NEUR 0010 - Chapter 13

Question 1

What are axial muscles? Proximal? Distal?

Answer 1

Axial move trunk; proximal move shoulder/elbow/pelvis/knee; distal move hands/feet/digits

Question 2

What are lower motor neurons?

Answer 2

Somatic motor neurons in the ventral horn of the spinal cord; command muscle contraction; final common pathway for behavior contorl

Question 3

What are mixed spinal nerves?

Answer 3

All the lower motor spinal neurons: contain both sensory and motor fibers

Question 4

How do lower motor neurons leave the spinal cord?

Answer 4

Bundle together as a ventral root, which joins the dorsal root to form a spinal nerve: exits through the notches between vertebrae

Question 5

What are spinal segments?

Answer 5

Consist of the motor neurons that provide fibers to a spinal nerve, named for the vertebra where the nerve originates

Question 6

How does the ventral horn differ along the spinal cord?

Answer 6

Larger near top/bottom, smaller near middle: in accordance with the extent of representation/need for fine motor control

Question 7

Motor neurons that innervate distal and proximal musculature are found in what segments?

Answer 7

Cervical and lumbar-sacral

Question 8

Motor neurons that innervate axial musculature are found in what segment?

Answer 8

Mostly all

Question 9

What is the medial/lateral/ventral/dorsal layout of axial vs distal and flexor vs extensor musculature?

Answer 9

Axial is medial to distal; flexor is dorsal to extensor

Question 10

What are alpha motor neurons?

Answer 10

Directly trigger generation of force by muscles

Question 11

What is a motor unit?

Answer 11

Elementary component of motor control; made of one alpha motor neuron and all the fibers it innervates

Question 12

What is a motor neuron pool?

Answer 12

The collection of alpha motor neurons that innervates a single muscle

Question 13

What are the two mechanisms for graded control of muscle contraction?

Answer 13

Extent of firing rate, extent of motor unit recruitment

Question 14

In what size order are motor units recruited?

Answer 14

From smallest to largest

Question 15

What is the size principle of motor unit innervation?

Answer 15

Large motor units have large alpha motor units, and small motor units have small motor neurons

Question 16

What are the only three major sources of input to an alpha motor neuron?

Answer 16

Dorsal root ganglion cells with axons that innervate the muscle spindle; upper motor neurons in the motor cortex/brainstem; interneurons in the spinal cord

Question 17

How do dorsal root ganglion cells affect alpha motor neuron innervation?

Answer 17

Innervated the muscle spindle: provides feedback about muscle length

Question 18

How do upper motor neurons in the motor cortex/brainstem affect alpha motor neuron innervation?

Answer 18

Initiate and control voluntary movement

Question 19

How do interneurons affect alpha motor neuron innervation?

Answer 19

Excitatory/inhibitory input, part of circuitry for spinal motor programs

Question 20

What is red (dark) muscle?

Answer 20

Oxidative metabolism: lots of mitochondria and enzymes; slow contract, sustained

Question 21

Describe the contraction/sustain of red muscle.

Answer 21

Slow contracting speed, easily sustained (endurance)

Question 22

What is pale (white) muscle?

Answer 22

Anaerobic metabolism: few mitochondria or enzymes; fast contract, fatigue quickly

Question 23

Describe the contraction/sustain of white muscle.

Answer 23

Fast contracting speed, fatigue easily (sprinting)

Question 24

Which type of muscle is endurance vs sprinting?

Answer 24

Red is endurance, white is sprinting

Question 25

What kind of muscle fiber is in a single motor unit?

Answer 25

Only one type: if a fast motor unit, then fast white fibers; if a slow motor unit, then slow red fibers

Question 26

How does alpha motor unit structure differ based on red/slow motor unit or white/fast motor unit?

Answer 26

Red/slow motor units usually are innervated by small/slow alpha motor neurons; white/fast motor units are usually innervated by large/fast alpha motor neurons

Question 27

How does firing frequency vary between red/white motor units?

Answer 27

Fast motor neurons (white) have occasional high-frequency bursts; slow motor neurons (red) have steady, low-frequency activity

Question 28

How does a muscle change phenotype?

Answer 28

If you change the type of nerve that innervates it (from fast to slow, for example), the muscle will change to match (from white to red, for examples)

Question 29

What is the sarcolemma?

Answer 29

The excitable cell membrane that surrounds the muscle fibers

Question 30

What is a muscle fiber?

Answer 30

Fusion of myoblasts (muscle precursor cells), so are multinucleated and elongated

Question 31

What are myofibrils?

Answer 31

Cylinders in the muscle fiber that contract in response to an action potential sweeping down the sarcolemma

Question 32

What is the SR?

Answer 32

Stores Ca2+ around the myofibrils

Question 33

What are T-tubules?

