhagic is WORSE than ischaemic

Answer 136

A

• Arterial haemorrhage into the subarachnoid space

Answer 137

A

85% - rupture of a saccular aneurysm at the base of the brain (Berry aneurysms)
10% - perimesencephalic haemorrhage
5% - arteriovenous malformations, bleeding diathesis, vertebral artery dissection

Risk Factors
o	Hypertension
o	Smoking 
o	Excess alcohol intake 
o	Saccular aneurysms are associated with:
•	Polycystic kidney disease 
•	Marfan's syndrome
•	Ehlers-Danlos syndrome

Answer 138

A

Incidence: 10/100,000

* Peak incidence: 40s

Answer 139

A

Sudden-onset worst headache ever
Nausea/vomiting
Neck stiffness
Photophobia
Reduced level of consciousness

Answer 140

A

Meningism
o Neck stiffness
o Kernig’s sign
o Pyrexia

GCS - check for deterioration
Signs of raised ICP - papilloedema, IV or III nerve palsies, hypertension, bradycardia
Focal neurological signs (e.g. cranial nerve palsies)

Answer 141

A

Bloods
o	FBC 
o	U&Es
o	ESR/CRP 
o	Clotting

CT Scan
o Hyperdense areas in the basal regions of the skull (due to blood)

Angiography - detect source of bleeding

Lumbar Puncture
o Increased opening pressure
o Increased red cells
o Xanthochromia - straw-coloured CSF due to breakdown of red blood cells

Answer 142

A

•	A collection of blood that develops between the surface of the brain and the dura mater
•	Classification
o	ACUTE: < 72 hrs 
o	SUBACUTE: 3- 20 days 
o	CHRONIC: > 3 weeks

Answer 143

A

• Trauma (usually due to rapid acceleration and deceleration of the brain)

Answer 144

A

Acute - younger patients/associated with major trauma
MORE COMMON than extradural haemorrhage
Chronic - more common in the ELDERLY

Answer 145

A

Acute
o History of TRAUMA with head injury
o Reduced conscious level

Subacute
o Worsening headache 7-14 days after injury
o Altered mental state

Chronic
o	Headache
o	Confusion
o	Cognitive impairment 
o	Psychiatric symptoms 
o	Gait deterioration 
o	Focal weakness 
o	Seizures

Answer 146

A

Acute
o Reduced GCS
o Ipsilateral fixed dilated pupil (if a large haematoma cause a midline shift)
o Pressure on brainstem –> reduced consciousness + bradycardia

Chronic
o Neurological examination may be NORMAL
o Focal neurological signs (e.g. 3rd nerve palsy)

Answer 147

A

CT Head

* MRI Brain - higher sensitivity than CT

Answer 148

A

ACUTE
o ALS protocol
o Watch out for cervical spine injury
o If raised ICP consider osmotic diuresis

Conservative - if small

Surgical
o Prompt Burr hole or craniotomy

Chronic
o If symptomatic - Burr hole or craniotomy and drainage

Children
o Younger children may be treated with percutaneous aspiration via an open fontanelle

Answer 149

A

Raised ICP
Cerebral oedema
Herniation
Post-Op - seizures, recurrence, intracerebral haemorrhage, brain abscess, meningitis, tension pneumocephalus

Answer 150

A

Acute
o Underlying brain injury will affect function

Chronic
o Better outcome than subdural haemorrhages
o Lower incidence of underlying brain injury

Answer 151

A

• The most common type of headache, which is considered a ‘normal, everyday headache’.
• Can be divided into:
o Episodic - occurs on < 15 days per month
o Chronic - occurs on > 15 days per month

Answer 152

A

•	The exact cause is unclear 
•	There are well-known triggers:
o	Stress/anxiety 
o	Squinting 
o	Poor posture 
o	Fatigue 
o	Dehydration
o	Missing meals 
o	Bright sunlight 
o	Noise 
•	They are primary headaches (i.e. they have no underlying cause)

