Nervous System

Question 1

What are the 2 major components of the nervous system?

Answer 1

central nervous system (CNS)
peripheral nervous system (PNS)

Question 2

What makes up the CNS?

Answer 2

the brain and spinal cord

Question 3

What are the 2 types of components of the PNS?

Answer 3

sensory components
motor components

Question 4

What is included in the sensory components of the PNS?

Answer 4

sensory ganglia and nerves
sensory receptors

Question 5

What type of stimuli affect the sensory components of the PNS?

Answer 5

internal and external stimuli

Question 6

What type of neurons are involved in the sensory component of the PNS?

Answer 6

afferent neurons

Question 7

What are the 2 categories of motor components of the PNS?

Answer 7

somatic
visceral (aka autonomic)

Question 8

What is involved in the somatic motor components of the PNS?

Answer 8

motor nerves

Question 9

What do motor nerves of the PNS effect?

Answer 9

skeletal muscle movement

Question 10

What is involved in the visceral motor components of the PNS?

Answer 10

autonomic ganglia and nerves

Question 11

What do the visceral motor components of the PNS effect?

Answer 11

effectors:
smooth muscle, cardiac muscle and glands

Question 12

What type of neurons are involved in the motor component of the PNS?

Answer 12

efferent neurons

Question 13

What are the 2 major types of neurons in the PNS? what do they do, broadly?

Answer 13

afferent neurons sense changes to internal and external environment

efferent neurons receive signals to cause effects on the motor components

Question 14

Describe the organization of the nervous system (direction of signaling and components)

Answer 14

in the PNS, afferent neurons sense a change to the internal/external environment and signal to the sensory components (sensory ganglia and nerves, sensory receptors) which send a signal to the CNS (brain and spinal cord)

the brain and spinal cord send signals to the motor components of the PNS (somatic motor nerves and visceral autonomic ganglia and nerves)

the motor components of the PNS send signals to the effectors (skeletal muscles, smooth muscles, cardiac muscles, and glands) via efferent neurons

Question 15

What is grouped together to make the PNS?

Answer 15

the afferent and efferent divisions

Question 16

What is grouped together to make the CNS?

Answer 16

the integrating centers (brain and spinal cord)

Question 17

What is the overall function of the afferent division of the PNS?

Answer 17

to send signals from the PNS to the CNS

Question 18

What happens when a signal is received from the afferent division of the PNS by the CNS?

Answer 18

the brain and spinal cord integrate the signal and send messages to the efferent division of the PNS which has different effects on the body

Question 19

What type of movement does the somatic nervous system component of the efferent division of the PNS cause?

Answer 19

voluntary movement of the skeletal muscle

Question 20

What type of movement does the visceral/autonomic nervous system component of the efferent division of the PNS cause?

Answer 20

involuntary movement of smooth and cardiac muscles, and has effects on glands

Question 21

What is the enteric nervous system?

Answer 21

it’s associated with the gut and is regulated separately

Question 22

This basic organization of the nervous system is based on animals with what type of symmetry?

Answer 22

bilateral

Question 23

Which animals are an exception to this organization of the nervous system into afferent sensory, integrating, and efferent motor divisions?

Answer 23

cnidarians (ex. sea anemones and jellyfish)

Question 24

Describe the Cnidarian nervous system

Answer 24

it’s one interconnected nerve net

neurons are distributed throughout the body and are not specialized into different divisions like the afferent sensory, integrating, or efferent motor

neurons can have APs in both directions because they’re not specific

complex behaviours are still observed

Question 25

What, compared to vertebrates, is different about how APs spread in the nervous system of Cnidarians?

Answer 25

Cnidarians can have APs in both directions, whereas in vertebrates APs are unidirectional

Question 26

What animal group does not have a nervous system at all?

Answer 26

sponges (Porifera)

Question 27

The organization of the nervous system into afferent, integrating, and efferent divisions is most common in animals with what anatomical features?

Answer 27

cephalization

except for Cnidarians and Echinoderms which do not have cephalization but do have nervous systems

Question 28

Which animal groups lack cephalization but still have complex nervous systems?

Answer 28

Cnidarians and Echinoderms

Question 29

T or F: higher complexity of nervous system = more neurons and more synapses

Answer 29

true

more synapses = more integration of info = more complex behaviour

Question 30

What does a complex nervous system suggest about memory?

