Physiology

Question 1

What are the different types of glia in the CNS and PNS?

Answer 1

CNS

• Astrocytes
• Oligodendrocytes
• Microglia
• Ependymal cells

PNS

• Satellite cells
• Schwann cells

Question 2

What is CNI, what does it innervate, where does it pass through skull?

Answer 2

Olfactory nerve
Special sensory - smell
Passes through cribriform plate of ethmoid bone

Question 3

What is CNII, what does it innervate, where does it pass through skull?

Answer 3

Optic nerve

Special sensory - vision
Passes through optic canal

Question 4

What is CNIII, where does it emerge, where does it pass through skull, what does it innervate?

Answer 4

Oculomotor nerve
Emerges from midbrain
Somatic motor (extraocular muscles and eyelid muscles)
Visceral motor - parasympathetic for pupil constriction and to ciliary muscle causing lens accommodation
Passes through superior orbital fissure

Muscles

• recti (superior, medial, inferior)
• inferior oblique
• levator lapebrae superioris (eyelid)

Question 5

What is CNIV, where does it emerge, where does it pass through skull, what does it innervate?

Answer 5

Trochlear nerve
Emerges from dorsal surface of midbrain
Somatic motor of superior oblique
Passes through superior orbital fissure

Question 6

What is CNV, where does it emerge, where does it pass through skull, what does it innervate?

Answer 6

Trigeminal
Emerges from pons, travels through trigeminal ganglion
- V1 exits via superior orbital fissure
- V2 exits via foramen rotundum
- V3 exits via foramen ovale

V1 - general sensory - forehead, scalp, eyelids, nose
V2 - general sensory - face over maxilla, maxillary teeth, TMJ, palate
V3 - general sensory - face over mandible, mandibular teeth, TMJ, mouth mucosa, anterior 2/3rds of tongue
- somatic motor - muscles of mastication, part of digastric

Question 7

What is CNVI, where does it emerge, where does it pass through skull, what does it innervate?

Answer 7

Abducens nerve
Emerges between pons/medulla
Exits via superior orbital fissure

Somatic motor - extraocular muscle (lateral rectus)

Question 8

What is CNVII, where does it emerge, where does it pass through skull, what does it innervate?

Answer 8

Facial nerve
Emerges from pons and medulla
Exits via internal acoustic meatus/stylomastoid foramen

Various components

• somatic motor - facial expression, stapedius, part of digastric
• visceral motor - parasympathetic innervation of submandibular/sublingual salivary glands, lacrimal glands, nose/palate glands
• general sensory - external acoustic meatus
• special sense - taste from anterior 2/3rds of tongue/palate

Question 9

What is CNVIII, where does it emerge, where does it pass through skull, what does it innervate?

Answer 9

Vestibulocochlear nerve
Emerges between pons and medulla and exits via internal acoustic meatus, divides into vestibular and cochlear nerves

Special sensory - vestibular sensation and hearing

Question 10

What is CNIX, where does it emerge, where does it pass through skull, what does it innervate?

Answer 10

Glossopharyngeal nerve
Emerges from medulla
Exits via jugular foramen

Various components

• special sensory - taste from posterior 1/3rd of tongue
• general sensory - cutaneous sensation from middle ear, posterior oral cavity
• visceral sensory - sensation from carotid body and sinus
• somatic motor - to stylopharyngeus
• visceral motor - parasympathetic to parotid gland

Question 11

What is CNX, where does it emerge, where does it pass through skull, what does it innervate?

Answer 11

Vagus
Emerges from medulla
Exits via jugular foramen

Various components

• special sensory - taste from epiglottis and palate
• general sensory - sensation from auricle, external acoustic meatus
• visceral sensory - pharynx, larynx, trachea, bronchi, heart, oesophagus, stomach, intestine
• somatic motor - pharynx, larynx, palate, oesophagus
• visceral motor - parasympathetic innervation in bronchi, gut, heart

Question 12

What is CNXI, where does it emerge, where does it pass through skull, what does it innervate?

