Motor II

Question 1

Origin and termination of Corticotectal tract

Answer 1

• Origin = occipital lobe (visual association cortex = areas 18 and 19)
• Termination:

–> oculomotor accessory nuclei = control reflex movements of eyes

–> superior colliculus = gives rise to tectospinal tract and associated with reflex movements

Question 2

origin and termination of Tectospinal tract

Answer 2

• Origin = superior colliculus
• Termination = C and T spinal cord levels

Question 3

what is the function of the Tectospinal tract

Answer 3

• associated with reflex movements of the eyes, neck (head) and upper thorax in response to auditory, vestibular, or cutaneous stimuli

Question 4

describe Corticorubral tract

Answer 4

• origin = sensorimotor cortex
• termination = red nucleus of midbrain

Question 5

describe Rubrospinal tract

Answer 5

• Origin = red nucleus
• Crosses in the MIDBRAIN and descends to the upper spinal cord

Question 6

Function of rubrospinal tract

Answer 6

• controls the movement of HAND and DIGITS by:
  1) facilitating motor neurons that innvervate distal flexor muscles of UL
  2) inhibitor motor neurons that innervate the distal extensor muscles of UL
• Supplements the function of (more important) corticospinal tract
• more important in primates for grasping branches

Question 7

what is the result of Rubrospinal tract lesion

Answer 7

• will result in UMN signs

Question 8

What stimualtes the reticulospinal system?

Answer 8

IPSILATERAL:

–> descending cortical projections (corticoreticular fibers)

–> input from the cerebellum and vestibular nuclei (influence muscle tone)

–> ascending somatosensory projections (spinoreticular fibers) relaying nociception

Question 9

Describe corticoreticular fibers

Answer 9

• Origin = sensorimotor cortex
• descend with corticonuclear and corticospinal tract fibers
• Termination = IPSILATERAL reticular formation (pons and medulla)

Question 10

describe MEDIAL (pontine) reticulospinal tract

Answer 10

• Origin = pontine nuclei
• descends IPSILATERAL down the anterior funiculus and synapse in gray matter with interneurons and gamma motor neurons
• Termiantion = at ALL spinal cord levels

Question 11

describe the function of the medial (pontine) reticulospinal tract

Answer 11

EXCITATORY INFLUENCE on motoneurons that innervate PARAVERTEBRAL and LIMB EXTENSORS

• Simultaneously inhibitory to the flexors

**LESION = UMN signs**

Question 12

describe Lateral (medullary) reticulospinal tract

Answer 12

• Origin = medullary nucleus
• Descends IPSILATERALLY down the anterior funiculus and synapses in gray matter with interneurons
• Terminates at ALL spinal cord levels

Question 13

function of lateral (medullary) reticulospinal tract

Answer 13

• INHIBITORY influence on motorneuron that innervate the paravertebral and limb extensors
• Simultaneously EXCITATORY to the flexors

**Opposite of medial reticulospinal tract**

** LESION = UMN signs**

Question 14

describe the role of both reticulospinal tracts

Answer 14

• Terminate on interneuons that synapse with alpha and gamma motor neurons that INNERVATE ANTIGRAVITY MUSCLES (paravertebral and proximal limb muscles - NOT fingers)
• modulate muscle tone and posutre maintenance via commands that arise from basal ganglia and verebellum

Question 15

Describe medial vestibulospinal tract

Answer 15

• Origin = medial and inferior vestibular nuclei
• termination - BILATERALLY at cervical and upper thoracic spinal cord levels

Question 16

function of medial vestibulospinal tract

Answer 16

• innervate neck muscles
• maintain equilibrium (balance) in response to vestibular input
• control head movement to keep an image on the retina

Question 17

Describe lateral vestibular nucleus

Answer 17

• Origin = Lateral vestibular nucleus (receives inputs from vestibular apparatus)
• termination = IPSILATERALLY at ALL spinal cord levels (interneurons mostly and some alpha motor)