Answer 30

memories are stored in synapses, so if there’s more synapses in a more complex system, there’s higher potential for learning

Question 31

What makes the CNS in vertebrates unique?

Answer 31

highly cephalized
hollow dorsal nerve cord (spinal cord)
CNS is encased in bone or cartilage

Question 32

What part of the nervous system in vertebrates is encased in cartilage or bone?

Answer 32

the CNS (brain and spinal cord)

Question 33

What part of the nervous system extends into the periphery of the body?

Answer 33

the PNS which is made up of the nerves external to the CNS

Question 34

What are the 5 major nerve types that project from the spinal cord in vertebrates?

Answer 34

going from the brainstem down the spinal cord there’s:

cervical nerves
thoracic nerves
lumbar nerves
sacral nerves
coccygeal nerves

Question 35

What are cranial nerves?

Answer 35

they extend directly from the skull
there’s 13 pairs labelled with roman numerals
some are afferent and some are efferent

Question 36

What types of functions do the cranial nerves involve?

Answer 36

sensory and motor info

Question 37

Give some examples of the cranial nerves

Answer 37

olfactory = olfaction
optic = vision
facial = taste, eye muscles, salivary glands

Question 38

Where do spinal cord nerves enter and extend from?

Answer 38

between adjacent vertebrae

Question 39

What are spinal cords named for?

Answer 39

the region of the vertebral column that they originate from

cervical
thoracic
lumbar
sacral
coccygeal

Question 40

What are the broad functions of the nerves that extend from the spinal cord?

Answer 40

they send sensory info to the spinal cord and receive motor info from the spinal cord

Question 41

Which side of the spinal cord (dorsal or ventral) does the sensory info from the peripheral nerves travel?

Answer 41

dorsally

Question 42

Which side of the spinal cord (dorsal or ventral) does the motor info from the CNS travel to the peripheral nerves?

Answer 42

ventrally

Question 43

What two types of tissue do the brain and spinal cord contain?

Answer 43

grey matter
white matter

Question 44

What makes up grey matter?

Answer 44

neuronal cell bodies

Question 45

Where is grey matter located in relation to white matter in the brain?

Answer 45

grey matter is the perimeter (surface) of the brain, surrounding the white matter

Question 46

What makes up white matter?

Answer 46

axons and their myelin sheaths

Question 47

Where is white matter in relation to grey matter in the brain?

Answer 47

white matter is the internal part of the brain which is surrounded (external surface) by grey matter

Question 48

Where are grey matter and white matter located in relation to each other in the spinal cord?

Answer 48

the grey matter is internal and the white matter surrounds it

Question 49

T or F: the CNS is not isolated but it is protected

Answer 49

false

it’s isolated AND protected

Question 50

What 4 things protect the CNS?

Answer 50

the skull and vertebral columns
meninges
cerebral spinal fluid (CSF)
blood-brain barrier

Question 51

Why is protection and isolation of the CNS critical for survival?

Answer 51

the CNS does not regenerate if damaged so protecting it from damage is key

Question 52

What are meninges?

Answer 52

connective tissues (membrane layers) that surround the brain and spinal cord (CNS)

Question 53

How does the number of meninges vary depending on animal taxa?

Answer 53

the number of layers varies

ex. fish have one layer
amphibians, reptiles and birds have 2 layers
mammals have 3 layers

Question 54

what is cerebral spinal final (CSF)?

Answer 54

fluid that fills the spaces within the CNS to be a shock absorber

CNS floats in it

Question 55

What is the blood-brain barrier?

Answer 55

the brain capillary endothelium has tight junctions with glial cells (astrocyte endfeet and pericytes) that prevent free travel of solutes from brainstem into the CSF

Question 56

What are glial cells?

Answer 56

non-neuronal cells in the CNS

Question 57

What is the function of the blood-brain barrier?

Answer 57

to protect the brain from harmful substances and immune cells

Question 58

T or F: the blood brain barrier is completely impermeable and nothing transports through it

Answer 58

false, glucose and amino acids can be transported in

Question 59

What can be transported into the brain/through the blood brain barrier? and at which parts of the brain?

Answer 59

glucose and amino acids

pineal gland, pituitary gland, and parts of the hypothalamus are semi-permeable

Question 60

What are the 3 cranial and spinal meninges in mammals?

Answer 60

from top of skull to bottom:
dura mater
arachnoid mater
pia mater

Question 61

What is an extension of the spinal cord?

