Chapter 13- The peripheral nervous system

Question 1

PNS general function

Answer 1

The PNS links the brain to the outside world as well as the body’s internal environment- includes all nerves that leave/enter the spinal cord. Without the PNS, the brain would have no real function.

Question 2

How do sensory deprivation tanks work?

Answer 2

Sensory deprivation tank gets rid of all sensory input- the brain will start making stuff up to have something to do- causes massive hallucinations. If you’re nervous beforehand, the hallucinations can be bad/scary.

Question 3

What are the general structures of peripheral nervous tissue? (3)

Answer 3

1. Sensory receptors
2. Afferent fibers
3. Efferent fibers

Question 4

Function of sensory receptors

Answer 4

respond to changes in the environment (stimuli)

Question 5

How are sensory receptors classified? (3)

Answer 5

1. Stimulus type- what change in the environment activates the receptor
2. Location- either location in the body, or where the location of the source of the stimulus (inside or outside the body)
3. Receptor structure- non encapsulated vs encapsulated

Question 6

Receptor classifications by stimulus type (5)

Answer 6

1. Mechanoreceptors
2. Thermoreceptors
3. Photoreceptors
4. Chemoreceptors
5. Nociceptors

Question 7

Mechanoreceptors

Answer 7

Receptors that respond to mechanical force.

Ex- touch, vibration, stretch

Question 8

Thermoreceptors

Answer 8

Receptors that respond to temperature changes

Question 9

Photoreceptors

Answer 9

Receptors that respond to light

Question 10

Chemoreceptors

Answer 10

Respond to chemicals in solution (will only respond if they’re in solution). Ex- smell, taste, changes in blood composition

Question 11

Nociceptors

Answer 11

Respond to damaging stimuli- activation of this receptor usually results in painful sensation. Ex- extreme temperatures, excessive pressure/stretch

Question 12

Receptor classifications by location (3)

Answer 12

1. Exteroceptor
2. Interoceptor
3. Proprioceptors

Question 13

Exteroreceptor

Answer 13

Mostly found at or near the body surface. Receptor is sensitive to stimuli that arise outside the body. Ex- vision, hearing, smell, taste, touch, pressure, pain, etc.

Question 14

Interoceptor

Answer 14

Receptors that are found deeper in the body-responds to stimuli that arise deep in the body. Ex- chemical change, tissue stretch, internal temperature

Question 15

Proprioceptors

Answer 15

Found in skeletal muscle, tendon, joints, ligaments. Receptor responds to changes in body movement/position. These receptors are technically interoceptors but are much more limited in their location.

Question 16

Nerve endings

Answer 16

Dendritic endings of sensory neurons that compose the simple receptors of the general senses. Nerve endings can be non encapsulated or encapsulated.

Question 17

Encapsulated nerve endings

Answer 17

Tissue covering wrapped around the nerve endings.

Question 18

Non encapsulated (free) nerve endings

Answer 18

Exposed nerve endings- no tissue covering. They are essentially the peripheral end of a sensory axon.

Question 19

Where are free (non encapsulated) nerve endings typically found?

Answer 19

Mostly abundant in epithelia and connective tissue

Question 20

Non encapsulated nerve endings function

Answer 20

Respond mostly to pain (nociceptors) and temperature (thermoreceptors). Heat or cold outside the “range” of a thermoreceptor activates nociceptors. Extreme pressure (ex- pinching the arm) and chemicals are released from damaged tissue to activate nociceptors .

Question 21

Which sensations are allowed by free nerve endings? (5)

Answer 21

1. Temperature
2. Pain
3. Itch
4. Light pressure
5. Light touch

Question 22

What causes the itch sensation?

Answer 22

Detected by a chemoreceptor. Histamine release activates free nerve endings

Question 23

What causes the light pressure sensation?

Answer 23

Detected by a mechanoreceptor. Merkel cells in the integument are responsible for light touch, pressure, and vibration

Question 24

What causes the light pressure sensation specifically for hair?

Answer 24

Detected by a mechanoreceptor. Free nerve endings wrap around the hair follicle and respond to change in position

Question 25

What type of receptor are encapsulated nerve endings associated with?