Question 18

Function of lateral vestibular nucleus

Answer 18

• EXCITATORY to antigravity muscles (trunk paravertebral and proximal limb extensor muscles
• simultaenously inhibit LMS’s that innervate limb flexor muscles
• Function = maintenance of posture and balance

Question 19

what tracts belong to ventromedial (anteromedial) group

Answer 19

• Anterior corticospinal tract
• medial and lateral vestibulospinal tracts
• medial and lateral reticulospinal tracts
• tectospinal tract

** Muscles of AXIAL (trunk), PROXIMAL LIMB (girdle) inorder to MAINTAIN BALANCE as postural adjustments are made

Question 20

Lateral group tracts

Answer 20

• lateral corticospinal tract
• rubrospinal tract (not very important in humans)

** Tracts influence mostly DISTAL MUSCLES OF LIMBS (muscles that control digits)**

Question 21

Cortical Group tracts

Answer 21

• consists ONLY of axons of the LATERAL CORTICOSPINAL TRACT which termiante on LOWER MOTOR NEURONS (but not interneurons) that innervate DISTAL MUSCLES OF LIMBS, especially muscles of hand

–> axons mediate distinct, fractionated movements of the digits (PLAYING PIANO)

Question 22

describe the order of muscle innervation from medial to lateral

Answer 22

• TSAFH

–> trunk

–> shoulder

–> arm

–> forearm

–> hand

Question 23

describe Brown-sequard syndrome

Answer 23

• Results following HEMISECTION of SPINAL CORD

–> LOSS of discriminative sense AT or BELOW level of lesion IPSILATERALLY (FG/FC ascend ipsilaterally)

–> LOSS of reflex activity invovling level of lesion IPSILATERALLY

–> UMN signs BELOW lesion IPSILATERALLY

–> LMN lesion signs AT level of lesion, IPSILATERALLY

–> Loss of PAIN and TEMP 2 segments BELOW lesion CONTRALATERALLY

Question 24

describe polyomyelitis

Answer 24

• Viral infection of spinal cord

–> Affects LMN causing LMN signs

Question 25

describe Combine systems disease (subacute combined degeneration, Posterolateral sclerosis)

Answer 25

• Deficiency in VITAMIN B12 intake or metabolism
• DORSAL FUNICULUS (FG,FC) DEGENERATION = Loss of discriminitive touch, 2 point discrimination, vibratory sense, proprioception
• LATERAL FUNICULUS Degeneration (motor fibers of corticospinal tract) = UMN signs = babinski sign, hyperreflexia, muscle weakness, spasticity

Question 26

Anterior spinal artery

Answer 26

• supplies anterior 2/3 of spinal cord = anterior and lateral funiculi and most of gray matter

Question 27

posterior spinal artery (2)

Answer 27

• 2 posterior spinal arteries supply posterior 1/3 of spinal cord = dorsal funiculi and posterior part of dorsal horn

Question 28

Radicular and medullary arteries

Answer 28

• spinal branches of segmental arteries branch into:

–> radicular arteries = spinal nerve roots

–> medullary arteries = spinal cord

Question 29

what level of spinal cord is most susceptible to damage from interruption of blood flow

Answer 29

• CERVICAL LEVELS

–> cervical region is supplied ONLY by anterior and posterior spinal arteries without contribution of the RADICULAR ARTERIES ANASTOMOSES

Question 30

Anterior spinal artery syndrome

Answer 30

• OCCLUSION by thrombus or compression causes:

–> damage to anterolateral system/pathway = loss of pain and temp

–> damage to anterior horn cells = LMN weakness

–> large lesion affected lateral corticospinal tracts = UMN signs

–> damage descending pathways = control sphincter function and causing incontinence

Question 31

Posterior spinal artery syndrome

Answer 31

• Occlusion or compression of one or both posterior spinal arteries

–> Lesion of posterior white columns = LOSS of proprioception (position sense from muscles and joints), loss of vibratory sense and loss of tactile (fine touch) discrimination)