Neurology Flashcards
Following a TIA, in what timeframe is the greatest risk of a stroke occurring
Within the first 48 hours
How rapidly should complete work-up and initiation of secondary prevention be completed following a TIA
Within 24 hours
What urgent work up is required in patients with TIA
Diagnostic confirmation by a stroke specialist
ECG +/- cardiac monitoring ?AF
Brain imaging (CT or MRI at minimum)
- if anterior circulation symptoms are present, carotid imaging (USS, CTA or MRA) also indicated
Which TIA patients required immediate hospital referral
Those with:
- ongoing focal neurological symptoms
- > 1 TIA in the past 7 days
- Presence of atrial fibrillation
- Patient treated with anticoagulation (needs exclusion of haemorrhage)
- ABCD2 score >3
Risk stratification score for TIA
ABCD2: Age >60 = 1 BP >140/90 =1 Clinical features: - Unilateral weakness = 2 - Speech disturbance without weakness = 1 - Other symptoms = 0 Duration of symptoms: - <10min = 0 - 10-59 min = 1 - >60 min = 2 Diabetes history = 1
Score 0-3 = low risk
4-5 points = moderate
6+ = high risk
Clinical features of lacunar/subcortical stroke syndromes
PURE motor hemipareses OR PURE sensory loss affecting contralateral face, arm and leg equally
- note that face may not be affected if infarct is beneath the mid pons
NO associated dysphagia, visual inattention or visual field loss
Clinical features of ACA stroke
Leg weakness > arm weakness
Personality change
Occulomotor palsy (eye deviated down and out)
Urinary incontinence
Clinical features of MCA stroke
Arm weakness > leg weakness Dysphasia Dyspraxias Agnosia (unable to recognise things e.g. faces, objects, places Hemi-neglect Poor two-point discrimination Dysgraphaesthesia
Clinical features of PCA stroke
Cortical blindness - contralateral homonymous hemianopia with normal fundoscopy and light reflex
(Can also have subcortical signs which will confuse picture)
What is Gerstmann’s syndrome
Syndrome due to infarct in the dominant parietal lobe. Clinical features RAAF pneumonic: Right-left confusion Agraphia Acalculia Finger agnosia
Clinical features of vertebrobasilar territory ischaemia
BILATERAL weakness or sensory disturbance
Diplopia
Vertigo
+/- nausea, vomiting, inability to stand
Differences between migraines in children v adults
Children:
- tend to be shorter duration (<4h)
- photophobia/phonophobia often don’t develop until >12y
- usually bilateral (though younger kids have difficulty describing this)
- tend not to be associated with mental health
- triptans have no clear evidence for <12y, but are safe from >6y
Indications for imaging paediatric headaches (7)
- abnormal neuro exam
- change in character or pattern of pre-existing headaches
- new-onset severe headaches
- seizures or other signs of neurological dysfucntion
- history of neurocutaneous syndrome (e.g. neurofibromatoisis, tuberous sclerosis, Sturge-Weber syndrome)
- age <6y
- headache location exclusively occipital
Risk of a second seizure after a first unprovoked epileptic seizure
40%
Causes of provoked seizures
Acute neurological insult (stroke, trauma, infection, inflammation)
Biochemical (hypo/hyper - glycaemia, natraemia, calcaemia, hypomagnesaemia, hypoxia, acid-base disturbance)
Alcohol or other drug intoxication OR withdrawal
Pregnancy (eclampsia
Diagnosis of epilepsy
Implies demonstrated tendency for recurrent unprovoked seizures
- often made after 2 unprovoked seizures >24h apart
OR
- after one seizure if EEG or neuroimaging indicates a structural basis for seizure tendence
Features of generalised tonic clonic seizures
Initial phase of stiffening and few second LOC (often causes fall and forced scream AKA ictal cry)
Followed by all limbs jerking for up to 2 mins
Cyanosis, tongue-biting, urinary incontinence are common
Post-ictal stertor (heavy breathing/snoring), confusion, amnesia typically for several minutes
Clinical features of generalised absence seizures
Frequent (>daily) brief (<30 second) episodes of behavioural arrest without motor features and immediate recovery (no post-ictal phase)
Clinical features of myoclonic seizures
Single jerks of muscles, usually generalised
No post-ictal period
Occur during wakefulness, but otherwise are similar to hypnic jerks
Clinical features of focal seizures
Myriad of presentations but show high degree of sterotypy in an individual
Can be associated with impairment of consciousness (e.g. temporal lobe epilepsy) - typically these type tend to be less frequent, more prolonged than absence seizures and with post-ictal phase
Can evolve into secondary generalisation
Differential diagnoses of ?epileptic seizures
Cardiac syncope: - arrhythmias, bradycardia, heart block, tachycardia - aortic stenosis - cardiomyopathy Non-cardiac syncope - vasovagal - postural hypotension Migraine Narcolepsy-cataplexy Tremors Tics Movement disorders Pscyhiatric/psychological: - pseudoseizures - hyperventilation - panic attacks - disassociative reactions
Triggers for epileptic seizures
Sleep deprivation Overuse of alcohol Fever Intercurrent illness Severe sustained stress (combination of above)
Despite if trigger is identified or not, if first presentation, need work up for epilepsy syndrome
Investigations to consider in first presentation of seizure
- CBE, CRP ?infection
- BGL!