Answer 25

Mechanoreceptors

Question 26

What types of mechanoreceptors are composed of encapsulated nerve endings (6)?

Answer 26

1. Tactile corpuscles
2. Lamellar corpuscles
3. Bulbous corpuscles
4. Muscle spindles
5. Tendon organs
6. Joint kinesthetic receptors

Question 27

Tactile corpuscles

Answer 27

Found in dermal papillae of hairless skin. Function- important for light touch sensation- are equivalent in function to hair follicle receptors in skin with hair

Question 28

Lamellar corpuscles

Answer 28

Located deep in the dermis. Function- stimulated by initiation of deep pressure. If you continue to apply deep pressure, the receptors stop responding and bulbous corpuscles take over.

Question 29

Bulbous corpuscles

Answer 29

Located in dermis, subcutaneous tissue, joint capsules. Function- respond to deep, continuous pressure

Question 30

Muscle spindles location

Answer 30

Proprioceptors that are found in tissue wrapped around skeletal muscle

Question 31

Muscle spindles function

Answer 31

Detect muscle stretch, initiates reflex to resist excessive stretching forces. This is protective, because excessive stretching can tear the muscle. Function is not necessarily voluntary.

Question 32

Tendon organs

Answer 32

Proprioceptors of tendons. Function- activation of tendon organs by stretching of tendon initiates reflex that releases skeletal muscle- stops the tendon from contracting, forces it to relax. This is protective against muscle injury. Not necessarily voluntary

Question 33

Joint kinesthetic receptor

Answer 33

Proprioceptor monitoring stretch in joints. Function- provide information about joint position and motion. This is protective against joint damage from excessive movement.

Question 34

Sensation

Answer 34

Awareness of a change in external/internal environment

Question 35

Perception

Answer 35

How we interpret stimuli

Question 36

Somatosensory system

Answer 36

Sensory system that specifically serves body wall and limbs. Receives input from exteroreceptors, proprioceptors, and interoceptors, and allows perception of a change in the environment.

Question 37

Levels of integration that allow perception to occur (3)

Answer 37

1. Receptor level
2. Circuit level
3. Perceptual level

Question 38

What two things must occur for sensation to occur with processing at the receptor level?

Answer 38

a stimulus must activate a receptor and the action potentials must reach the CNS.

Question 39

What must happen for a stimulus to activate a receptor (4)

Answer 39

1. Stimulus energy must match receptor specificity
2. Stimulus must be applied within the receptor’s receptive field
3. Transduction must occur
4. Graded potentials must reach a threshold for action potential generation and propagation.

Question 40

Transduction

Answer 40

conversion of stimulus energy to graded potential

Question 41

Receptor specificity

Answer 41

Certain receptors can be more specific about their stimulus- this is especially true for special senses receptors. For example, the cells in your eye will only ever respond to light and that’s it.

Question 42

A smaller receptive field=

Answer 42

greater ability to localize stimulus site

Question 43

What occurs during processing at the circuit level?

Answer 43

Impulses are delivered to the appropriate region of the cerebral cortex for localization and perception. Must go to the correct region so the brain can process what is occurring.

Question 44

What occurs during processing at the perceptual level?

Answer 44

sensory input is interpreted at the cerebral cortex

Question 45

During processing at the perceptual level, what does identifying sensation depend on?

Answer 45

Identifying and appreciating sensation does not depend on the message. It depends on the target neurons of the cerebral cortex. As a result, the brain will always interpret activity of a specific type of sensory receptor as a specific sensation no matter how it is activated.

Question 46

Why is pain important?

Answer 46

Pain warns us of impending damage or prevents us from further damaging ourselves
If you experience pain, you’re either about to seriously damage yourself or already are damaging yourself.

Question 47

How is pain measured?

