ILA7 - Stroke/weakness

Question 1

What are the two types of dysphasia?

Answer 1

Receptive and expressive

Question 2

What is receptive dysphasia?

Answer 2

Lesion in Wernicke’s area, difficulty in understanding language

Question 3

What is expressive dysphasia?

Answer 3

Lesion in Broca’s area. Trouble with expressing, say words but dont make sense.

Question 4

In what percentage of right handed people are Brocas and Wernickes areas on the left side?

Answer 4

98%

Question 5

In what percentage of left handed people are Brocas and Wernickes areas on the right side?

Answer 5

60%

Question 6

Name some of the key areas in the frontal lobe.

Answer 6

• Central sulcus & Sylvian/lateral sulcus
• Prefrontal cortex (at front, complex cognitive processes)
• Premotor cortex (ant. to primary motor cortex)
• Primary motor cortex (pre-central gyrus, movement)
• Broca’s area (ant. inf. dominant side, speech generation)
• Sup, middle and inf frontal gyri

Question 7

Name some key areas in the temporal lobe.

Answer 7

• Sup, midlle and inf temporal gyri
• Wernicke’s area (post to Broca’s, below lateral sulcus, speech reception and association)
• Function is to process sensory info to derived meanings for appropriate response, language comprehension and emotional association

Question 8

Name some key areas in the parietal lobes.

Answer 8

• Bound by central sulcus (ant.) and parieto-occipital sulcus (post), above temporal lobe
• Function is to integrate sensory info from various parts of the body
• Primary somatosensory cortex (postcentral gyrus, sensation)

Question 9

What are the folds of dura mater that divide the cerebellum?

Answer 9

Tentorum cerebelli (superior) and the falx cerebelli (divides in two)

Question 10

Which cranial fossa is the cerebellum located?

Answer 10

Posterior

Question 11

What connects the 2 lobes of the cerebellum?

Answer 11

Vermis

Question 12

What are the 3 LOBES of the cerebellum?

Answer 12

anterior, posterior and floccunlonodular

Question 13

What are the hemispheres and zones of the cerebellum?

Answer 13

Vermis, intermediate and lateral hemispheres

Question 14

What are the functional areas of the cerebellum?

Answer 14

Cerebrocerebellum, spinocerebellum and vestibulocerebellum

Question 15

What is the function of the vermis?

Answer 15

DOES NOT ALLOW COMMS BETWEEN 2 HEMISPHERES

• posture
• limb movements
• eye movements

Question 16

Function and position of the cerebrocerbellum.

Answer 16

Lateral parts of the cerebellum. Planning movements and motor learning.

Question 17

Function and position of the spinocerebellum.

Answer 17

Vermis and more medial parts of 2 hemispheres. Regulating body movements, receives proprioceptive info.

Question 18

Function and position of vestibulocerebellum.

Answer 18

Flocculonodular lobe. Control balance and ocular reflexes.

Question 19

What are the parts of the brain stem (sup to inf)?

Answer 19

Midbrain, pons, medulla oblongagta

Question 20

What are the two areas of the midbrain called and what separates them?

Answer 20

Tectum (post) and tegmentum (ant). Cerebral aqueduct.

There is also the cerebral peduncles, seperated by the substantia nigra

Question 21

What makes up the tectum?

Answer 21

Superior and inferior colliculi (sup = visual, inf = auditory)

Question 22

Why is the substantia nigra black/grey? What does it produce?

Answer 22

Neuromelanin. Dopamine

Question 23

What is the function of the pons?

Answer 23

Act as comms between cerebrum and cerebellum

Question 24

What is the function of the medulla oblongata

Answer 24

Houses asc and desc tracts. Control of various functions.

Question 25

What is Cn 1? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 25

Olfactory. Sensory. Smell from olfactory epithelium. Cribriform plate in ethmoid bone.

Question 26

What is Cn 2? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 26

Optic. Sensory. Vision. Optic canal.

Question 27

What is Cn 3? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 27

Occulomotor. Motor. Innervates extraocular muscles (LPS, SR,IR,MR,IO), also supplies the sphincter pupillae and the ciliary muscles of the eye (parasympathetic). Superior orbital fissure.

Question 28

What is Cn 4? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 28

Trochlear. Motor. Superior oblique (tendon does through the trochlea). Superior orbital fissure.

Question 29

What is Cn 5? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 29

Trigeminal. I-opthalmic (sensory), scalp to nose, superior orbital fissure
II-maxillary (sensory), nose to top lip, foramen rotundum
III-mandibular (both), sensory is ant 2/3 of tongue, skin and lower teeth, motor is muscles of mastication, foramen ovale

Question 30

What is Cn 6? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 30

Abducens. Motor. Lateral rectus. Superior orbital fissure

Question 31

What is Cn 7? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 31

Facial. Both. Sensory= outer ear, taste from ant 2/3 of tongue. Motor= facial expression, mucous membrane. Internal acoustic meatus then stylomastoid foramen.