Answer 12

Accessory nerve
Small cranial (medulla) and large spinal roots
Exit via jugular foramen

Somatic motor - striated muscle of soft palate, pharynx, larynx, and to SCM and trapezius

Question 13

What is CNXII, where does it emerge, where does it pass through skull, what does it innervate?

Answer 13

Hypoglossal nerve
Emerges from medulla
Exits through hypoglossal canal

Somatic - to muscles of tongue

Question 14

What are the pyramidal tracts made up of? Where do they cross?

Answer 14

Corticospinal and corticobulbar tracts
- motor fibres

Lateral Corticospinal fibres (90% of all CST fibres) decussate in pyramids
Anterior decussate (10% of CST fibres) at spinal level

Corticobulbar tract supply contralateral cranial nerves

Question 15

Where do motor neurons have their cell bodies?

Answer 15

Ventral horn

Question 16

What information travels up the lateral spinothalamic tracts?

Answer 16

Pain and temperature from contralateral side

• crosses at level of entry (or close to)
• travels through VPL nucleus of thalamus, to post central gyrus in parietal lobe

Question 17

What information travels up the dorsal column of the spinal cord?

Answer 17

Fine touch
Tactile localisation
Vibration sense
Proprioception

Of ipsilateral side

• crosses at medulla (gracile and cuneate nuclei)
• travels up through medial lemniscus in pons, VPL nucleus in thalamus, to post central gyrus in parietal lobe

Question 18

What is Brow-Sequard syndrome?

Answer 18

Hemisectional damage to spinal cord

• ipsilateral loss of touch, vibration, proprioception
• contralateral loss of pain, temperature
• contralateral (spastic) paralysis

Question 19

How many neurons are in a single ascending pathway, and a single descending pathway?

Answer 19

3 neurons in ascending pathways

• neuron to DRG
• DRG to synapse in dorsal horn of SC
• dorsal horn to thalamus (after crossing over)

2 neurons in descending pathway

• UMN (cortex to ventral horn)
• LMN (ventral horn to motor unit)

Question 20

What is the frontal lobe of the brain responsible for?

Answer 20

Primary Motor cortex - precentral gyrus
Inferior frontal gyrus - Broca’s area
Prefrontal cortex - cognitive functions of higher-order, judgement, prediction, planning

Question 21

What is the parietal lobe responsible for?

Answer 21

Primary sensory cortex - postcentral gyrus
Superior parietal lobule - interpretation of general sensory information
Inferior parietal lobule - interface between PSC and visual/auditory areas (in dominant hemisphere)

Question 22

What is the temporal lobe responsible for?

Answer 22

Superior temporal gyrus - primary auditory cortex
Auditory association areas - Wernicke’s in dominant hemisphere - auditory understanding
Inferior surface - receives fibres from olfactory tract

Question 23

What is the occipital lobe responsible for?

Answer 23

Medial surface of lobe - primary visual cortex

Rest of lobe is visual association cortex - image interpretation

Question 24

What areas make up the limbic system?

Answer 24

Cingulate gyrus
Hippocampus
Parahippocampal gyrus
Amygdala
Others

Question 25

What are the different types of white matter fibres?

Answer 25

Commissural fibres - connect corresponding areas of each hemisphere
Association fibres - connect cortex areas to cortex areas
Projection fibres - run between cortex and various subcortical centres - pass through coronal radiata and internal capsule

Question 26

What make up the functional basal ganglia?

Answer 26

Caudate nucleus
Putamen (half of lentiform nucleus)
Globus pallidus (other half)
Substantia nigra
Nucleus accumbens + olfactory tubercle
Subthalamic nucleus

Question 27

What are the input and output areas of the basal ganglia?

Answer 27

Caudate and putamen are input regions (from motor/premotor areas, thalamus)
They connect to globus pallidus and substantia nigra
Globus pallidus projects to thalamus which then sends fibres to motor cortex

‘Extrapyramidal system’

Question 28

What four systems control movement?