Answer 47

Pain is not measured, it is subjective- what is painful to one person may not be for another

Question 48

What triggers pain? (8)

Answer 48

1. Excessive temperature (cold or heat)
2. Excessive pressures (pinching, etc.)
3. Inflammatory chemicals from injured tissue (released from cuts, etc)
4. Histamine (must be released in very large amounts to be perceived as pain)
5. potassium, ATP, acids
6. Bradykinin

Question 49

Bradykinin

Answer 49

An inflammatory mediator- causes blood vessels to dilate. Will be perceived as pain in large amounts

Question 50

Types of pain (2)

Answer 50

1. Sharp pain

2. Burning pain

Question 51

Sharp pain

Answer 51

Usually occurs at onset of injury, impulses are carried by small, myelinated fibers

Question 52

Burning pain

Answer 52

Occurs after sharp pain. Can also be felt as a throbbing pain. Impulses are carried by small, nonmyelinated fibers

Question 53

What 2 chemicals suppress pain perception?

Answer 53

Endorphins and enkephalins suppress feeling of pain

Question 54

When does pain suppression typically occur?

Answer 54

This occurs most often during times of stress- coping/escape mechanism

Question 55

Visceral pain

Answer 55

noxious stimulation of receptors of the thorax and abdominal cavity

Question 56

Causes of visceral pain

Answer 56

1. Extreme stretching of tissue (too much food in the stomach, etc.)
2. Ischemia (loss of oxygen/circulation results in tissue death)
3. Muscle spasms/cramps (deep organs, not skeletal muscle)
4. Irritating chemicals (acidic foods that irritate the lining of the stomach).

Question 57

Referred pain

Answer 57

Pain stimuli arising from one part of the body are perceived as coming from another part

Question 58

Why does referred pain occur?

Answer 58

Visceral pain afferents travel along similar route as some somatic pain fibers
The brain is “confused” by the signal- cannot determine exact location of source so it guesses. Example- heart attack victims feel pain in their left arm. Fibers from the arm and heart run along the same route.

Question 59

Nerve

Answer 59

Cordlike organ that is part of the peripheral nervous system consisting of parallel bundles of peripheral axons enclosed by connective tissue wrappings

Question 60

How are nerves classified (2)?

Answer 60

1. Type of information the nerve carries: sensory or motor

2. Direction in which the information is carried

Question 61

Afferent nerves

Answer 61

carry information toward the CNS (sensory in nature)

Question 62

Efferent nerves

Answer 62

carry information away from the CNS (motor)

Question 63

Mixed nerves

Answer 63

Carry information to and from the CNS. Includes most of the nerves in the body, have both sensory and motor function.

Question 64

Components of the structure of a nerve

Answer 64

Nerves consist of parallel bundles of axons enclosed by connective tissue wrappings with blood vessels (an artery and a vein) and lymphatic vessels

Question 65

Endoneurium

Answer 65

Connective tissue that wraps around individual axons and schwann cells (if present). The axons may or may not be myelinated

Question 66

Perineurium

Answer 66

Connective tissue that bundles groups of axons together

Question 67

Fascicles

Answer 67

Bundles of groups of axons

Question 68

Epineurium

Answer 68

The epineurium is the outermost tissue covering- bundles together individual fascicles

Question 69

What forms a nerve?

Answer 69

Bundles of fascicles. Can be composed of anywhere from thousands to millions of axons.

Question 70

Regeneration

Answer 70

Creating new parts of a damaged cell. This is different from reproduction (mitosis). Mature neurons DO NOT reproduce, but they can sometimes regenerate.

Question 71

In what part of the nervous system can axons regenerate?

Answer 71

In the PNS, severed/damaged axons are capable of regeneration. This is advantageous, or else we would lose sensory/motor function early on in life. In the CNS, severed/damaged axons never regenerate. The entire neuron dies and may also cause the death of surrounding neurons

Question 72

What must occur for axons in the PNS to regenerate?

Answer 72

Regeneration only occurs if the cell body is undamaged. Also, the greater the distance between severed ends, the less likely regeneration can occur .

Question 73

How do regenerated axons behave?

Answer 73

Might not propagate action potentials as quickly, etc.. Therapy is often needed to train the nerve to respond appropriately.

