Neuroanatomy

Question 1

Oculomotor nerve CN lll - derived from the Oculomotor nucleus in the midbrain.

It emerges anterior to the midbrain between which structures

Answer 1

Deep to PCA and superficial to SCA

Question 2

Which nerve innervates the superior tarsal muscle

Answer 2

Sympathetic fibres - hitch-hikes on superior branch of CN III

Question 3

The trochlear nerve CN IV is the smallest cranial nerve with the longest intra-cranial course - it emerges from the posterior aspect of the midbrain.

The nerve fibres cross over and innervate which muscle on the contralateral side?

Answer 3

Superior oblique

Question 4

What are the clinical features of CN IV palsy?

Answer 4

Vertical diplopia - exacerbated when looking downwards and inwards

Head tilt away from affected side

Question 5

The trigeminal nerve has 3 terminal branches - they exit the cranium via which foramen?

Answer 5

V1 - superior orbital fissure

V2 - foramen rotundum

V3 - foramen ovale

Question 6

Name the terminal branches of V1

Answer 6

Frontal
Lacrimal
Nasociliary

Question 7

The Lacrimal gland is innervated by which nerve fibres?

Answer 7

Post-ganglionic fibres from pterygopalatine ganglion (from facial nerve) - travel with V2 then lacrimal branch V1

Question 8

Name the structures passing through the cavernous sinus

Answer 8

Oculomotor
Trochlear
Ophthalmic nerve V1
Maxillary nerve V2
Abducens
ICA

Question 9

1. 1. The facial nerve exits through which foramen in the temporal bone?
2. 2. CN V exits the cranium via which foramen?

Answer 9

1. 1. Internal acoustic meatus in petrous part of temporal bone
2. 2. Stylomastoid foramen via facial canal

Question 10

Name the intra-cranial branches of the facial nerve and the structures they innervate

Answer 10

Greater petrosal nerve - parasynpathetic fibres to mucous glands and lacrimal gland

Nerve to srapedius - stapedius muscle

Chorda tympani - taste to anterior 2/3 tongue

Question 11

Name the extra-cranial branches of the facial nerve and the structures they innervate

Answer 11

Posterior auricular nerve - muscles around the ear

Branch to posterior belly digastric

Branch to stylohyoid

Temporal branch - frontalis, obicularis oculi, corrugator supercilii

Zygomatic - obicularis oculi
Buccal - buccinator, obicularis oris, zygomaticus
Marginal mandibular - mentalis
Cervical - platysma

Question 12

Causa equina is a bundle of nerve roots situated inferior to the spinal cord where it terminates at the conus medullaris (L1)

Cauda equina is formed by lower motor neurones innervating which anatomical structures?

Answer 12

Motor and sensory to lower limb (L1-S5)

Anal sphincter

Parasympathetic innervation to bladder

Question 12

Causa equina is a bundle of nerve roots situated inferior to the spinal cord where it terminates at the conus medullaris (L1)

Cauda equina is formed by lower motor neurones innervating which anatomical structures?

Answer 12

Motor and sensory to lower limb (L1-S5)

Anal sphincter

Parasympathetic innervation to bladder

Question 13

Cauda equina syndrome (CES) is a surgical emergency

1. 1. Clinical features
2. 2. Causes
3. 3. Investigation

Answer 13

1.1.
Reduced lower limb sensation (bilateral)
Saddle anaesthesia
Lower limb weakness with hyporeflexia
Bladder or bowel dysfunction - urinary retention, reduced ability to void
Severe back pain
Impotence

1.2.
Disc herniation
Trauma
Neoplasm
Infection - discitis or Potts disease
Chronic spinal Inflammation
Iatrogenic

1.3. Whole spine MRI

Question 14

The descending tracts of the CNS can be divided into pyramidal and extra-pyramidal pathways.

The pyramidal tracts originate in the cerebral cortex - name their further subdivisions.

Answer 14

Corticospinal - supplies muscles of the body

Corticobulbar - supplies muscles of the head and neck

Question 15

Describe the course of the corticospinal tract

Answer 15

Originates in cerebral cortex - recieves inputs from primary motor cortex, premotor cortex, supplementary motor area

Decend through internal capsule

Crus cerebri of midbrain, pons, medulla

Fibres within lateral corticospinal tract decussate in medulla

Anterior corticospinal tract remains ipsilateral

Terminate in ventral horn

Question 16

Describe the course of the Corticobulbar tracts

Answer 16

Arise in the lateral aspect of the primary motor cortex

Converge in the internal capsule

Neurons terminate on the motor nuclei of cranial nerves

Synapse with LMNs

Question 17

Regarding the dorsal-column medial lemniscus (DCML) pathway

1.1. Which sensory information do the carry

Describe the pathway for

1. 2. 1st order neurons
2. 3. 2nd order neurons
3. 4. 3rd order neurons

Answer 17

1. 1. Light touch, proprioception and vibration
2. 2. Sensory information from peripheral nerves to medulla oblongata via
      - Upper limb (T6 and above) fasciculus cuneatus (lateral part dorsal column) to nucleus cuneatus
      - Lower limb (T6 and below) fasciculus gracilis to nucleus gracilis
3. 3. Decussate in medulla - to the contralateral medial lemniscus to reach the thalamus (ventral posterolateral nucleus)
4. 4. Thalamus to ipsilateral primary sensory cortex

Question 18

The spinothalamic tract is divided into anterior and lateral spinothalamic tract

Which sensory information is transmited respectively

Answer 18

Anterior spinothalamic tract - crude touch and pressure

Lateral spinothalamic tract - pain and temperature

Question 19

Regarding the spinothalamic tracts - describe the pathway for

1. 1. 1st order neurons
2. 2. 2nd order neurons
3. 3. 3rd order neurons

Answer 19

1. 1. Sensory receptor in peripheral nerve - to SC and travels 1-2 levels to synapse in the substantia gelatinosa
2. 2. Decussate within the SC - travel to thalamus via 2 distinct tracts

Anterior and lateral spinothalamic tracts

1.3. Thalamus (ventral posterolateral nucleus) to ipsilateral primary sensory cortex through the internal capsule

Question 20

The spinocerebellar tracts collectively transmit unconscious proprioceptive information

Name these tracts

Answer 20

Posterior spinocerebellar tract - proprioceptive information from LLs

Cuneocerebllar tract - ULs

Anterior spinocerebellar tract - LLs

Rostral spinocerebellar tract - ULs

ALL to ipsilateral cerebellum

Question 21

The spinocerebellar tracts collectively transmit unconscious proprioceptive information

Name these tracts

Answer 21

Posterior spinocerebellar tract - proprioceptive information from LLs

Cuneocerebllar tract - ULs

Anterior spinocerebellar tract - LLs

Rostral spinocerebellar tract - ULs

ALL to ipsilateral cerebellum