Answer 28

Descending control pathways
Basal ganglia
Cerebellum
Local spinal cord/brain stem circuits

Question 29

What kind of paralysis will occur in LMN lesions vs UMN lesions?

Answer 29

LMN - flaccid paralysis
UMN - spastic paralysis (posture regulating pathways)

Weakness rather than paralysis in corticospinal lesions

Question 30

What happens in excessive load of muscles?

Answer 30

GTO reflex activated - muscle relaxes to prevent damage

- can be overridden

Question 31

What are the otolith organs?

Answer 31

Utricle and saccule

• detect linear acceleration
• back/front tilt detected by utricle
• vertical tilt detected by saccule

(Rotational acceleration by semicircular canals)

Question 32

What are the sensory receptors in the semicircular canals, where are they located?

Answer 32

In the swellings at the base of the canals (ampullae), sensory receptors called cristae contain flexible gelatinous structure called cupula, responds to movements of endolymph

Embedded within gelatinous cupula are cilia of hair cells which synapse with CNVIII directly

Question 33

What are the sensory receptors of the otolith organs?

Answer 33

Collectively known as the maculae
Utricle’s are orientated on horizontal plane
Saccule on vertical

Question 34

What are the different vestibular reflexes?

Answer 34

Tonic labyrinthine reflex - keep axis of head in constant relationship with rest of body (maculae and neck receptors)

Dynamic righting reflex - rapid postural adjustments to prevent falling when you trip - involves extension of all limbs

Vestibulo-ocular reflex - eyes helping with proprioception/balance

• static reflex - eyes intort/extort/move to maintain image when head is being tilted
• nystagmus when fails

Question 35

How can nystagmus be used to test vestibular function?

Answer 35

Post-rotatory nystagmus
- subjects rotated in chair, get left nystagmus when accelerating to left, then right nystagmus on deceleration

Caloric stimulation

• water which creates convection currents within endolymph, stimulating receptors
• warm fluid causes nystagmus towards affected side, cold causes nystagmus away

Question 36

What (broad) groups of spinal cord tracts do what in terms of motor function?

Answer 36

Lateral pathways control voluntary movements of distal muscles (cortical control)
Ventromedial pathways control posture and locomotion (brain stem control)

Question 37

What two ventromedial pathways control posture/locomotion?

Answer 37

Vestibulospinal and tectospinal tract

Question 38

What spinal tracts control trunk/antigravity muscles?

Answer 38

Pontine and medullary reticulospinal tract

Question 39

What are some disorders affecting the basal ganglia?

Answer 39

Parkinsons - substantia nigra degeneration

Huntington’s - profound loss of caudate, putamen, globus pallidus

Question 40

What is the suprachiasmatic nuclei’s relevance to sleep?

Answer 40

The SCN (hypothalamus) demonstrates ~24hr circadian rhythm
Electrical stimulation of the SCN can promote sleep and damage can disrupt the sleep/wake cycle
Activity in SCN stimulates release of melatonin from pineal gland.

Question 41

How does EEG vary in wakefulness vs sleep?

Answer 41

Relaxed Awake - high frequency high amplitude (alpha waves)
Alert Awake - higher frequency, lower amplitude asynchronous waves (beta waves)

Children, stress/frustration - low frequency waves, high variety amplitude (theta waves)

Deep sleep - low frequency, high amplitude (delta waves)

Question 42

What are the stages of sleep?

Answer 42

Stage 1 - slow wave, non-REM, s-sleep
- light sleep, slow eye movements, theta waves

Stage 2 - slower frequency but bursts of rapid waves (sleep spindles), eye movements stop

Stage 3 - very low frequency, high amplitude (delta waves) interspersed with episodes of faster waves

Stage 4 - Exclusively delta waves
(stage 3 and 4 = deep sleep)

REM sleep - rapid eye movements

Question 43

What physiological processes does sleep support?