Answer 61

the brain

Question 62

What are ventricles?

Answer 62

cavities in the brain that are filled with cerebral spinal fluid

Question 63

What are the 4 primary brain vesicles (major brain regions)?

Answer 63

anterior/rostral

forebrain
midbrain
hindbrain
spinal cord

posterior/caudal

Question 64

what are the 6 secondary brain vesicles found within the primary brain vesicles?

Answer 64

anterior/rostral

telencephalon
diencephalon
mesencephalon
metencephalon
myelencephalon
spinal cord

poster/caudal

Question 65

What are the 7 major brain components?

Answer 65

anterior/rostral

olfactory bulb
cerebral cortex
thalamus and hypothalamus and pituitary
midbrain
cerebellum and pons
medulla
spinal cord

posterior/caudal

Question 66

What secondary brain vesicles make up the forebrain?

Answer 66

forebrain is divided into the telencephalon and the diencephalon

Question 67

What components of the brain make up the forebrain?

Answer 67

olfactory bulb and cerebral cortex in the telencephalon

thalamus (dorsal) hypothalamus (ventral) and pituitary (ventral) in the diencephalon

Question 68

What components of the brain make up the hindbrain?

Answer 68

the cerebellum which is dorsal to the pons (ventral) in the metencephalon

the medulla in the myelencephalon (rostral to the metencephalon)

Question 69

What are the 3 regions of the hindbrain (rhombencephalon)?

Answer 69

Pons
cerebellum
medulla oblongata

Question 70

Describe the pons (location, function)

Answer 70

located in the hindbrain, rostral to the medulla and ventral to the cerebellum

they are the pathway between the medulla, cerebellum and forebrain

function in alertness and initiation of sleep and dreaming, also motor control due to its connection to the cerebellum

Question 71

Describe the cerebellum (location, function)

Answer 71

located in the 2 hemispheres at the back of the brain, dorsal to the pons, rostral to the medulla

functions in motor coordination

Question 72

What proportion of brain neurons does the cerebellum contain?

Answer 72

~1/2

Question 73

What is a pathology related to the cerebellum?

Answer 73

ataxia

related to motor coordination

Question 74

Describe the medulla oblongata (location and function)

Answer 74

located at the top of the spinal cord, caudal to the cerebellum and pons

functions in breathing, heart rate, diameter of blood vessels and blood pressure regulation

includes the pathways between the spinal cord and the brain

Question 75

Which neuron pathways does the medulla include?

Answer 75

pathways that run from the spinal cord to the brain

Question 76

What is the function of the midbrain? Where is it located?

Answer 76

the midbrain is rostral to the pons and cerebellum and caudal to the thalamus and hypothalamus

it’s responsible for coordinating and initiating reflexes in response to auditory and visual signals

Question 77

T or F: the midbrain is the same size and has the same level of function in all vertebrates

Answer 77

false, it’s size and function are reduced in mammals compared to fish and amphibians

Question 78

In mammals, how is the midbrain divided? what functions do these divisions play?

Answer 78

inferior colliculi for responses to auditory input
superior colliculi for response to visual inputs

Question 79

What is the midbrain sometimes grouped in with? what is this unit called?

Answer 79

the pons and medulla to form the brainstem

Question 80

What is the brainstem?

Answer 80

the midbrain + pons + medulla

Question 81

What other components are located in the midbrain?

Answer 81

the substantia nigra and VTA

Question 82

What is the major function of the forebrain?

Answer 82

processing and integrating sensory info and then coordinating behaviour

Question 83

What are the 5 regions of the forebrain?

Answer 83

cerebrum
hippocampus
thalamus
hypothalamus
limbic system

Question 84

Where is the hypothalamus located?

Answer 84

at the base of the forebrain, ventral to the thalamus

Question 85

What is the major function of hypothalamus?

Answer 85

to maintain homeostasis

Question 86

What are some examples of the physiological variables the hypothalamus is involved in regulating to maintain homeostasis?

Answer 86

body temperature
thirst
hunger
reproduction
renal function
blood pressure
circadian rhythm

Question 87

How does the hypothalamus help maintain homeostasis?

Answer 87

by interacting with the autonomic NS and regulating pituitary hormones

Question 88

What is the limbic system?

Answer 88

a group of connected structures that are located between the cortex and the rest of the brain

Question 89

What are the major functions of the limbic system?