Question 32

What is Cn 8? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 32

Vestibulocochlear. Sensory. Hearing, balance. Internal acoustic meatus.

Question 33

What is Cn 9? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 33

Glossopharyngeal. Both. Sensory= general and special from post 1/3of tongue, ear. Motor= parotid and stylopharyngeus. Jugular foramen.

Question 34

What is Cn 10? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 34

Vagus. Both. Sensory= ear, larynx, pharynx, taste from epiglottic part of tongue. Motor= most muscles of pharynx and larynx. Jugular foramen.

Question 35

What is Cn 11? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 35

Spinal accessory. Motor. Trapezius, sternocleidomastoid and some fibres run with Cn 10 to viscera. Jugular foramen.

Question 36

What is Cn 12? Is it sensory or motor? What is its function? Where does it leave the skull?

Answer 36

Hypoglossal. Motor. Tongue muscles except palatoglossus (Cn10). Hypoglossal canal.

Question 37

What is the sulcus that separates the two pyramids?

Answer 37

Anterior median sulcus

Question 38

What is the sulcus that separates the pyramids from the olives?

Answer 38

Ventero-lateral sulcus

Question 39

What is the sulcus that lies outside the olives?

Answer 39

Postero-lateral sulcus

Question 40

Which tracts run through the pyramids (anterior surface of medulla)?

Answer 40

Corticospinal and corticobulbar (and so are the pyramidal tracts)

Question 41

Which tracts run through the olives (ant. surface of medulla)?

Answer 41

Tectospinal, rubrospinal, vestibulospinal and reticulospinal (extrapyramidal tracts)

Question 42

Where does sensory information come from in the cuneate fasciculi?

Answer 42

Cuneate means wedge shaped, and so senory information from upper body

Question 43

Where does sensory information come from in the gracile fasciculi?

Answer 43

Lower body, Walking gracefully

Question 44

What are the 2 groups of descending pathways?

Answer 44

Pyrimadal and extra pyramidal

Question 45

Where do pyramidal tracts originate?

Answer 45

Cerebral cortex

Question 46

Which parts of the body are in the medial aspect of the homunculus?

Answer 46

Leg, feet and genitals.

Question 47

What do the pyramidal tracts control.

Answer 47

Voluntary control of muscles

Question 48

What are the 2 pyramidal tracts?

Answer 48

Corticospinal and bulbospinal

Question 49

What is the general route descending pathways take?

Answer 49

Fibres start seperate, go through the corona radiata. They then join and go though the internal capsule. Then on to the brainstem and spinal cord

Question 50

Describe the corticospinal tract.

Answer 50

• Goes to the musculature of the body
• Input from primary motor, pre motor and somatosensory centres
• Pass through crus cerebri of midbrain, pons and into medulla within the peduncles (motor only)
• Divide into lateral corticospinal (90% of fibres, cross over at base of pyramids in medulla) and anterior corticospinal (10% of fibres, desc down the spinal cord then cross )

Question 51

Describe the corticobulbar tract.

Answer 51

• Musculature of the head and neck
• Same input and origin as corticospinal
• Terminate on brainstem on motor nuclei of cranial nerves
• Lower motor neurons carry signals to the head and neck

Question 52

Where do the extrapyramidal tracts originate?

Answer 52

Brainstem

Question 53

What do the extrapyramidal tracts control?

Answer 53

Voluntary and involuntary control of all musculature such as muscle tone, balance, posture and locomotion

Question 54

Where do the extrapyramidal tracts synapse?

Answer 54

No synapses within the descending pathways. All synapse with the lower motor neurons. Cell bodies all in cerebral cortex or brainstem and axons remain in CNS

Question 55

What are the 4 extrapyramidal tract?

Answer 55

Tectospinal, rurbrospinal, vestibulospinal, reticulospinal

Question 56

Describe the tectospinal tract.

Answer 56

• Responsible for head turning in response to visual stimuli

- superior colliculus, head and eye movements

Question 57

Describe the rubrospinal tract.

Answer 57

• Assist in motor functions, not really used in humans other animals more so (why cats land on feet when thrown out a window)
• Less developed corticospinal
• Red nucleus (rubro, red)

Question 58

Describe the vestibulospinal tract.

Answer 58

• Musle tone and posture

- Vestibular nuclei, balance and posture

Question 59

Describe the reticulospinal tract.

Answer 59

• Spinal reflexes

- Reticular formation (midbrain), posture and locomotion

Question 60

What areas are supplied by the anterior cerebral artery?

Answer 60

• Most of the midline portions of the frontal lobes (medial surface and upper portions) and the superior medial parietal lobes
• 4/5ths of the corpus callosum
• Deep structures such as anterior limb of the internal capsule
• Anteromedial portion of the cerebrum

Question 61

What areas are supplied by the middle cerebral artery?