Question 74

Axon regeneration in the PNS (4 steps)

Answer 74

1. The axon becomes fragmented at the injury site
2. Macrophages clean out the dead axon distal to the injury
3. Axon sprouts, or filaments, grow through a regeneration tube formed by Schwan cells
4. The axon regenerates and a new myelin sheath forms

Question 75

How many pairs of cranial nerves are there?

Answer 75

12

Question 76

How many pairs of cranial nerves extend from the brain stem?

Answer 76

10

Question 77

Cranial nerves

Answer 77

The nerves that extend from the brain. They serve the head and neck in general, but they each have their own specific function.

Question 78

Cranial nerve 1

Answer 78

Olfactory nerve- sensory nerve. Function- sensory nerves associated with olfaction (smell).

Question 79

Cranial nerve 2

Answer 79

Optic nerve- sensory. Function- sensory nerves associated with vision

Question 80

Cranial nerve 3

Answer 80

Oculomotor nerve- motor nerve. Function- supplies 4 of the 6 extrinsic eye muscles that move the eyeball.

Question 81

Cranial nerve 4

Answer 81

Trochlear nerve- motor nerve. Function- innervates extrinsic eye muscle (called the superior oblique) that loops through a pulley shaped ligament.

Question 82

Cranial nerve 5

Answer 82

Trigeminal nerve- both sensory and motor. Function- supplies sensory fibers to the face and mucous membranes in the mouth and motor fibers to the chewing muscles

Question 83

Trigeminal nerve damage

Answer 83

Damage affects how a person chews or if they are able to feel things in their mouth.

Question 84

Cranial nerve 6

Answer 84

Abducens nerve- motor nerve. Function- controls extrinsic eye muscles that abducts the eye laterally (the lateral rectus muscle).

Question 85

Cranial nerve 7

Answer 85

Facial nerve- both sensory and motor. Function- innervates muscle of facial expression, contributes to taste. It supplies the anterior two thirds of the tongue.

Question 86

Cranial nerve 8

Answer 86

Vestibulocochlear nerve- sensory nerve. Function- contributes to hearing and balance (equilibrium).

Question 87

Cranial nerve 9

Answer 87

Glossopharyngeal nerve- both sensory and motor. Function: Sensory- innervates the tongue for taste and general senses, innervates the pharynx for general senses.
Motor- innervates muscles of the pharynx for swallowing.

Question 88

Cranial nerve 10

Answer 88

Vagus nerve- sensory and motor nerve. Function- fibers extend to and supply sensory and motor fibers to the thorax and abdomen.

Question 89

Cranial nerve 11

Answer 89

Accessory nerve (spinal accessory nerve)- motor nerve. Function- supplies motor fibers to muscles that move the head and neck, also to the clavicular muscles.

Question 90

Accessory nerve damage

Answer 90

Damage can affect the pectoral girdle.

Question 91

Cranial nerve 12

Answer 91

Hypoglossal nerve- motor nerve. Function- innervates muscle found under the tongue to allow movement of tongue for chewing, speech, and swallowing.

Question 92

Spinal nerves

Answer 92

Nerves that branch from the spinal cord. Supply all parts of the body except the head and neck (although some supply very specific structures on the head and neck).

Question 93

How many pairs of spinal nerves are there?

Answer 93

31

Question 94

How do nerves connect to the spinal cord?

Answer 94

Via dorsal (sensory) and ventral (motor) roots. Therefore, all spinal nerves have both sensory and motor functions (mixed nerves).

Question 95

Dorsal roots influence which functions?

Answer 95

Sensory

Question 96

Ventral roots influence which functions?

Answer 96

Motor

Question 97

Spinal nerves divide to form

Answer 97

The dorsal ramus and ventral ramus. These are both sensory and motor in nature, in contrast to the roots

Question 98

Dorsal ramus

Answer 98

Function- provides sensory and motor fibers to the skin and muscles of the back (your back, not the whole back of the body)

Question 99

Ventral ramus

Answer 99

Function- provides sensory and motor fibers to lateral and ventral body walls and to the upper and lower limbs

Question 100

Nerve plexus

Answer 100

Interlacing nerve networks formed by the ventral rami branching and joining.

