Chapter 11

Question 1

Merkels DIsc

Answer 1

texture and fine detail
give a more sustained response

Question 1

Meissners Corpuscle

Answer 1

for texture and fine detail
- closer to surface
- responds with brief burst of impulses

Question 2

Pacinian Corpuscle and Ruffian Endings

Answer 2

deeper in skin layer
- detect stretch of the skin and the perception of the shape of grasped object

Question 3

Temperature Receptors

Answer 3

all members of the transient receptor potential family of protein ion channels

Question 4

Thermal Pain Receptors

Answer 4

hurts because of the extreme temperature
- also a type of TRP receptors

Question 5

Chemical Pain. Receptors

Answer 5

wide range of chemical irritants
- includes spicy things

Question 6

Mechanical Pain Receptors

Answer 6

• exist but cannot tell us what they are
• like being punched

Question 7

Vestibular Sense

Answer 7

• helps us maintain balance
• provides information about head position and movement
• maintained by fluid-filled vestibular organ of inner ear

Question 8

Proprioception

Answer 8

senses movement, action, and location

Question 9

Skin senses

Answer 9

senses conditions at the body surface

Question 10

Vestibular System

Answer 10

senses body positions at the body surface

Question 11

Semiciruclar annals

Answer 11

3 of them
- arranged in different orientations
- helps us respond to head movements in the three different directions
- position of our head

Question 12

Utricle and Saccule

Answer 12

monitor head and position in terms of gravity

Question 13

INtroceptive System

Answer 13

senses states of our internal organs

Question 14

Cupula

Answer 14

tuffs of hair cells within it
- as they move and bend, it gives us information about positions
- speed at which they bend tells us at the speed in which the head is moving
- bend tells us which was the head is bending
- can only tell when your head accelerates not decelerates

Question 15

Vestibular Nuclei, Cerebellum, Cortex (PIV)

Answer 15

receives information from the vestibular system

Question 16

Parietal Insular Vestibular Cortex

Answer 16

receives information from the vestibular system

Question 17

Dermatome

Answer 17

a segment of the body served by a single spinal nerve
- informs us what spinal nerve serves what portion of the bodies senses

Question 18

Somatosensory Cortex

Answer 18

the projection area for the body sense neurons
- located in the parietal lobes just behind the primary motor cortex and the central sulcus

Question 19

How Body Sense Information get to the Somatosensory Cortex?

Answer 19

enter spinal cord via spinal nerves or straight to the brain if it’s via a cranial nerve, then crosses over the midline in the medulla and travels to the thalamus

Question 20

Somatotopic Map

Answer 20

representation of the body in the somatosensory cortex, with adjacent body parts represented in adjacent parts of the cortex

Question 21

Somatosensory Cortex

Answer 21

four areas, each contains a somatotopic map of the body

Question 22

Secondary Somato

Answer 22

integrates information from both sides of the body
- neurones in this area responsive to stimuli that have acquired meaning
- sends connections to the part of the temporal lobe that includes the hippocampus, and the the posterior parietal cortex

Question 23

Movement to the Secondary Somatosensory Cortex

Answer 23

information passed from the thalamus to two subareas, extract some information, pass to two other areas which process info and pass the the secondary somatosensory cortex

Question 24

Hippocampus

Answer 24

forms somatosensory memories

Question 25

Posterior Parietal Cortex

Answer 25

association area that brings together the body senses, vision, and audition
- finally able to label what we are sensing
- neurons fire before and during movement to pass on information to frontal areas that trigger movements

Question 26

Body Integrity Identity Disorder

Answer 26

condition where individuals with no apparent brain damage or disorder are convinced their limb foes not belong to them
- when the limb is touched, their is no response in the superior parietal areas
- skin conductance response to stimulation is doubled in that limb suggesting intense emotion about the limb but still no perception

Question 27

Out of Body Experience

Answer 27

an illusion where the individual hallucinates seeing their body from another location

Question 28

Fast Pain Pathway

Answer 28

• red lines, myelinated
• registers localized pain and relays it to the cortex in a fraction of a second

Question 29

Slow

Answer 29

conveys the less localized, longer-lasting, aching, or burning pain
- C fibres are slower

Question 30

Alpha (A) Delta Fibers

Answer 30

myelinated so thicker and faster
- for fast pathway
- go up into the somatosensory areas

Question 31

Pain neurons immediately pass over at the

Answer 31

spinal cord

Question 32

C Fibres

Answer 32

for the slow pathway
- unmylinated so slower
- go to the midbrain and thalamus

Question 33

SUbstance P

Answer 33

neuropeptide that increases pain sensitivity
- so any future pain feels more intense

Question 34

Glutamate

Answer 34

released for mild pain and eventually substance P is released in the spinal cord and enhance sensitivity

Question 35

Nonsteroid Anti-Inflammitory (NSAID)

Answer 35

decreases swelling in tissues

Question 36

Opiates

Answer 36

stimulates opiate receptors, blocks pain messages in CNS

Question 37

COX-2 INhibitor (selective NSAID)

Answer 37

decreased inflammation

Question 38

Acetaminophen

Answer 38

blocks pain signals in CNS

Question 39

Endorphins

Answer 39

neurochemicals that function as neurotransmitters and hormones
- act at opiate receptors in nervous system
- only works under highly specific conditions

Answer 40

inescapable pain, must really activate it, life or death
- naloxone eliminates that analgesia induced by inescapable shock but the milder analgesia that follows escapable shock

Question 41

Analgesia

Answer 41

pain relieving

Question 42

Gate Control Theory

Answer 42

pressure signals arriving in the brain trigger an inhibitory message that travels back down the spinal cord, where it close a neural ‘gate’ in the pain pathway
- where we believe endorphins are acting

Question 43

Periaqueductal Gray (PAG)

Answer 43

a brain stem structure surrounding the cerebral ventricles with a large number of endorphin synapses
- women have less opiate receptors here than men so they need more drugs to relieve pain
- there are cannabinoid receptors here

Question 44

Endorphins

Answer 44

• stop the ascending pathway
• inhibit the release of substance P

Question 45

Origins of Endorphin Activation

Answer 45

cingulate cortex or amygdala

Question 46

Congenital Analgesia

Answer 46

insensitivity to pain
- rare and dangerous
- linked to mutations in the SCN94, PRDM12. and NGFB genes as well as elevated natural opioid levels in the cerebrospinal fluid
- do have pain but don’t feel it as intensely

Question 47

Inflammatory Soup

Answer 47

an array of signalling molecules released when the body is in pain, which includes histamine, proteins, lipids, neurotransmitters, and cytokines

Question 48

Chronic Pain

Answer 48

pain that lasts after healing occurs
- severity of injury does not determine likelihood of chronic pain
- depression is strongly related to chronic pain
- strength of functional connectivity between nucleus accumbent and frontal cortex predicts chronic back pain; suggest emotional connection between injury and chronic pain

Question 49

SCN9A, COMT, 6 variations of Glucocorticoid Gene

Answer 49

genes associated with chronic pain

Question 50

Phantom Pain

Question 51

Nervous System Changes during Chronic Pain

Answer 51

• pain pathways more sensitive
• new connections between peripheral neurones in spinal cord; increase sensitivity
• normal spinal inhibitory mechanisms depressed

Question 52

Brain Changes to Chronic Pain

Answer 52

• brain-stem pathways more responsive
• increase prefrontal cortex, anterior cingulate cortex, and insult activation
• more somatosensory cortex devoted to painful areas
• grey matter lost proportionately to the amount and duration of pain