Lecture 7 & 8 - Motor Systems

Question 1

What are simple pattern reflexes?

Answer 1

• stereotyped/predictable, unlearned, automated, spinal reflexes that do NOT require cortical input.

Question 2

what are complex postural adjustments? (what systems do they involve?)

Answer 2

• reflexes involving the spinal cord, as well as supraspinal centres (brainstem (extrapyramidal system), cerebellum)
• they are NOT stereotyped, flexible and goal-orientated (adaptive)
• they MOSTLY coordinate with voluntary movements
• hence require cortical input

Question 3

what components do voluntary movements involve?

Answer 3

• spinal cord, brainstem, motor cortex

Question 4

what are upper motor neurons? (name examples)

Answer 4

UMN - 1st order motor neurons whose cell bodies and axons both stay within the CNS

(e.g., cortical motor neurons - pyramidal tract, brainstem motor nuclei - red nucleus, tectum, reticular formation, vestibular nuclei)

Question 5

what are lower motor neurons?

Answer 5

LMN - 2nd order motor neurons who’s cell bodies lie in the CNS but axons project to peripheral skeletal muscles.

(e.g., alpha and gamma motor neurons of spinal ventral gray horn, motor neurons of brainstem cranial nerves)

Question 6

alpha motor neurons receive input from which 3 major sources?

Answer 6

• motor cortex and brainstem (pyramidal, extrapyramidal)
• spinal interneurons (spinal circuit)
• muscle sensory (proprioceptive systems)

Question 7

What are the two motor neuron pools in the ventral gray horns and their functions??

Answer 7

• ventral, medial (proximal limbs - old system)

- dorsal, lateral (distal limbs - young system)

Question 8

the MEDIAL descending motor systems (most extrapyramidal tracts) descend via the ____ and terminate in the ____ to coordinate _____.

Answer 8

• ventral funiculus
• medial ventral motor neuron pool
• posture, orientation

Question 9

the LATERAL descending motor systems descend via the _____and terminate in the _____to coordinate

Answer 9

• lateral funiculus
• dorsal lateral motor neuron pool
• movement of limbs (esp. fine movement of distal limbs)

Question 10

what are the two pathways which make up the PYRAMIDAL SYSTEM? where do they originate and what type of movement do they initiate?

Answer 10

• corticospinal tract
• corticonuclear/bulbar tract
• cortex
• voluntary movement

Question 11

what are the extrapyramidal pathways? where do they originate and what type of movement do they initiate?

Answer 11

• tectospinal (tectum)
• vestibulospinal (vestibular nuclei)
• reticulospinal (reticular formation)
• rubrospinal (red nuclei)
• brainstem
• involuntary movement

Question 12

• the three sulci that develop earliest in the embryo are?

- why are they deep?

Answer 12

• central sulcus
• lateral/Sylvian sulcus
• calcarine sulcus
• to allow more surface area to accommodate more neurons of primary cortices

Question 13

all sensory input first arrives in the _____cortices of each sensory areas.

Answer 13

• primary

Question 14

the primary and secondary cortices of all sensory modalities are ______ hence deal with only the given sensory modality.

Answer 14

• unimodal

Question 15

tertiary or higher association cortices are _____ hence integrate all sensory modalities

Answer 15

• multimodal/heteromodal

Question 16

sensory input is decoded/interpreted in the _____cortices

Answer 16

• secondary

Question 17

unlike sensory systems, motor commands are initiated in the ______ cortex, transferred to the _____ and leaves the brain from the _____.

Answer 17

• higher order/tertiary motor cortex (PFC)
• secondary motor cortices (SMA, PMC)
• primary motor cortex (M1)

Question 18

there is no clear anatomical boundary between the ____ and _____ .

Answer 18

• PFC and secondary motor areas.

Question 19

the frontal eye field is located

Answer 19

rostral/anterior to the PREMOTOR area

Question 20

the PFC deals with _____
the secondary motor areas deal with _____
- the primary motor area deals with ___

Answer 20

• strategy (overall plan)
• tactics
• execution

Question 21

• The LATERAL (dorsal) PFC processes
• the MEDIAL PFC processes
• the ORBITAL (ventral) PFC processes

Answer 21

• planning, problem-solving, rational thinking
• awareness, social self-awareness
• emotional behaviour (anticipates behavioural response when planning action)

Question 22

which motor area works closely with the BASAL GANGLIA and has input into the pyramidal pathway?