Answer 33

Like inside-out axons: lumen is continuous with ECF

Question 34

What is a tetrad?

Answer 34

Voltage-sensitive cluster of four Ca2+ channels where the T-tubule meets the SR, in the T-tubule; couples to the calcium release channel in the SR

Question 35

What causes a myofibril to contract?

Answer 35

Increase in free Ca2+ in the cytosol

Question 36

What does the Z line do?

Answer 36

Divides myofibrils into segments

Question 37

What is a sarcomere?

Answer 37

The segment of a myofibril contained between Z lines

Question 38

What are myosin and actin?

Answer 38

Actin is the thin filament, myosin is the thick filament

Question 39

What is different about actin binding sites in the resting phase from the active phase?

Answer 39

Binding sites for myosin are blocked by troponin

Question 40

How does Ca2+ interact with troponin?

Answer 40

Binds to troponin, exposing the binding sites for myosin on the actin filament

Question 41

Explain the excitation process of muscle fibers.

Answer 41

AP in alpha motor neuron, releases ACh at neuromuscular junction, which acts on nicotinic receptors to depolarize the sarcolemma (EPSP); voltage-gated Na+ channels open and trigger an AP in the muscle fiber sarcolemma and T-Tubules; depolarized T-tubules release Ca2+ from the SR

Question 42

Explain the contraction process of muscle fibers.

Answer 42

When Ca2+ released from the SR, binds to troponin on the actin filament; myosin head binds to actin and pivot, dragging the actin fiber along; disengage with ATP; cycle continues with ATP and Ca2+

Question 43

Explain the relaxation process of muscle fibers.

Answer 43

EPSP ends, and sarcolemma and T-Tubules repolarize; Ca2+ sequestered by SR; myosin binding sites on the actin filament are blocked again

Question 44

What is a muscle spindle?

Answer 44

Stretch receptor, deep within skeletal muscles

Question 45

What kind of muscle fiber is at the heart of a muscle spindle?

Answer 45

IA sensory axons

Question 46

What is the myotatic reflex?

Answer 46

Stretch reflex: involves sensory feedback from the muscle

Question 47

What is the relation between discharge rate and extent of stretching for muscle spindles’ IA fibers?

Answer 47

More stretch, more firing

Question 48

What occurs in the muscle spindle that causes the myotatic reflex?

Answer 48

Muscle spindles are stretched, causing depolarization of IA sensory axons, which causes an AP and depolarization of the alpha motor neuron, which increases firing frequency to cause the muscle to contract and shorten

Question 49

What are intrafusal vs extrafusal fibers?

Answer 49

Fibers within the muscle spindle that receive gamma motor neuron input (intrafusal) vs alpha motor neuron input (extrafusal)

Question 50

Which type of fiber, intra or extrafusal, receives innervation from alpha vs gamma?

Answer 50

Intra is gamma, extra is alpha

Question 51

What do the gamma motor neurons do for the muscle spindle?

Answer 51

Connect to the poles and contract when activated, causing them to pull on the noncontractile equatorial region, to keep the IA axons active and communicating with the alpha motor neurons for proprioception

Question 52

How do alpha and gamma output affect IA axon activity?

Answer 52

Alpha inhibits, Gamma stimulates

Question 53

What is the Golgi tendon organ?

Answer 53

Sensor in skeletal muscle: strain gauge; located at junction of muscle and tendon

Question 54

What kind of axon innervates the Golgi tendon organ?

Answer 54

IB sensory axons

Question 55

Which is in series vs parallel, Golgi tendon organ vs spindle fibers?

Answer 55

Golgi is in series, spindle in parallel

Question 56

How does muscle tension relate to muscle contraction and inhibition of the alpha motor neuron?

Answer 56

Lots of muscle tension is a lot of alpha neuron inhibition and this less muscle contraction; less muscle tension leads to looser inhibition of the alpha neuron and muscle contraction is allowed

Question 57

Where does most input to alpha motor neurons come from?

Answer 57

Interneurons of the spinal cord

Question 58

What is reciprocal inhibition?

Answer 58

The contraction of one set of muscles accompanied by the relaxation of the antagonist muscles

Question 59

How and why do descending pathways use reciprocal inhibition to REDUCE the myotatic reflex?

Answer 59

If you’re voluntarily flexing your arm, the strain on your tricep would trigger the myotatic reflex and cause to contract, but that impedes your flexion; so descending pathways block the myotatic reflex

Question 60

What is the flexor reflex?

Answer 60

Used to withdraw a limb from an averse stimulus: excites flexor muscles of injured limb and inhibits alpha motor neurons that control the extensors; also recruits the cross-extensor reflex

Question 61

What is the crossed-extensor reflex?

Answer 61

Part of the flexor reflex when a limb experiences an averse stimulus: activates extensors and inhibits flexors on the opposite side, to allow support when you move the limb away from the averse stimulus