Neuro Flashcards
What are glaucomas
optic neuropathies associated with raised intraocular pressure
can be classified:
whether peripheral iris is coverin the trabecular meshwork
primary open-angle glaucoma
iris is clear of trabecular network
Risk factors for primary open-angle glaucoma
-increasing age
-genetics
-afro caribbean ethnicity
myopia
-HTN
-DM
-Corticosteroids
Presentation of primary open-angle glaucoma
peripheral visual field loss - nasal scotomas progressing to ‘tunnel vision’
decreased visual acuity
optic disc cupping
Fundoscopy signs of primary open angle glaucoma
- optic disc cupping (cup to disc ratio >0.7): occurs as loss of disc substance makes optic cup widen and deepen
- optic disc pallor - indicating optic atrophy
- Bayonetting of vessels - vessels have breaks as they disappear into the deep cup and re-appear at the base
- Additional features - cup notching (usually inferior where vessels enter disc), disc haemorrhages
Cranial nerve I functions and pathway/foramen
olfactory
smell
cribiformplate
Cranial nerve II: name, functions, pathway/foramen
Optic
sight
optic canal
Cranial nerve III: name, functions, clinical sign, pathway/foramen
Oculomotor
Functions - eye movement (MR, IO, SR, IR), pupil constriction, accomodation, eyelid opening
Clinical - palsy results in ptosis, down and out eye, dilated fixed pupil
pathway - superior orbital fissure (SOF)
Cranial nerve IV: name, functions,, clinical sign, pathway
Trochlear
eye movement (SO)
clinical sign - palsy results in defective downward gaze (vertical diplopia)
Pathway - superior orbital fissure (SOF)
Cranial nerve V name, functions, clinical signs, pathway
Trigeminal
functions - facial sensation, mastication
Clinical sign - lesions may cause: trigeminal neuralgia, loss of corneal reflex (afferent), loss of facial sensation, paralysis of mastication muscles, deviation of jaw to weak side
pathway: V1; superior orbital fissure, V2: foramen rotundum, V3: foramen ovale
Cranial nerve VII: name, functions, clinical signs, pathway
facial
Functions - facial movements, taste (anterior 2/3rd tongue), lacrimation, salivation
Clinical signs: lesions may result in: flaccid paralysis of upper + lower face, loss of corneal reflex (efferent), loss of taste, hyperacusis
pathway - internal auditory meatus
Cranial nerve VI: name, functions, clinical signs, pathway
Abducens
functions: eye movements (LR)
Clinical signs: palsy results in defective abduction (horizontal diplopia)
pathway: Superior orbital fissure (SOF)
Cranial nerve VIII name functions, clinical signs, pathway
Vestibulocochlear
Functions - hearing, balance
clinical signs - hearing loss, vertigo, nystagmus, acoustic neuromas are schwann cell tumours of the cochlear nerve
pathway - internal auditory meatus
Cranial nerve IX name, function, clinical signs, pathways
glossopharyngeal
functions - taste (posterior 1/3 tongue), salivation, swallowing, mediates input from carotid body and sinus
clinical signs - lesions may result in: hypersensitivie carotid sinus reflex, loss of gag reflex (afferent)
pathway - jugular foramen
Cranial nerve X name, function, clinical signs, pathways
vagus
functions - phonation, swallowing and innervates viscera
clinical signs - lesions may result in uvula deviates away from site of lesion, loss of gag reflex (efferent)
Pathway - jugular foramen
Cranial nerve XI name, function, clinical signs, pathways
Accessory
functions - head and shoulder movement
clinical signs - lesions may result in weakness turning head to contralateral side
pathway - jugular foramen
Cranial nerve XII name, function, clinical signs, pathway
hypoglossal
functions - tongue movement
clinical signs - tongue deviated towards the side of the lesion
pathway - hypoglossal canal
corneal reflex afferent and efferent limbs
aff - opthalmic nerve (V1)
eff - facial nerve (VII)
Jaw jerk reflex afferent and efferent limbs
afferent - mandibular nerve (V3)
eff - mandibular nerve (V3)
Gag reflex afferent and efferent limb
afferent - glossopharyngeal (IX)
eff - Vagal nerve (X0
Carotid sinus reflex afferent and efferent limbs
Aff - glossopharyngeal (IX)
eff - vagal nerve (X)
Pupillary light reflex afferent and efferent limbs
aff - optic nerve (II)
eff - oculomotor nerve (III)
lacrimation reflex afferent and efferent limbs
aff - opthalmic nerve (v1)
eff - facial nerve (VII)
Typical presentation of epilepsy occuring in the temporal lobe
hallucinations (auditory/gustatory/olfactory), epigastric rising/emotional,
automatisms (lip smacking, grabbing, plucking), deja vu/dysphasia post ictal
typical presentation of epilepsy occuring in the frontal lobe
head/leg movements, posturing, poct-ictal weakness, jacksonian march
Typical presentation of epilepsy occuring in the parietal lobe
paraesthesia
typical presentation of epilepsy occuring in the occipital lobe