Answer 22

SMA

Question 23

What is the SMA concerned with? (x5)

Answer 23

• learning sequence of movements
• mental rehearsal of movement
• storing skilled movement
• generating internal cues for movement
• bilateral coordination (esp. upper limbs)

Question 24

which motor area works closely with the CEREBELLUM and DORSAL PARIETAL CORTEX, and inputs to the pyramidal pathway?

Answer 24

PMC

Question 25

what is the PMC concerned with? (x3)

Answer 25

• movement by externally generated cues
• anticipating voluntary movement (coordinated ongoing movement)
• SENSORIMOTOR TRANSFORMATION (integrates sensory information to motor commands)

Question 26

what causes APRAXIA and what are the symptoms?

Answer 26

• lesion of the PMC and SMA
• unable to execute a pre learned voluntary movement
• unable to imitate a movement

Question 27

Where are the Giant Cells of Betz located specifically?

Answer 27

in LAYER V of the PRIMARY MOTOR CORTEX (M1), where most pyramidal tracts originate

Question 28

The CORTICOBULBAR tract forms the _____ for the voluntary movement of the ______, terminating on _____ which are the ______.

Answer 28

• UMN’s
• face, head and neck
• brainstem cranial nerve nuclei
• LMN’s

Question 29

most fibres of the CORTICOBULBAR tract travel via the ____ of the IC

Answer 29

• genu

Question 30

The pyramidal tract consists of ___% input from secondary motor areas, ___% input from M1 and ___% input from primary somatosensory

Answer 30

• 40
• 40
• 20

Question 31

in humans, the CORTICOSPINAL tract contains about ___axons.

Answer 31

1 million

Question 32

damage to the pyramidal tract can cause (x3)

Answer 32

• muscle weakness (M1)
• Apraxia (SMA, PMC)
• disturbance of motor actions (Primary sensory cortex)

Question 33

the pyramidal tract descends firstly through the ____limb of the IC, the ____of the Crus cerebri, and through the ____.

Answer 33

• posterior (Genu for corticonuclear)
• intermediate (inner third) portion
• medullary pyramids

Question 34

the corticospinal tract is divided into ____

Answer 34

lateral and anterior corticospinal tracts

Question 35

the lateral corticospinal tract constitutes ___%

Answer 35

90

Question 36

the lateral corticospinal tract decussates at the ____ and terminates in ___ at ____levels, whilst the anterior corticospinal tract decussates at the ____ and terminates in ____.

Answer 36

• pyramids (pyramidal decussations)
• the ventral horn (lateral motor neuron pool)
• cervical and lumbosacral
• level of the spinal cord
• ventral horn (medial motor neuron pool)

Question 37

which two extrapyramidal tracts receive input from pyramidal tracts?

Answer 37

• rubrospinal

- reticulospinal

Question 38

the TEGMENTUM contains (x3)

Answer 38

• ALL ascending pathways
• SOME descending pathways (extrapyramidal)
• ALL brainstem nuclei (except pontine nuclei)

Question 39

the BASE contains (x2)

Answer 39

• ONLY descending pathways (pyramidal tracts, corticopontine tract)
• pontine nuclei

Question 40

the crus cerebri + midbrain tegmentum =

Answer 40

cerebral peduncles

Question 41

the midbrain contains ___(x3) and is thus predominantly a ____.

Answer 41

• red nuclei, superior colliculi, substantia nigra

- motor centre

Question 42

Parkinson’s disease is caused by

Answer 42

loss of dopaminergic neurons in the Substantia Nigra Pars Compacta (SNc)

Question 43

the PONS can be divided into _____(x2)

Answer 43

• basilar pons, pontine tegmentum

Question 44

the pontine tegmentum contains _____

Answer 44

locus coeruleus

Question 45

the basilar pons contains (x3)

Answer 45

pontine nuclei, pontocerebellar tracts, corticopontine pathways, pyramidal tracts

Question 46

pontine nuclei synapse with ___ and project to the cerebellum through the ____ as the _____.

Answer 46

• corticopontine fibres (from the cortex)
• middle cerebellar peduncles
• pontocerebellar tracts

Question 47

pyramidal decussations occur at the ___level of the____.

Answer 47

• caudal

- medullary pyramids

Question 48

the medulla contains centres for (x3)

Answer 48

• respiratory (rhythmic breathing)
• cardiovascular (blood pressure, heart rate)
• chewing and swallowing

Question 49

Proprioceptive information to Alpha motor neuron pools come from?