Answer 89

involved in regulating emotions, motivations and memory

Question 90

What is another term for the limbic system?

Answer 90

the emotional brain

Question 91

What are components are included in the limbic system?

Answer 91

the hypothalamus
amygdala
hippocampus
olfactory bulbs
nucleus accumbens
cingulate cortex

Question 92

What is the amygdala responsible for?where is it found?

Answer 92

aggression and fear responses

part of the limbic system

Question 93

what is the hippocampus responsible for? where is it found?

Answer 93

commits short-term memories into long-term memory

found in the limbic system

Question 94

What are the olfactory bulbs for? where is it found?

Answer 94

sense smell

limbic system

Question 95

what is the nucleus accumbens for? where is it found?

Answer 95

related to rewards and addictions

limbic system

Question 96

what is the cingulate cortex responsible for? where is it found?

Answer 96

executive function, decision making, motivation, planning

limbic system

Question 97

describe the thalamus (location, function)

Answer 97

large grey matter region above the hypothalamus

functions:
receives info from limbic system and involved in all senses except smell
sends sensory info (somatosensory, visceral, auditory, visual) to cortex

major function: regulating sleep and wakefulness

Question 98

Describe the cerebrum (function, location)

Answer 98

outer layer is the cerebral cortex

divided into two hemispheres:
- left side to control right side of body
- right side to control left side of body

ie., neurons innervate the opposite side of the body

Question 99

What side of the body does the right cerebral hemisphere control?

Answer 99

the left side of the body

Question 100

What side of the body does the left cerebral hemisphere control?

Answer 100

the right side of the body

Question 101

Where do the cerebral neurons innervate the opposite side of the body?

Answer 101

the corpus callosum

Question 102

describe the cerebral cortex (location, function)

Answer 102

surrounds the cerebrum
most anterior

processes (integrates and interprets) sensory info and triggers voluntary movement

involved in cognitive functions like planning and decision making

Question 103

What part of the brain has replaced the midbrain for functions in lower vertebrates?

Answer 103

the cerebral cortex

Question 104

What is the iso- or neocortex? what is its function?

Answer 104

the outermost layer of the cerebral cortex

required for cognition and higher brain functions

Question 105

What are gyri (pl.; gyrus s)?

Answer 105

folds in the iso- or neocortex

Question 106

what are sulci (pl) or sulcus (sin)?

Answer 106

the grooves in the iso- or neocortex

Question 107

More advanced animals have a higher or lower concentration of gyri and sulci? explain

Answer 107

higher because this increases surface area = more neurons

Question 108

How many layers are in the cortex? how do they differ?

Answer 108

6 distinct layers that differ in shape, density, and number of connections

Question 109

What type of neurons have long range projections and which layers of the cerebral cortex do they exist in?

Answer 109

2/3, 5, and 6 layers have pyramidal neurons

Question 110

What type of neurons have short range projections (local) and which layers of the cerebral cortex do they exist in?

Answer 110

all layers have interneurons

Question 111

How is the cortex divided?

Answer 111

into cortical lobes

Question 112

What are the cortical lobes?

Answer 112

frontal
parietal
occipital
temporal

Question 113

How are the cortical lobes named?

Answer 113

after their function or bones which overlap them

Question 114

What divides the frontal lobe from the partietal lobe?

Answer 114

the central sulcus (major groove in the cortex)

Question 115

Who developed the concept of somatotopic organization of the cerebral cortex and what is it?

Answer 115

wilder penfield and herbert jasper

topologically mapped out how each part of the cortex either controls a specific part of the body through motor output or receives sensory info from

Question 116

On the somatotopic organization of the cerebral cortex map, what does it mean if a body part is drawn larger?

Answer 116

the part of the cerebral cortex which controls this part of the body occupies a larger space and has more neurons

Question 117

What is the somatosensory system?

Answer 117

the pathway for sensory information received in the body is transmitted to the brain

made up of 3 subsystems to regulate sensations such as touch, pressure, limb position, temperature, pain

Question 118

What are the 3 subsystems of the somatosensory system?

Answer 118

cutaneous mechanoreceptors

proprioception

pain and temperature

Question 119

What detects the sensations sensed by the somatosensory system? where do they transmit this info?

Answer 119

receptors in the skin, muscles, and tendons

the sensory signals are transmitted to the CNS

Question 120

What type of sensations does the cutaneous mechanoreceptor subsystem of the somatosensory system receive?