floaters/flashers
motor neuron disease
neurological condition of unknown cause which can present with upper and lower motor neuron signs
rarely present before 40 and various patterns of disease are recognised : amyotrophic lateral scleorsis, progressive muscular atrophy and bulbar palsy
clues which point towards diagnosis of motor neurone disease
fasciculations
absence of sensory signs/symptoms
mixture of lower motor neuron and upper motor neuron signs
wasting of the small hand muscles/tibilias anterior is common
other features:
Does not affect external ocular muscles
no cerebellar signs
abdominal reflexes are usually preserved and sphincter dysfunction if present is a late feature
What is Guillain barre syndrome
immune mediated demyelination of the peripheral nervous system often triggered by an infection
classically campylobacter jejuni
Pathogenesis of guillain barre syndrome
cross-reaction of antibodies with gangliosides in the peripheral nervous system
correlation between anti-ganglioside antibody and clinical features has been demonstrated
anti-GM1 antibodies in 25% patients
Miller Fisher syndrome
variant of Guillain Barre syndrome
associated with ophthalmoplegia, areflexia and ataxia
eye muscles are usually affected first
usually presents as a descending paralysis rather than ascending (guillain barre other variants)
anti-GQ1b antibodies are seen in 90% cases
What does a congruous defect mean
complete or symmetrical visual field loss
What does an incongrous defect mean
defect is incomplete or asymmetric
Homonymous hemianopia
incongruous defects : lesion of optic tract
congrous defects: lesion of optic radiation or occipital cortex
macula sparing: lesion of occipital cortex
Homonymous quadrantanopias
superior = lesion of inferior optic radiations in the temporal lobe (meyes loop)
inferior = lesion of superior optic radiations in the parietal lobe
nmemonic = PITS (parietal - inferior, temporal - superior)
Bitemporal hemianopia
lesion of optic chiasm
upper quadrant defect> lower quadrant defect = infeiror chiasmal compression, commonly a pituitary tumour
lower quadrant defect > upper quadrant defect = superior chiasma compression, commonly a craniophayrngioma
what is thoracic outlet syndrome
disorder involving compression of brachial plexus, subclavian artery or vein at the site of the thoracic outlet
can be neurogenic or vascular (more likely neurogenic)
Risk factors for alzheimers disease
increasing age
FH
5% cases inherited as autosomal dominant trait
Apoprotein E allele E4- encodes a cholesterol transport protein
caucasian ethnicity
Down’s syndrome
Pathological changes in alzhiemers disease
macroscopic: widespread cerebral atrophy, particularly involving the cortex and hippocampus
Microscopic: cortical plaques due to deposition of type A Beta amyloid protein and intraneuronal neruofibrillary tangles caused by abnormal aggregation of the tau protein ; hyperphosphylation of tau protein
biochemical: defeict of acetylcholine from damage to an ascending forebrain projection
Empty sella syndrome overview and features
overview - pituitary gland is flattened and on the posterior aspect of the sella tucica
cause unknown
more common in multiparous (having borne more than one child) obese women
Features - headaches, HTN, rhinorrhoea
Arnold chiari malformation
describes downward displacement or herniation of cerebellar tonsils through the formane magnum
malformations may be congenital or acquired through trauma
Features of arnold-chiari malformation
non-communicating hydrocephalus may develop as a result of obstruction of cerebrospinal fluid(CSF) outflow
headache
syringomyelia ( a disorder in which a fluid-filled cyst (called a syrinx) forms within the spinal cord)
Huntington’s disease
inherited neurodegenerative condition
progressive and incurable that typically results in death 20 years after initial symptoms develop
Genetic components of huntingtons disease
autosomal dominant
trinucleotide repeat disorder: repeat expansion of CAG (phenomenon of anticipation may be seen, where disease presents at an earlier age in successive generations
results in degeneration of cholinergic and GABAergic neruons in the striatum of the basal ganglia
due to defect in huntington gene on chromosome 4
Features of huntington’s disease
typically develop after 35 years of age
chorea - abnormal involuntary movement disorder
personality changes (irritability, apathy, depression) and intellectual impairment
dystonia (causes muscles to contract involuntarily)
saccadic eye movements
Difference between nystagmus and saccadic eye movements
Nystagmus can be congenital or acquired; it tends to be rhythmic and regular and, if present in central gaze, continuous and sustained. Saccadic intrusions are more often nonrhythmic, intermittent, and unsustained.