Answer 153

A

MOST COMMON type of headache
More common in WOMEN
Most common in YOUNG ADULTS
Most people will experience a tension headache at some point in their lives

Answer 154

A

Mild-moderate in severity
Pressure/tightness around the head like a tight band
Pain tends to be bilateral
Often a relationship with the neck
Can be disabling for a few hours but does not have specific associated symptoms (unlike migraines)
Gradual onset
Variable duration
Usually responsive to over-the-counter medication
IMPORTANT: check for possible triggers when taking history (e.g. stress)
Examination is usually NORMAL

Answer 155

A

• NO investigations necessary

Answer 156

A

• Episodic Tension Headaches
o Reassurance
o Address triggers (e.g. stress, anxiety)
o Advice on avoiding medications that can cause medication-induced headaches (e.g. opioids)
o Simple analgesia (e.g. ibuprofen, paracetamol, aspirin)
o Tricyclic antidepressants may be considered in frequently recurrent episodic tension headaches or chronic tension headaches

Answer 157

A

GOOD
Not very severe or disabling
Recurs

Answer 158

A

• Rapidly developing focal disturbance of brain function of presumed vascular origin that resolves completely within 24 hours.

Answer 159

A

•	It is usually EMBOLIC but may be thrombotic 
•	Most common source of emboli = CAROTID atherosclerosis 
•	Emboli can also arise from the heart:
o	Atrial fibrillation 
o	Mitral valve disease 
o	Atrial myxoma
•	NOTE: clots from the right side of the circulation can cause a stroke if there is a septal defect (e.g. PFO)
•	Risk Factors
o	Hypertension
o	Smoking 
o	Diabetes mellitus 
o	Heart disease (valvular, ischaemic, atrial fibrillation)
o	Peripheral arterial disease 
o	Polycythaemia rubra vera 
o	COCP
o	Hyperlipidaemia 
o	Alcohol
o	Clotting disorders

Answer 160

A

More common with increasing age
More common in men
15% of stroke patients would have experienced a previous TIA

Answer 161

A

• ANY PATIENT presenting with acute neurological symptoms that resolve completely within 24 hours (i.e. a suspected TIA) should be given 300 mg aspirin immediately and assessed urgently within 24 hours
• History
o TIAs usually last 10-15 mins (but can be anything from a few minutes to 24 hours)
• Clinical features depend on the part of the brain affected:
o Carotid Territory
• Unilateral
• Most often affect the MOTOR AREA: weakness an arm, leg or one side of the face
• Dysarthria
• Broca’s dysphasia (if Broca’s area is involved)
• Amaurosis fugax (painless fleeting loss of vision caused by retinal ischaemia)
o Vertebrobasilar Territory
• Homonymous hemianopia (if ophthalmic cortex is involved)
• May be bilateral visual impairment
• May be hemiparesis, hemisensory symptoms, diplopia, vertigo, vomiting, dysarthria, dysphagia or ataxia
• Ask about weakness, facial drooping, gait disturbance, confusion, memory loss, dysarthria or abnormal behaviour
• Check for simultaneous cardiac symptoms (e.g. palpitations)

Answer 162

A

Neurological examination may be NORMAL because the TIA may have resolved by the time you do it
Check pulse for irregular rhythm (AF)
Auscultate the carotids to check for bruits (carotid atherosclerosis)

Answer 163

A

•	Primary Care Investigations
o	Urinalysis (check for glycosuria)
o	FBC 
o	U&Es
o	Lipids 
o	LFTs
o	TSH 
o	ECG (may show AF or previous MI)
•	Secondary Care
o	Unenhanced CT - if there is a possibility of a haemorrhage (e.g. if the patient is anticoagulated or has a bleeding disorder) 
•	Investigate for Source of Emboli
o	ECG (24 hr tape or cardiac monitoring may be considered if paroxysmal atrial fibrillation is suspected)
o	Doppler ultrasound of carotid and vertebral arteries