Answer 120

touch
vibration
pressure

from receptors on the skin

Question 121

What type of sensations does the proprioception subsystem of the somatosensory system receive?

Answer 121

limb position
load (weight) on joints

from receptors in muscles, tendons and joints

Question 122

What are dorsal root ganglia?

Answer 122

the sensory receptors (where cell bodies of afferent fibers are) for the body

Question 123

What are cranial nerve ganglia?

Answer 123

sensory receptors of the head

where the cell bodies of afferent neurons are

Question 124

what is a dermatome?

Answer 124

the region a single dorsal root ganglion innervates and its associated spinal nerve

ex. cervical, thoracic, lumbar, sacral

Question 125

How are mechanosensory afferents transduced?

Answer 125

a stimulus changes the permeability of cation (mechanosensitive) channels on the membrane of afferent nerve endings

mechanoreceptors on afferent neurons sense pressure and the membrane stretches to open cation (Na+) PIEZO channels

influx of Na+ depolarizes membrane potential and triggers action potential if strong enough

Question 126

What is the name of the channels involved in mechanosensory afferent neuron transduction?

Answer 126

PIEZO channels for Na+ or other cations

Question 127

What are some types of mechanoreceptors?

Answer 127

Merkel, Meissner, Pacinian, Ruffini cells

Question 128

How do somatosensory afferents differ?

Answer 128

axonal diameter, conduction velocity, size of receptive field

Question 129

what is used to determine the size of a somatosensory afferent neuron’s receptive field?

Answer 129

the 2 point discrimination

the smallest distance between 2 points before they become 1

Question 130

What body parts would have somatosensory afferent neurons with the smallest receptive fields? the largest? why?

Answer 130

smallest: fingers
largest: shoulders, back, arms

it’s more important to have neurons in parts of the body that are critical to function like grabbing and holding objects

Question 131

Which somatosensory afferent neurons have the largest axon diameter and conduction velocity? smallest?

Answer 131

largest

proprioception (muscle spindle and golgi tendon organ)

cutaneous (Merkel, etc.)

pain, temperature, itch (free nerve endings)

smallest

Question 132

What are the 2 types of temporal dynamics that influence somatosensory afferents?

Answer 132

rapidly adapting
slowly adapting

Question 133

Describe rapidly adapting somatosensory afferent neurons

Answer 133

trigger action potentials only when the stimulus is changed (ex. at the application of a stimulus and at the removal of a stimulus, but not during the stimulus)

Question 134

Describe slowly adapting somatosensory afferent neurons

Answer 134

trigger action potentials for the duration of the stimulus

Question 135

What type of info (static vs. dynamic) do slowly adapting mechanoreceptors provide?

Answer 135

static

Question 136

What type of info (static vs. dynamic) do rapidly adapting mechanoreceptors provide?

Answer 136

dynamic

Question 137

Where in the layers of the skin (epidermis, dermis, subcutaneous), do each of the mechanoreceptors reside (free nerve endings, Meissner, Merkel, Ruffini, Pacinian)?

Answer 137

free nerve endings are closest to the surface in the epidermis

Meissner corpuscle are in epidermis, below free nerve endings

Merkel cells are in epidermis/dermis below Meissner

Ruffini are in dermis

Pacinian corpuscle are in subcutaneous layer

Question 138

Are most afferent fibers coated in specialized receptor cells or are they mostly free nerve endings?

Answer 138

most of them are covered in mechanoreceptors (specialized receptor cells)

Question 139

What is the purpose of afferent fibers being covered in mechanoreceptors?

Answer 139

they lower the threshold for detecting somatic stimulation like pressure

Question 140

Are afferents with mechanoreceptors more or less sensitive to sensory stimulation than free nerve endings?

Answer 140

more sensitive than free nerve endings

Question 141

what types of mechanoreceptors are slowly adapting?

Answer 141

merkel cell afferent
ruffini afferent

Question 142

What types of mechanoreceptors are rapidly adapting?

Answer 142

meissner and pacinian afferent

Question 143

Which mechanoreceptor is the most sensitive?

Answer 143

Pacinian afferents

Question 144

Where are merkel afferents most concentrated? what are they most sensitive to?

Answer 144

fingertips

sensitive to points, edges, curves

function in processing info about form and texture

Question 145

Which afferent mechanoreceptors are for processing form and texture information? why?