- LFT, EUC, CMP
- blood alcohol or urine drug screen (if indicated)
CT/MRI if:
- trauma
- focal onset of seizure
- diseases that could lead to seizures (e.g. cancer)
- fever, meningism or neurological signs
- EEG!! - for all of them
Preferred neuroimaging for workup of seizures and why
MRI more sensitive than CT for small/subtle lesions. Can also better demonstrate the temporal lobe than a CT
How to get maximal yield from an EEG after first seizure presentation
Best performed within 24h of all acute cases
If initial EEG non-diagnostic, sleep deprivation EEG should be obtained
Indicated for the diagnosis of epilepsy syndromes, NOT for prognosis
Features of childhood absence epilepsy
- Begins 3-12y (peaks at 6y)
- Frequent episodes (>20/day)
- Abrupt onset without warning, rapid offset with resumption of previous activities
- brief impairment of awareness (<20 seconds)
- adversely affect school performance
- can be triggered by stress, fatigue, hyperventilation
Can be accompanied with GCTC (which tend to occur later in adolescence)
60% will resolve by mid-adolescence
Prognosis of childhood absence epilepsy
60% will resolve by mid adolesence
Paediatric idiopathic generalised epilepsy syndromes
Childhood absence epilepsy
Juvenile absence epilepsy
Juvenile myoclonic epilepsy
Triggers of childhood absence epilepsy episodes
Stress
Fatigue
Hyperventilation
How does juvenile absence epilepsy differ from childhood absence epilepsy?
Later age of onset (10-20y)
Less frequent episodes (e.g. 1/week)
Less severe impairment of awareness may occur
Other seizure types more common
Clinical features of juvenile myoclonic epilepsy
Onset 8-20y
Isolated myoclonic seizures, especially after awakening
Other seizure types are common (80% GTCT, 30% absence seizures)
Triggered by sleep deprivation, fatigue, alcohol use
Seizure types associated with juvenile myoclonic epilpesy
80% GTCS
30% absence seizures
Triggers for juvenile myoclonic epileptic seizures
Sleep deprivation
Fatigue
Alcohol use
Treatment of juvenile myoclonic epilepsy
Typically respond well to low doses of valproate or levetiracetam
Other AEDs can control GTCs but can worse then absence or myoclonic seizures
Prognosis of juvenile myoclonic epilepsy
Usually require lifelong treatment
General management of idiopathic generalised epilepsies in children
Valproate is first line (but ensure adequate contraception in child-bearing age)
Lamotrigine second line, especially in combination with valproate
Definition of symptomatic epiepsy
Epilepsy occurring in the setting of a known or suspected abnormality of the CNS
Clinical features of West syndrome
Epileptic syndrome developing around 6 months
Often mistaken for infantile colic
Clusters of (often subtle) epileptic spasms, developmental arrest or regression
Treatment of West Syndrome
Oral corticosteroids
Should be commenced ASAP
Prognosis of West syndrome
20% will evolve to Lennox-Gastaut syndrome
Clinical features of Lennox-Gastaut syndrome
- Begins between 1-8y
- Generally TONIC seizures (but may also have atonic drop attacks, atypical absence seizures, GTCS and/or myoclonic seizures)
Commonly associated with intellectual disability, cognition may have been normal prior to development of the syndrome
Treatment of Lennox-Gastaut syndrome
Difficult to treat
Most effective treatment is often combination of valproate and lamotrigine
Cause of Lennox-Gastaut syndrome
Symptomatic epilepsy Multiple aetiologies including - cortical malformations - tuberous sclerosis - trauma
Idiopathic partial epilepsies of childhood
Benign epilepsy with centro-temporal spikes (BECS, AKA Rolandic epilepsy, or benign focal epilepsy of childhood)
Benign occipital epilepsies of childhood
Most common childhood epilepsy syndrome
Benign epilepsy with centro-temporal spikes
Clinical features of benign epilepsy with centro-temporal spikes
Begins at 3-13y, stops by 16y
Nocturnal seizures, occurring shortly after falling asleep, or just before waking
Often experience aura of perioral or gum paraesthesia before:
- speech arrest
- drooling
- tonic OR clonic involvement of upper limb or face
- gurgling or grunting noises (generally if progresses to secondary GTCS)
Prognosis of benign epilepsy with centro-temporal spikes/ benign Rolandic epilepsy
Excellent prognosis, even with frequent seizures
Treatment of benign epilepsy with centro-temporal spikes
No treatment required for first few seizures
- CBZ or valproate should be considered if seizures are frequent
Time of onset of benign occipital epilepsy of childhod
Onset between 3-14y, usually resolve by mid teens
Two distinct syndromes:
Early onset = panayiotopoulous syndrome
Late onset = Gastaut syndrome
Clinical features of Early onset benign occipital epilepsy of childhood (Panayiotopoulous Syndrome)
Rare, prolonged nocturnal attacks with eye deviation, vomiting and autonomic features