Difference between chorea and dystonia
Dystonia is a movement disorder in which involuntary sustained or intermittent muscle contractions cause twisting and repetitive movements, abnormal postures, or both. Chorea is an ongoing random-appearing sequence of one or more discrete involuntary movements or movement fragments.
What is phenytoin
used in management of seizures
binds to sodium channels increasing their refractory period
Acute adverse effects of phenytoin
dizziness, diplopia, nystagmus, slurred speech, ataxia
confusion, seizure
why is phenytoin teratogenic
it is associated with cleft palate and congenital heart disease
Cerebral palsy
disorder of movement and posture due to a non-progressive lesion of the motor pathways developing in the brain
antenatal causes of cerebral palsy
accounts for 80% cases
cerebral malformation and congenital infection (rubella, toxoplasmosis, CMV)
intrapartum causes of cerebral palsy
account for 10% cases
birth asphyxia/trauma
post natal causes of cerebral palsy
10 % cases
intraventricular haemorrhage
meningitis
head trauma
manifestations of cerebral palsy
abnormal tone early infancy
delayed motor milestones
abnormal gait
feeding difficulties
non motor problems in cerebral palsy
learning difficulties
epilepsy
squints
hearing impariment
Four classifications of cerebral palsy
spastic
dyskinetic
ataxic
mixed
spastic cerebral palsy
subtypes of hemiplegia, diplegia or quadriplegia
increased tone resulting from damage to upper motor neurons
dyskinetic cerebral palsy
caused by damage to basal ganglia and the substantia nigra
athetoid movements and oro motor problems
( slow, writhing movements of the distal extremities.)
ataxic cerebral palsy
caused by damage with typical cerebellar signs
Management of cerebral palsy
multidisciplinary approach is needed
treatment for spasticity include oral diazepam, oral and intrathecal baclofen, botulinum toxin type A, orthopedic surgery and selective dorsal rhizotomy
anticonvulsants and analgesia as required
A shaft fracture of the humerus is likely to damage which nerve
the radial nerve
what happens if you damage the radial nerve
wrist drop
sensory loss to small area between dorsal aspect of 1st and 2nd metacarpals
Wernickes (receptive) aphasia
due to lesion of superior temporal gyrus
typically supplied by inferior division of left middle cerebral artery
‘forms’ speech before sending it to brocas area
lesions result in sentences that make no sense, word substitution and neologisms but speech remains fluent (called word salad)
comprehension is impaired
Brocas (expressive) aphasia
due to a lesion of the inferior frontal gyrus
typically supplied by superior division of left middle cerebral artery
speech is non fluent laboured an dhalting
repetition is impaired
comprehension is normal
Conduction aphasia
due to stroke affecting arcuate fasiculus (connection between wernickes and brocas)
speech is fluent but repetition is poor
aware of errors they ar emaking
comprehension is normal
global aphasia
large lesion affecting wernickes, brocas and connection between resulting in severe expressive and receptive aphasia
may still be able to communicate using gestures
subtypes of vascular dementia
stroke related VD - multi infarct or single infarct dementia
subcortical VD - caused by small vessel disease
mixed dementia - presence of both VD and alzheimers
Risk factors for developing vascular dementia
history of stroke of TIA
AF
HTN
DM
Hyperlipidaemia
Smoking
Obesity
CHD
FH of stroke of CVS disease
How do patients present with vascular dementia
several months or several years of history of a sudden or stepwise deterioration of cognitive function
Symptoms of vascular dementia
focal neurological abnormalities (visual disturbance, sensory or motor)
Difficulty with attention and concentration
Seizures
memory disturbance
gait disturbance
speech disturbance
emotional disturbance
How is a diagnosis for vascular dementia made
comprehensive history and physical exam
formal screen for cognitive impairment
medical review to exclude medication cause
MRi scan to show infarcts and extensive white matter changes
Management of vascular dementia
mainly symptomatic
include - cognitive stimulation programmes, etc.