Answer 145

merkel cell afferents because they’re concentrated in the fingertips

Question 146

Where are Meissner afferents located? what are they sensitive to?

Answer 146

the hand, closest to skin surface

super sensitive

sensitive to textured objects moving across the skin and grip of the hand

Question 147

WHere are the Pacinian afferents? what are the sensitive to?

Answer 147

they’re located deep in the dermis

sensitive to vibrations through an object when you’re using it

ex. using a knife to cut, using a pen to write, using a tool

Question 148

Where are the ruffini afferents? what are they sensitive to?

Answer 148

deep in the dermis

sensitive to internal stimuli such as movement of fingers and provide accurate info for finger and hand positioning without having to look

ex. playing a piano, typing

Question 149

Rate the mechanoreceptors in order of spatial resolution (high to low)

Answer 149

highest:

merkel cell (0.5mm)
Meissner (3mm)
ruffini (>7mm)
pacinian (>10mm)

Question 150

Describe the cutaneous mechanosensory pathway

Answer 150

sensory information received in body on dorsal side

info from dorsal lower body received in lumbar spinal cord sent ipsilaterally through spinal cord until caudal medulla

at caudal medulla, the info crosses the spinal cord and travels up contralaterally

enters brain ventral posterior

reaches primary somatosensory cortex of cerebrum

Question 151

What are proprioceptors?

Answer 151

mechanoreceptors that detect body positioning and provide continuous info about limb positions

Question 152

What are the 2 major groups of vertebrate proprioceptors?

Answer 152

muscle spindles
Golgi tendon organs

Question 153

What are muscle spindles (location, function)?

Answer 153

a group of proprioceptors in vertebrates located on the surface of skeletal muscles

they monitor the length of muscles and receive information about limb movement and limb positions

muscle spindles are composed of muscle fibers (intrafusal fibers)

Question 154

Describe the structure of muscle spindles

Answer 154

composed of intrafusal muscle fibres surrounded by sensory afferent groups Ia and II

Question 155

What function do sensory afferents I and II have regarding muscle spindles?

Answer 155

they coil around the intrafusal muscle fibers that make up muscle spindles

Ia = movement of limbs (rapidly adapting)

II = static limb positions (slowly adapting)

Question 156

What are golgi tendon organs (location, function)?

Answer 156

a group of vertebrate proprioceptors located at the junction of skeletal muscles and tendons

composed of Ib afferents that are in the collagen fibers of tendons

changes in the tension in the tendon cause stimulation of these receptors

Question 157

What’s an example of how the golgi tendon organs function?

Answer 157

they cause reflex protective actions for the muscles by causing the arm to let go of a load when the tension is too high on the tendon

protect the tendons and muscles

Question 158

Describe the proprioceptive pathway

Answer 158

muscle spindles or golgi tendon organs afferents send signal from the lower body into the dorsal spinal cord

signal sent ipsilaterally up spinal cord to synapse in the thoracic spinal cord and travel to the cerebellum

from caudal medulla > medial lemiscus > VPL > primary somatosensory

Question 159

What is the primary somatosensory cortex?

Question 159

What layer of the primary somatosensory cortex do mechanosensitive and proprioceptive information project to?

Answer 159

layer 4

Question 160

What does the primary somatosensory cortex comprise of?

Answer 160

Brodmann’s areas 3a, 3b, 1 and 2

Question 161

What sends mechanosensitive and proprioceptive info to the 4th layer of the primary somatosensory cortex?

Answer 161

the ventral posterior complex of the thalamus

Question 162

How is the cerebral cortex organized?

Answer 162

somatotopically

every region of the cortex is associated with a specific body part and controls it by motor output or receives sensory input from it

Question 163

Which mechanoreceptors in the skin detect pain and temperature?

Answer 163

free nerve endings in the epidermis

Question 164

T or F: all free nerve endings are unmyelinated

Answer 164

false, some are but some are also myelinated

Question 165

How is pain transmitted?

Answer 165

at 2 different velocities

first pain
second pain

Question 166

What is first pain? What type of fibers mediate it?

Answer 166

the sharp, rapidly transmitted pain mediated by myelinated A(delta) fibers

Question 167

What is second pain? what type of fibers mediate it?

Answer 167

the more delayed, slower transmitted and longer lasting pain

mediated by unmyelinated C fibers

Question 168

what are nociceptors?

Answer 168

free nerve endings that trigger pain sensation

Question 169

Do the axons in nociceptors have faster or slower conduction velocities?