Question 101

Importance of nerve plexus formation

Answer 101

Each branch of the plexus contains fibers from multiple spinal nerves, and fibers from each ramus travel to body via several routes. This is advantageous because damage to one spinal segment or root can’t completely paralyze any limb muscle

Question 102

Nerve plexuses in the body (3)

Answer 102

1. Cervical plexus
2. Brachial plexus
3. Lumbosacral plexus

Question 103

Cervical plexus

Answer 103

Formed from C1-C4 spinal nerves. Main function- cutaneous nerves that supply the skin of the neck, ear, back of the head, and shoulders

Question 104

Brachial plexus

Answer 104

Formed from C5-C8, T1 spinal nerves, some fibers usually supplied by T2 and C4. Function- provides fibers that supply the upper body limbs. Contains 4 major groups

Question 105

4 major groups of the brachial plexus

Answer 105

1. Ventral rami (roots)
2. Trunks
3. Divisions (anterior and posterior)
4. Cords- give rise to nerves that serve the upper limb

Question 106

Lumbar plexus

Answer 106

Formed from L1-L4 spinal nerves. Function- innervates parts of abdominal wall muscle, major branches innervate anterior and medial thigh. The lumbar plexus and the sacral plexus have a large degree of overlap.

Question 107

Sacral plexus

Answer 107

Formed from L4-S4 spinal nerves. Function- innervates buttocks and lower limbs, pelvic structures and perineum. The lumbar plexus and the sacral plexus have a large degree of overlap.

Question 108

Lumbosacral trunk

Answer 108

A nervous band, joins the sacral spinal nerves to form the sacral plexus. Some fibers of lumbar plexus contribute to sacral plexus via the lumbosacral trunk.

Question 109

Innervation of the anterolateral thorax and abdominal wall

Answer 109

Ventral rami in the thorax do not form plexuses- are arranged in segmental pattern. Arise from spinal nerves T1-T12. Function- serve intercostal muscles, skin of anterolateral thorax, and most of abdominal wall

Question 110

Innervation of the back

Answer 110

Dorsal rami innervate posterior body trunk in segmental pattern. Function- each dorsal ramus innervates a narrow strip of muscle and skin at the same area where it emerges from the spinal column. Innervates the skin and muscle tissue immediately surrounding the dorsal rami

Question 111

Dermatomes

Answer 111

Area of skin innervated by cutaneous branches of a single spinal nerve.

Question 112

Dermatomes in the body trunk

Answer 112

In body trunk, dermatomes are mostly parallel and uniform in thickness

Question 113

Dermatomes in the limbs

Answer 113

The upper limbs are supplied by ventral rami C5-T1. In lower limbs, lumbar serves most anterior surfaces, sacral serves most posterior surfaces. In the limbs, dermatomes may not be parallel. They might also be innervated by a single spinal nerve

Question 114

Reflex arc

Answer 114

Response that enables rapid and predictable responses by the body. It is an automatic response by the body, not necessarily actively controlled. However, some are under some voluntary control.

Question 115

Types of reflexes (2)

Answer 115

1. Intrinsic reflex

2. Acquired reflex

Question 116

Intrinsic reflex

Answer 116

Unlearned, unpremeditated, and involuntary, “built in” responses. You don’t think about the response before it’s initiated. This is a rapid, predictable motor response to a stimulus, but it can still be modified according to circumstance. For example, making fast adjustments to body posture after losing balance.

Question 117

Which part of the nervous system sends out the message for an intrinsic reflex?

Answer 117

Generally, the spinal cord will send out the message and not the brain

Question 118

Acquired reflex

Answer 118

This reflex results from practice or repetitions, “learned” responses. This is something you do over and over until it becomes automatic. Example- driving a car

Question 119

Components of a reflex arc (5)

Answer 119

1. Receptor
2. Sensory neuron
3. Integration center
4. Motor neuron
5. Effector

Question 120

Reflex arc receptor

Answer 120

Site of stimulus action- where the stimulus is applied on the body

Question 121

Reflex arc sensory neuron

Answer 121

Transmits afferent impulses to the CNS

Question 122

Reflex arc integration center

Answer 122

Synapses found in the CNS, uses an interneuron. This is where the sensory impulse is interpreted and a motor (efferent) impulse is decided