Consider AChE inhibitors or memantine if they have comorbid Alzheimers, parkinsons, or dementia with Lewy bodies
Features of horner’s syndrome
miosis (small pupil)
ptosis
enophthalmos (sunken eye)
anhidrosis (loss of sweating on one side)
How can apraclonidine eye drops be used to distinguish horners syndrome
cause pupillary dilation in Horners syndrome due to denervation supersensitivity but produces mild pupillary constriction in normal pupil by down regulating the norepinephrine release at the synaptic cleft
Causes of Horners syndrome
remember as 4 Ss, 4Ts, and 4Cs,
(S for central, T for torso (pre ganglionic) and C for cervical (post ganglionic))
Central lesions ( 4Ss)
Stroke
MS
Swelling (tumours)
Syringomyelia (cyst in spinal cord)
Pre ganglionic lesions (4Ts)
Tumour (pancoast’s)
Trauma
Thyroidectomy
Top rib (cervical rib growing above first rib above clavicle)
Post ganglionic (4Cs)
Carotid aneurysm
carotid artery dissection
cavernous sinus thrombosis
cluster headache
What is congenital horner’s syndrome associated with
heterochromia
difference in colour of the iris on the affected side
Parathyroid hormone (PTH) actions on calcium and phosphate
-increase calcium levels and decrease phosphate levels
parathyroid hormone actions on bones
increases bone resorption
immediate action on osteoblasts to increase calcium in the ECF]
osteoblasts produce a protein signaling molecule that activate osteoclast s which cause the bone resoprtion
Renal actions of parathyroid hormone
increases renal tubular resorption of calcium
increases synthesis of active form of vit D (1,25(OH)2D)
decreases renal phosphate reabsorption
active form of vit d actions on plasma calcium and phosphate
increases plasma calcium and phosphate
active form of vit d action on bone and renal system
increases renal tubular reabsorption and gut absorption of calcium
increases renal phosphate reabsorption in the proximal tubule
increases osteoclastic activity
calcitonin actions
secreted by C cells of thyroid
inhibits osteoclast activity
inhibits renal tubular absorption of calcium
three clinically relevant groups of opioid receptors
Mu receptors
kappa receptors
delta receptors
mu opioid receptors
three types which have different actions and are located within the brain, brainstem and spinal cord
mu1 - present on neurons responsible for transmitting pain signals within the CNS and molecules which activate these receptors have analgesic effects on the body
mu2&3 - present in brainstem and activation of them causes respiratory depression, reduced gastro-intestinal motility and vasodilation
also responsible for the pupillary constriction seen in opioid overdose
kappa opioid receptors
three types located throughout the brain, brainstem and spinal cord
responsible for the cognitive effects of opioid drugs and activation causes dysphoria, hallucinations and depressed consciousness
delta opioid receptors
two types located exclusively in the brain and brainstem
potentiation action upon mu receptors and make the effects of analgesia, respiratory depression and dependence more pronounced when activated together
delta opioid receptors
two types located exclusively in the brain and brainstem
potentiation action upon mu receptors and make the effects of analgesia, respiratory depression and dependence more pronounced when activated together
examples of weak opioids and their common side effects
codeine or tramadol
constipation, urinary retention , addiction
3 examples of strong opioids, administration, common use and effects
morphine, oxycodone, methadone
oral/s/c
postoperative pain, major trauma
sedation, respiratory depression, constipation, addiction