Answer 169

slower

Adelta fibers 5-30 m/s
C fibers <2 m/s

Question 170

What kind of sensations do Adelta fiber nociceptor axons detect?

Answer 170

intense mechanical (pain) or heat stimuli

Question 171

What kind of sensations do C fiber nociceptor axons detect?

Answer 171

intense mechanical (pain)
warm/cool temperature
chemical stimuli

Question 172

T or F: nociceptor axons are polymodal - what does this mean?

Answer 172

true, it means they can detect a variety of sensations

Question 173

What are the channels for pain, heat, and chemical stimuli?

Answer 173

TRPs: Transient Receptor Potential channels - non-selective cation channels

Question 174

What is the pain pathway?

Answer 174

the anterolateral system

Question 175

Describe the anterolateral pathway

Answer 175

pain or temperature sensations are received by nociceptors in the lower or upper body and info is passed into the dorsal spinal cord

signal crosses the spinal cord to ventral side and travels contralaterally up the spinal cord

through caudal medulla, rostral medulla, pons, midbrain and reaches the ventral posterior lateral thalamus and the primary somatosensory cortex

Question 176

Where does the signal detected by nociceptors cross the body? How does this differ from other afferent neurons?

Answer 176

it crosses at the cervical and lumbar spinal cord (almost immediately upon entrance)

whereas other pathways travel ipsilaterally until the caudal medulla where the cross occurs

Question 177

What branch of the peripheral nervous system is the autonomic nervous system part of?

Answer 177

the efferent branch

Question 178

What are the 3 types of nervous systems in the autonomic nervous system?

Answer 178

sympathetic
parasympathetic
enteric

Question 179

Describe the autonomic nervous system

Answer 179

the involuntary response system
involved in homeostasis
composed of the sympathetic, parasympathetic, and enteric systems

Question 180

Describe the sympathetic nervous system

Answer 180

part of the autonomic nervous system

activated during stress or physical activity
the ‘fight or flight’ response system

Question 181

Describe the parasympathetic nervous system

Answer 181

part of the autonomic nervous system

activated during periods of rest

the ‘resting and digesting’ system

Question 182

describe the enteric nervous system

Answer 182

part of the autonomic nervous system

functions independently of the sympathetic and parasympathetic systems

involved in digestion

Question 183

How does the autonomic nervous system help in maintaining homeostasis?

Answer 183

by balancing the activity of the sympathetic and parasympathetic nervous systems

Question 184

What are the 3 mechanisms for regulating involuntary functions?

Answer 184

dual innervation
antagonistic action
basal tone

Question 185

Describe how the autonomic nervous system uses dual innervation to maintain homeostasis

Answer 185

nerves from both the sympathetic and parasympathetic systems are innervating the organs of the body (sending info)

Question 186

Describe how the autonomic nervous system uses antagonistic action to maintain homeostasis

Answer 186

one of the 2 systems (symp. or para) will be stimulating while the other is inhibiting at any given time

Question 187

Describe how the autonomic nervous system uses basal tone to maintain homeostasis

Answer 187

there is a constant flow of action potentials carried by autonomic neurons, even during resting periods

Question 188

Where do the sympathetic neurons originate from along the spinal cord?

Answer 188

the thoracic and lumbar nerves

Question 189

Where do the parasympathetic neurons originate from along the spinal cord?

Answer 189

the cranial nerves and sacral nerves

Question 190

Give some examples of antagonistic action by the autonomic nervous system

Answer 190

eye pupils: the parasympathetic system constricts; the sympathetic system dilates

heart: PS slows heart rate; SS increases heart rate and force of contractions

digestive tract: PS increases digestion; SS decreases digestion

Question 191

Describe the anatomy of autonomic pathways

Answer 191

they have 2 neurons in series

cell body of the first neuron (preganglionic neuron) is in the CNS

preganglionic neuron synapses with postganglionic efferent neuron in the PNS

Question 192

What are the 3 major anatomical differences between the sympathetic and parasympathetic branches?