Question 123

Reflex arc motor neuron

Answer 123

Conducts efferent impulses from the integration center to the effector organ. Impulses could be excitatory or inhibitory

Question 124

Reflex arc effector

Answer 124

Muscle fiber or gland that responds to the efferent impulse

Question 125

Functional classification of reflexes (2)

Answer 125

1. Somatic reflex

2. Autonomic reflex

Question 126

Somatic reflex

Answer 126

Activate skeletal muscle tissue- most reflexes we will learn about are somatic reflexes

Question 127

Autonomic reflex

Answer 127

Activate visceral effectors. Ex- cardiac muscle tissue, smooth muscle tissue, glands

Question 128

Spinal reflex

Answer 128

Any somatic reflex that is mediated by the spinal cord. Most occur without any higher CNS involvement, but the brain is still aware it is happening

Question 129

Types of spinal reflexes (3)

Answer 129

1. Stretch and tendon reflexes
2. Flexor and cross-extension reflexes
3. Superficial reflexes

Question 130

Stretch and tendon reflexes general function

Answer 130

Help the nervous system smoothly coordinate the activity of skeletal muscles during movement. Can be considered to be protective of damage in the body

Question 131

Muscle spindles

Answer 131

Involved in stretch and tendon reflexes- provide information about the length of a particular muscle.

Question 132

Proprioceptors (stretch and tendon reflexes)

Answer 132

Send information about the degree of muscle stretch. Composed of modified skeletal muscle fibers called intrafusal muscle fibers wrapped in a connective tissue fabric

Question 133

What happens during a stretch and tendon reflex?

Answer 133

When stretched, muscle spindle sends impulses (action potentials) at a higher frequency to the spinal cord. During contraction, the impulses are sent at a slower frequency than they are at rest.

Question 134

Stretch reflex

Answer 134

This reflex ensures that a muscle stays at its optimal length. Maintains muscle tone in large postural muscles and adjusts it reflexively. It does this by causing muscle contraction in response to increased muscle stretch

Question 135

All stretch reflexes share which 2 features?

Answer 135

1. Monosynaptic- have only a single synapse between the sensory neuron and a motor neuron, there is no interneuron
2. Ipsilateral- located on the same side of the body

Question 136

Knee jerk reflex

Answer 136

This is a type of stretch reflex. When one muscle contracts, the other relaxes- quadriceps strongly contract and tendon organs are activated, but efferent impulses to muscle with stretched tendon are dampened. This muscle relaxes, reducing tension

Question 137

Tendon organs

Answer 137

Provide information about the amount of tension in a muscle and its associated tendons

Question 138

In response to tension, muscles

Answer 138

Muscles relax and lengthen in response to tension. This helps prevent damage due to excessive stretch

Question 139

Tendon reflex

Answer 139

A stretch reflex using tendon organs. Tendon reflexes are polysynaptic- involve multiple synapses with chains of interneurons. The leg at the knee will kick backward

Question 140

Flexor reflex (withdrawal reflex)

Answer 140

Initiated by painful stimuli- causes automatic withdrawal of the body part from the stimulus source. Ipsilateral and polysynaptic.

Question 141

Flexor reflex importance

Answer 141

Importance- protection/survival mechanism. However, the brain can override this reflex if we are expecting the pain (ex- painful prick to get a vaccine)

Question 142

Crossed-extensor reflex

Answer 142

Often accompanies flexor reflex. Prevalent in weight bearing limbs- maintains balance as a result of the withdrawal reflex. Withdrawal reflex is ipsilateral, extensor reflex is contralateral

Question 143

How does the crossed-extensor reflex occur?

Answer 143

Ex- stepping on a lego. The leg/foot that steps on the Lego has an ipsilateral withdrawal- you pick your foot up off the floor. Opposite leg has a contralateral extensor reflex- you shift your weight to the opposite side of your body. If the reflex wasn’t contralateral, you would probably end up falling over as a result of the withdrawal reflex