DIT review - Neurology 4

Question 1

What is status epilepticus

Answer 1

Continous or recurring seizure that may result in brain injury; defined as > 5 min

Question 2

Meissner corpuscle (type, location, effect)

Answer 2

♣ Rapidly adapting, superficial

♣ Dynamic, fine/light touch

♣ On hairless skin

Question 3

Pacinian corpuscle (type, location, effect)

Answer 3

♣ Rapidly adapting, deep

♣ Vibration, pressure

♣ Deep skin layers, ligaments, joints

Question 4

Merkel disc ((type, location, effect)

Answer 4

♣ Slowly adapting, superficial

♣ Deep static touch

♣ Fingertips, superficial skin

Question 5

Ruffini corpuscle (type, location, effect)

Answer 5

♣ Slowly adapting, deep

♣ Pressure, slippage of objects along surface of skin

♣ Fingertips, joints, soles of feet

Question 6

Flow of input through the cerebellum

Answer 6

Inputs (mossy fiber and climbing fibers) - cerebellar cortex - axons of purkinje fibers (always inhibitory signal) - deep nuclei of cerebellum - output targets (usually superior cerebellar peduncle - contralateral ventral lateral nucleus of the lateral thalamaus)

Question 7

What are the deep nuclei of the cerebellum

Answer 7

• Lateral to medial - Don’t Eat Greasy Foods
  
  • Dentate
  • Emboliform
    
    • Emboliform + Globose = Interposed
  • Globose
  • Fastigial

Question 8

Functional units of the cerebellum and their corresponding deep nuclei

Answer 8

• Vestibulocerebellum
  
  • Vermis + flocculonodular (most medial)
  • Fastigial deep nucleus
• Spinocerebellum
  
  • Vermis + paravermis
  • Interposed deep nucleus
• Cerebrocerebellum
  
  • Lateral hemisphere
  • Dentate deep nucleus

Question 9

What are the most common causes of essential, intention, and resting tremor?

Answer 9

Essential (with rest and movement) - genetic

Intention - cerebellar dysfunction

Resting - Parkinson’s

Question 10

Describe the different between Ia and Ib afferent muscle fibers

Answer 10

Ia - afferent fiber from intrafusal fiber

Synapse directly on and activate alpha motor neurons in order to stimulate the extrafusal muscle corresponding to the intrafusal fiber (e.g. opposes the stretch sensed by intrafusal fiber)

Ib - afferent fiber from golgi tendon organ

Synapses on inhibitory interneuron in spinal cord - interneuron synapses on alpha motor neuron and inhibit them - leading to relaxation of extrafusal fiber

Question 11

What is the presentation and cause of hemiballismus

Answer 11

• Sudden, wild flailing of half of body (1 arm +/- ipsilateral leg)
• Seen in lesion of contralateral subthalamic nucleus

Question 12

Define athetosis and it’s cause

Answer 12

Slow, writhing movements, especially seen in the fingers

Due to lesion of basal ganglia (Huntington’s)

Question 13

Define chorea and its cause

Answer 13

Sudden, jerky, purposeless movements

Seen in lesion of basal ganglia (e.g. Huntington’s)

Question 14

Define dystonia

Answer 14

Sustained, involuntary muscle contractions

Question 15

Define akathisia and its cause

Answer 15

• Dancing in place (voluntary) / Restlessness
• Compulsion to move
• Seen with neuroleptic use or in Parkinson’s

Question 16

What disease presents with Lewy bodies and what make up Lewy bodies?

Answer 16

Intracellular eosinophillic inclusions of alpha-synuclein within neurons

Seen in Parkinsons and Lewy body dementia

Question 17

What disease is MTPP exposure associated with?

Answer 17

Parkinsons

• MTPP converted to MPP via COMT
• MPP destroy dopaminergic neurons

Question 18

Describe characteristic features of Parkinsons

Answer 18

• Due to loss of dopaminergic neurons
• Depigmentation of substantia nigra
• Lewy bodies (eosinophilic inclusions of alpha-synuclein) within neurons
• TRAPS
  
  • Tremor (resting)
  • Rigidity (cogwheel)
  • Akinesia (or bradykinesia)
  • Postural instability
  • Staggering gait

Question 19

Describe characteristic features of Huntington’s

Answer 19

THINK: C’s

CAG trinucleotide repeat

On chromosome 4

Occurs in 40s

Chorea

Cognitive decline (dementia)

Caudate atrophy (and putamen)

Increased DA, decreased GABA, decreased ACh

Question 20

Identify the location of the following in the spinal cord:

Dorsal column

Spinothalamic tract

Corticospinal tract (lateral and anterior)

Answer 20

Question 21

Describe the pathway of the dorsal column/medial lemniscus

Answer 21

• First order neurons (dorsal column) have cell bodies in dorsal root ganglion or cranial nerve ganglion and ascend ipsilaterally to the nucleus gracilis (lower body) or nucleus cuneatus (upper body) in the medulla
• In the medulla they synapse on second order neurons which then cross the midline
• Second order neurons (now called the medial lemniscus) ascend to the contralateral thalamus (VPL) where they synapse on 3^rd order which ascend to the somatosensory cortex and synapse on 4^th order