Answer 192

1. origin of preganglionic neurons:

sympathetic: cell bodies in thoracic and lumbar spinal cord regions
para: cell bodies in cranial and sacral spinal cord regions

2. location of ganglia

sympathetic: run close to spinal cord = preganglionic neurons are shorter, postganglionic neurons are longer

para: run close to effector/target organ = preganglionic neurons are longer, postganglionic neurons are shorter

3. distribution of effects

sympathetic: preganglionic neurons form synapses with 10+ postganglionic neurons = widerspread effects

para: preganglionic neurons form synapses with < 3 postganglionic neurons = more localized effects

Question 193

Which branch of the autonomic nervous system has neurons that run closer to the spinal cord? how does this effect the length of preganglionic and postganglionic neurons?

Answer 193

sympathetic

preganglionic neurons are shorter
postganglionic neurons are longer to reach the target organ

Question 194

Which branch of the autonomic nervous system has neurons that run closer to the target organs? how does this effect the length of preganglionic and postganglionic neurons?

Answer 194

parasympathetic

preganglionic neurons are longer
postganglionic neurons are shorter

Question 195

Which neurotransmitter do the preganglionic neuron in both the sympathetic and parasympathetic systems release? what receptor does the postganglionic neuron have?

Answer 195

the preganglionic neuron releases acetylcholine (ACh) and the postganglionic neuron has nicotinic receptors for binding ACh

Question 196

What does the release of ACh by the preganglionic neuron and binding of ACh by the postganglionic neuron cause in the postganglionic cell? in both sympathetic and parasympathetic systems

Answer 196

nicotinic ACh receptors are ligand-gated ion channels

binding of ACh opens Na+ ion channel and rapidly depolarizes the postganglionic cell

always excitatory

Question 197

How do the neurotransmitters differ between the sympathetic and parasympathetic systems?

Answer 197

parasympathetic:
postganglionic neurons release ACh but target organ has muscarinic ACh G-coupled receptors (not nicotinic receptors) = response is slower and can be excitatory or inhibitory

sympathetic:
postganglionic neurons release norepinephrine that bind to the adrenergic receptors on target organ which triggers a signal transduction pathway

Question 198

What type of effector organ do efferent motor neurons control?

Answer 198

only skeletal muscles

Question 199

Where are the cell bodies of motor neurons located (where do they originate)?

Answer 199

only ever within the CNS

Question 200

How many synapses do efferent motor pathways have between the CNS ganglia and the effector organ? how does this compare to the autonomic nervous system?

Answer 200

only one neuron and one synapse

the sympathetic and parasympathetic nervous system have 2 synapses (one between the preganglionic and postganglionic neurons and one between the postganglionic and effector organ)

Question 201

What is a result of there only being one synapse between the CNS and the effector organ in efferent motor pathways?

Answer 201

efferent motor neurons can be super long

some axons are multiple meters long

Question 202

What neurotransmitter do efferent motor neurons release?

Answer 202

only acetylcholine

Question 203

What is the effect of acetylcholine released by efferent motor neurons on skeletal muscles?

Answer 203

always excitatory - contraction

Question 204

describe the pathway of efferent motor neurons (corticospinal tract)

Answer 204

motor neurons originate in the CNS and information travels from the primary motor cortext down the ventral side of the spinal cord through the midbrain, pons, middle medulla

90% of signal crosses the spinal cord at the caudal medulla to dorsal side, other 10% remain on ventral

Question 205

What type of skeletal muscles would efferent motor neurons that track down the ventral corticospinal tract innervate?

Answer 205

muscles related to posture such as abdominal and back muscles

Question 206

What type of skeletal muscles would efferent motor neurons that track down the lateral corticospinal tract innervate?

Answer 206

muscles in extremities like hands, fingers, legs, etc

Question 207

T or F: one alpha motor neuron will innervate all the muscle fibers in the target organ

Answer 207

false, one neuron will only innervate a few fibers so many neurons need to be recruited for increased strength of contraction

Question 208

in what ways can the strength of contraction in skeletal muscles be increased?

Answer 208

by recruiting more alpha efferent motor neurons = increasing stimulation of more muscle fibers

increasing frequency and intensity of stimulation

Question 209

describe temporal summation

Answer 209

stimuli frequency is increased and the muscle fiber doesn’t have time to relax before next signal causing an increased response

Question 210

Describe unfused tetanus

Answer 210

stimulation intensity and frequency is increased

response is higher, fluctuates but does not have time to properly relax between contractions

Question 211

Describe fused tetanus

Answer 211

very high intensity and frequency of stimuli causes no relaxation between contractions

Question 212

In what context would temporal summation be most likely?

Answer 212

running

Question 213

In what context would fused tetanus be most likely?

Answer 213

weight lifting