Answer 49

the musculoskeletal system

Question 50

what are the three major proprioceptors?

Answer 50

• muscle spindles (muscle stretch)
• Golgi tendon organ (muscle contraction)
• joint receptors (joint position)

Question 51

a spinal stretch reflex is ____ (knee-jerk)

a spinal withdrawal reflex is _____ (withdrawing leg from sharp object)

Answer 51

• monosynaptic

- polysynaptic

Question 52

what are the two extrapyramidal tracts involved with postural reflexes?

Answer 52

• vestibulospinal

- reticulospinal

Question 53

where are cell bodies of the RETICULOSPINAL tract located?

Answer 53

• rostral medullary reticular formation

- caudal pontine reticular formation

Question 54

the fibres of the RETICULOSPINAL TRACTS descend ____ and _____ via the _____to _____of the spinal cord.

Answer 54

• ipsilaterally
• bilaterally
• ventral funiculus
• all levels

Question 55

the RETICULOSPINAL tracts is MOSTLY an _____biased tract, that is important for (x3)

Answer 55

• extensor
• gross movement (extending limbs)
• locomotion
• postural and gait adjustments (balance) during movement

Question 56

the reticulospinal tracts is a _____myelinated tract, hence is _____. Therefore, before lifting a heavy object, the muscles of the leg are excited ___ the muscles of the arms.

Answer 56

• highly
• fast-acting
• legs
• arms

Question 57

The vestibular nuclei consist of (x2) and are located on___.

Answer 57

• medial (head stabilisation during movement)
• lateral (muscle tone for balance)
• rostral medulla

Question 58

The medial vestibulospinal tract travels via the _____and only terminate in ______ spinal cords

Answer 58

• ventral funiculus

- cervical

Question 59

The nuclei of the TECTOSPINAL CORD are found in the ____of the ____.

Answer 59

• superior coliculi

- midbrain

Question 60

The tectospinal tract controls _____ in response to _____.

Answer 60

• reflex movements of the head, neck and upper limbs

- all relevant sensory stimuli

Question 61

The tectospinal tract descends ____, where the larger portion descends _____, decussating at ____to ______, and the smaller portion descends _____ to ______. Both tracts terminate in ____ spinal cords.

Answer 61

• bilaterally
• contralaterally
• the midbrain
• innervate neck and shoulder muscles
• ipsilaterally
• inhibit muscles on the opposite side.
• cervical

Question 62

The RUBROSPINAL tract originates in the ____ and descends ____, decussating at _____.

Answer 62

• red nucleus
• contralterally
• the midbrain

Question 63

The RUBROSPINAL TRACT descends via the ____ with the ____, terminating in _____ levels of the spinal cord.

Answer 63

• lateral funiculus
• lateral corticospinal tract
• cervical

Question 64

The RUBROSPINAL TRACT innervates all _____ of the upper limbs for _____ and is a ___biased tract.

Answer 64

• flexor muscles
• grabbing behaviour
• flexor

Question 65

The rubrospinal tract receives input from _____.

Answer 65

• motor cortex (pyramidal pathways)

Question 66

What happens to the rubrospinal tract, if a pyramidal tract lesion occurs?

Answer 66

• the flexor tone will be disinhibited, which means the upper limbs will be constantly flexed (newborns and stroke patients)

Question 67

what is decorticate rigidity?

Answer 67

lesion of the UMN above the midbrain level, resulting in removal of cortical input to RUBROSPINAL and RETICULOSPINAL tracts, leading to constant flexion of the upper limbs and extension of lower limbs.

Question 68

what is decerebrate rigidity?

Answer 68

• lesion of UMN below the midbrain
• removal of rubrospinal tract
• removal of cortical input to reticulospinal tract
• leads to constant extension of upper and lower limbs

Question 69

what pathways descend via the LATERAL FUNICULUS?

Answer 69

• lateral corticospinal tract
• rubrospinal tract
  (mostly unilateral)

Question 70

what pathways descend via the VENTRAL FUNICULUS

Answer 70

• vestibulospinal
• reticulospinal
• tectospinal
• anterior corticospinal tract
  (mostly bilateral)

Question 71

where do all descending pathways decussate?

Answer 71

• vestibulospinal = ipsilateral
• reticulospinal = ipsilateral
• tectospinal = midbrain
• lateral corticospinal = pyramid
• anterior corticospinal = spinal cord
• rubrospinal = midbrain