Question 22

Describe pathways of spinothalamic tract

Answer 22

• Processes pain, temperature, and light touch (crude touch?)
• First order neurons have cell bodies in dorsal horn (of gray matter) and synapse on thermoreceptors and nociceptors in the skin
• First order nerves synapse on second order in the dorsal horn of the spinal cord, where the second order cross the midline at the anterior white commissure and ascend to the contralateral thalamus (VPL) when second order synapse on third order which ascend to somatosensory cortex and synapse on fourth order

Question 23

Describe pathway of corticospinal tract

Answer 23

• UMN from motor cortex descend to pyramid in the medulla
• Axons cross to contralateral side in the caudal medulla and descend via lateral cortico-spinal tract
• Enter the spinal cord at lateral white column and travel to the anterior grey horn
• Synapse to LMN (alpha motor neuron) which then exits via ventral spinal root to innervate muscle

Question 24

What part of the spinal cord is damaged in poliomyelitis

Answer 24

Anterior motor horn - LMN lesion with asymmetric weakness

Question 25

What part of the spinal cord is damaged in Werdnig-Hoffman disease

Answer 25

Anterior motor horn - LMN deficit with SYMMETRIC weakness

Question 26

What part of the spinal cord/presentation of occlusion of anterior spinal artery

Answer 26

Damage to everything except dorsal column

• Spinothalamic damage = loss of bilateral pain and temperature below the lesion
• Corticospinal damage = UMN below the lesion
• Anterior horn damage = LMN deficit at the level of the lesion

Question 27

What part of the spinal cord/presentation of ALS

Answer 27

• Damage to anterior motor horn and lateral corticospinal tract
• Presents with both UMN and LMN deficits
• Lack of sensory impairment distinguishes from syringomyelia

Question 28

What is the defect that causes ALS

Answer 28

• Caused by defect in superoxide dismutase (O2- à H2O2)

Question 29

What part of the spinal cord is damaged/presentation of Tabes dorsalis

Answer 29

• Due to tertiary syphilis
• Damage to dorsal column
• Impaired propriocepton
• Absence of DTRs and (+) Romberg
• Argyll Robertson pupils (accommodation but no reaction to light)

Question 30

Describe cause/presentation of Friedrich ataxia

Answer 30

• Autosomal recessive trinucleotide repeat disorder - GAA
• Frataxin gene of chromosome 9
• Leads to impairment in mitochondrial function
• Degeneration of cerebellum and spinal cord
  
  • Ataxia, muscle weakness, loss of vibratory sense and proprioception, diabetes mellitus, hypertrophic cardiomyopathy
  • Presents in childood with kyphoscoliosis
• THINK: Friedreich is fratastic (frataxin): he’s your favorite frat brother, always staggering and falling but has a sweet, big heart

Question 31

Findings in Brown-Sequard syndrome

Answer 31

• Ipsilateral UMN signs below level of lesion (corticospinal tract damage)
• Ipsilateral loss of tactile, vibration, proprioception sense below level of lesion (dorsal column)
• Contralateral pain and temp loss 2-3 segments below level of lesion (spinothalamic tract)
  
  • 2-3 segments below because remember info travelled up 2-3 segments via Lissaur’s tract
• Ipsilateral pain and temp loss at level of lesion
• Ipsilateral LMN signs at level of lesion

Question 32

What is the Charcot triad and what disease is it for?

Answer 32

Multiple sclerosis

• Charcot triad of symptoms - SIN:
  
  • Scanning speech
  • Intention tremor, Incontinence, Internuclear ophthalmoplegia
  • Nystagmus

Question 33

Describe MRI and lumbar puncture of MS

Answer 33

• MRI (gold standard)
  
  • Periventricular plaques
• Lumbar puncture
  
  • Increased protein
  • Oligoclonal IgG bands

Question 34

Treatment of MS

Answer 34

• Steroids for acute flares
• Interferon beta slows progression

Question 35

Draw and label the branches of the brachial plexus

Answer 35

Question 36

Describe the muscles that each branch of the brachial plexus innervate

Answer 36

Also see notebook

Question 37

Lesion to what nerve gives you Saturday night palsy, and what does it present with?

Answer 37

Wrist drop

Radial nerve

Question 38

Lesion of what nerve gives you winged scapula? Due to deficit of what muscle?

Answer 38

Long thoracic (deficit of serratus anterior)

Question 39

What is the nerve damaged/presentation sometimes during delivery

Answer 39

“Waiter’s tip” aka Erb palsy

Damage to superior trunk of brachial plexus

Axillary nerve damage - deltoid - arm hangs by side

Suprascapular nerve damage - infraspinatus - arm medially rotated

Musculocutaneous damage - biceps (supination) - arm extended and pronated

Question 40

What nerve is affected in carpal tunnel?

Answer 40

Median nerve

Question 41

Pathway of aqueous humor

Answer 41

• Aqueous humor produced by ciliary bodies posterior chamber angle of lens - anterior chamber - reabsorbed via canal of Schlemm

Question 42

What drugs decrease aqueous humor production?

Answer 42

Alpha agonists (epinephrine, brimonidine)

Beta blockers (timolol)

Diuretics (acetazolamide)

Question 43

What drugs increase aqueous flow?

Answer 43

• Cholinomimetics
  
  • Direct - Pilocarpine, Carbachol
  • Indirect - Physostigmine, Echothiophate
• Prostglandins
  
  • Bimatoprost, Latanoprost