Answer 61

-Majority of the lateral surface of the hemisphere (except the superior inch of the frontal and parietal lobe (ACA) and the deep structures of the anterior hemisphere

Question 62

What areas are supplied by the posterior cerebral artery?

Answer 62

• Supplies the occipital lobe and the posterior temporal lobe
• Supplies the medial surfaces of the thalamus and walls of the IIIrd ventricle via the thalamoperforating branches
• Supplies the thalamus via the peduncular perforating branches
• Supplies the choroid plexus

Question 63

Which arteries supply the cerbellum?

Answer 63

Superior cerebellar, anterior inferior cerebellar and posterior inferior cerebellar

Question 64

What is the difference between upper and lower motor neuron?

Answer 64

Upper runs from motor cortex then synapses (glutamate)onto lower in the anterior horn of the grey matter in spinal cord or in the brain stem. Whereas a lower mn goes from the synapse to the muscle, where it synapses (ACh).

Question 65

Describe upper motor neurons.

Answer 65

• cell bodies in cerebral cortex
• Axons in CNS
• Controls movement, tone, spinal reflexes, autonomic functions, sensory info to higher centres

Question 66

Describe lower motor neurons.

Answer 66

a) Motor neurons of the cord and brain stem
- Those from brainstem carry motor signals to the muscles of the face and neck (Corticobulbar tracts)
- In spinal cord: Synapse with upper motor neurons at the ventral horn and then go on to supply the muscles of the bdoy
b) Motor neurons located in either:
- The anterior grey column
- Anterior nerve roots
- Cranial nerve nuclei of the brainstem and cranial nerves with motor function
c) Function
- Control of all voluntary movement (innervate the skeletal muscle fibres)
- Act as a link between upper motor neurons and muscles
- Directly innervate the muscles to produce movement

Question 67

Describe the pattern of weakness in an upper motor neuron lesion.

Answer 67

• Board weakness
• Increased muscle tone (specificity) as uncontrolled LMN activation (most UMN are inhibitory)
• High then low resistance to movement (clasp knife)
• Increased deep tendon reflexes
• Decreased superficial tendon reflexes
• Flexors weaker than extensors in legs
• Extensors stronger than fkexors in arms
• Babinski sign, big toe raised (usually curled) when bottom of foot is stimulated
• Minimal atrophy

Question 68

Describe the pattern of weakness in a lower motor neurone.

Answer 68

• Decreased tone
• Paralysis
• Weakening and wastage (atrophy)
• Absence of relevant reflexes (arreflexia)
• Muscle fasciculations

Question 69

What is the difference between weakness and fatigue?

Answer 69

Weakness is constant loss of strength, whereas fatigue is the gradual onset and build up a lack of strength

Question 70

What are the key parts of a neurological history for a patient with weakness?

Answer 70

a) Pattern of weakness
- Proximal or distal (prox=polyneuropathy, dis=myopathic)
- Location and symmetry of weakness (single limb= spinal nerve root compression,general= CNS damage or pathology attacking neurons, limb and face same side= above brainstem)
b) Associated symptoms
- twitching or atrophy
- vertigo, vision disturbance = wider spread
- myelopathy
c) Temporal characteristics
- Chronic or episodic
- Tempo of onset and progression
d) Family hist of hereditary neuropathies
e) Pain

Question 71

Describe the weakness in MND.

Answer 71

-Fluctuating strength

Question 72

Describe the weakness in myopathies.

Answer 72

• Proximal and symmetrical

- Usually minimal atrophy until later except myotonic dystrophy

Question 73

Name some causes of upper motor neuron weakness.

Answer 73

Stoke, lesion, tumour, SC compression, acute transverse myelitis, spinal cord infarct, spinal epidural or subdural haemorrhage, intervertebral disc herniation and MS

Question 74

Name some causes of LMN weakness.

Answer 74

Guillian-Barre, heavy metal poisioning, Bell’s Palsy, alcohol/drug induced, diabetic and plexopathies (brachial, lumbar)

Question 75

Name some neuromuscular causes of weakness.

Answer 75

Myasthenia gravis (autoimmune), tick paralysis, Lambert-Eaton myasthenic syndrome and organophosphate poisoning

Question 76

Name some muscular causes of weakness.

Answer 76

Inflammatory, alcohol/drug induced, muscular dystophy, endocrine related

Question 77

Is motor facial nerve innervation to forehead bilateral or unilateral?

Answer 77

Bilateral

Question 78

Is motor facial nerve innervation to lower face bilateral or unilateral?

Answer 78

Unilateral, contralateral

Question 79

Where would a lesion occur in the facial nerve to cause forehead sparing weakness?

Answer 79

Central (brain), eg stroke

Question 80

Where would a lesion occur in the facial nerve to cause whole facial weakness?

Answer 80

In the facial nerve (peripheral)