Answer 164

A

• Patients with acute neurological symptoms that resolve completely within 24 hrs should be given 300 mg aspirin immediately and assessed urgently within 24 hrs
• Patients with confirmed TIA should receive:
o Clopidogrel - 300 mg loading dose and 75 mg thereafter
o High-Intensity Statin Therapy - e.g. atorvastatin 20-80 mg
• Secondary Prevention
o Antiplatelets
o Antihypertensives
o Lipid-modifying treatments
o Management of AF
• Assessment of future stroke risk in TIA patients: ABCD2 score

Answer 165

A

Recurrence

* Stroke

Answer 166

A

• VERY HIGH RISK of STROKE in the first month after the TIA and up to 1 year afterwards

Answer 167

A

• Neuralgia involving one or more of the branches of the trigeminal nerves, often causing severe pain.

Answer 168

A

Thought to be due to compression of the trigeminal nerve by a loop of artery or vein
5-10% of cases are thought to be due to tumours, MS or skull base abnormalities

Answer 169

A

Peak incidence: 50-60 yrs
Prevalence increases with age
More common in FEMALES
Some familial component

Answer 170

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• Sudden, unilateral, brief, stabbing pain in the distribution or one or more branches of the trigeminal nerve
• Recurrent
• Pain lasts from a few seconds to a couple of mins
• Periods of remission can vary
• Some experience preceding symptoms (e.g. numbness, tingling)
• Pain is described as being ‘shock-like’
• Triggers
o Vibration
o Skin contact
o Brushing teeth
o Oral intake
o Exposure to wind

Answer 171

A

Diagnosis is CLINICAL

* If there is doubt over the underlying cause, specialists may request an MRI brain scan

Answer 172

A

• The presence of neurological symptoms caused by biochemical lesions of the central nervous system following exhaustion of vitamin B (particularly thiamine) reserves.

Answer 173

A

• Main cause is CHRONIC ALCOHOL CONSUMPTION which results in thiamine deficiency by causing:
o Inadequate nutritional thiamine intake
o Decreased thiamine absorption
o Impaired thiamine utilisation by cells
• Other conditions that cause thiamine deficiency:
o Chronic subdural haematoma
o AIDS
o Hyperemesis gravidarum
o Thyrotoxicosis
• Thiamine deficiency results in abnormal cellular function in the cerebral cortex, hypothalamus and cerebellum

Answer 174

A

Alcohol-related brain damage accounts for 10-24% of all dementia
Prevalence rates are higher in areas of socio-economic deprivation
Higher prevalence in 50-60 year olds

Answer 175

A

Vision changes: diplopia, eye movement abnormalities, ptosis
Loss of muscle coordination: unsteady gait
Loss of memory
Inability to form new memories
Hallucinations

Answer 176

A

• Wernicke’s is classically defined by a triad of signs:
o Confusion
o Ophthalmoplegia
o Ataxia
• The patient is usually mentally alert with vocabulary, comprehension, motor skills, social habits and naming ability maintained
• Some show signs suggestive of polyneuropathy
• Reflexes may be decreased
• Abnormal gait and coordination
• Eye abnormalities on movement: nystagmus, bilateral lateral rectus palsy, conjugate gaze palsy
• Low temperature
• Rapid pulse
• Some may be cachectic
• NOTE: Korsakoff’s Psychosis occurs when the condition deteriorates further, leading to the additional symptoms of:
o Amnesia
o Confabulation

Answer 177

A

• Diagnosis is mainly based on history and examination
• Possible useful tests:
o FBC (high MCV is a common feature amongst alcoholics)
o U&Es (exclude metabolic imbalances as a cause of confusion)
o LFTs
o Glucose
o ABG (hypercapnia and hypoxia can cause confusion)
o Serum thiamine
• CT head scan may be useful

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