Answer 43

Neuronal plasticity
Learning and memory
Cognition
Clearance of CNS waste
Conservation of energy
Immune function

Question 44

What are the various types of sleep disorder?

Answer 44

Insomnia

• chronic/primary
• temporary/secondary

Nightmares - REM sleep

Night terrors - delta sleep (common in 3-8yo)
- trash/scream, eyes may be open but fail to recognise parents, can’t remember when awake

Somnambulism - nonREM sleep (mainly stage 4)
- sleep walking

Narcolepsy - patients entire directly into REM sleep
- linked to dysfunctional orexin release from hypothalamus

Question 45

What are the 3 main components (and their anatomical areas) in memory?

Answer 45

Formation of memory - hippocampus
Storage of memory - cortex
Accessing of memory - thalamus

Question 46

Damage to the hippocampus will result in what?

Answer 46

Anterograde amnesia

• sensory memory and previous LTMs intact
• can’t form new LTMs

Question 47

Damage to the thalumus without damage to the hippocampus will result in what (with respect to memory)?

Answer 47

Retrograde amnesia

- suggests thalamus is required for searching existing memories

Question 48

What changes occur at a synaptic level for LTM?

Answer 48

Increase in neurotransmitter release sites on presynaptic membrane
Increase in number of neurotransmitter vesicles stored and released
Increase in number of presynaptic terminals

Question 49

What are the different types of LTM?

Answer 49

Declarative/explicit
- abstract memory for events (episodic memory) and for words/rules/language (semantic memory) - relies heavily on hippocampus

Procedural/Reflexive/Implicit
- acquired through repetition. Includes motor memory. Based mainly in in the cerebellum and independent of hippocampus.

Question 50

What is the Papez circuit?

Answer 50

Hippocampus > Mamillary bodies > anterior thalamus > cingulate gyrus > hippocampus (repeat)

Reverberation through here and frontal cortex/sensory and association areas for consolidation

Question 51

What vitamin is deficient in Korsakoff’s?

Answer 51

Vitamin B1 - leading to limbic system damage

Question 52

What are the different types of primary afferent fibres?

Answer 52

Aalpha - proprioception - large myelinated
Abeta - proprioception, cutaneous sensation (touch, pressure, vibration) - large myelinated
Adelta - cutaneous sensation (cold, ‘fast’ pain, pressure) - small myelinated
C - cutaneous sensation (warmth, ‘slow’ pain) - unmyelinated

Aalpha/beta travel up dorsal column (ipsilateral), decussate in brainstem
Adelta/C (nociceptors) travel anterolateral tracts (contralateral spinothalamic), decussating in spinal cord

Question 53

What are the areas involved in pain pathways?

Answer 53

Afferents travel up spinal cord to thalamus, which projects to cingulate cortex, somatosensory cortex, limbic system

Limbic system projects to PAG, RVM and down.

Question 54

What is the difference between allodynia and hyperalgaesia?

Answer 54

Allodynia - decreased threshold for response

Hyperalgaesia - exaggerated response to normal and supranormal stimuli

Question 55

What is the difference between nociceptive pain and neuropathic pain?

Answer 55

Nociceptive pain - sensory experience that occurs when sensory neurons respond to noxious stimuli
Neuropathic pain - pain initiated or caused by a primary lesion or dysfunction in the somatosensory nervous system

Question 56

What analgaesics affect transduction?

Answer 56

NSAIDs
Ice
Rest
Local Anaesthetics

Question 57

What analgaesics affect transmission?

Answer 57

Nerve blocks
Opioids
Anticonvulsants
Surgery (DREZ, cordotomy)

Question 58

What analgaesics affect perception?

Answer 58

Education
CBT
Distraction
Relaxation
Graded motor imagery
Mirror box therapy

Question 59

What analgaesics affect descending modulation?

Answer 59

Placebos
Opioids
Antidepressants
Spinal cord stimulation