Modalities Ch. 8

Question 1

what is pain?

Answer 1

subjective
#1 reason an athlete seeks tx
physiological
modulates response to a pain inducing stimulus

Question 2

types of subjective pain

Answer 2

emotional
psychological
social

Question 3

why is pain physiological

Answer 3

it is associated w/ tissue damage

Question 4

cause and effect types of pain

Answer 4

simple pain
response aimed at protecting and healing
simple pain can become chronic pain (> 3 months)

Question 5

simple pain

Answer 5

acute pain
tissue damage
most sports-related pain
alarm system alerts brain to actual or potential tissue damage

Question 6

how does pain protect and heal the body?

Answer 6

it signals the brain that there is something wrong

plays a role in initiating the healing processes

Question 7

how can simple pain become chronic?

-% of pop. that suffers from chronic pain

Answer 7

untreated
incorrect treatment
20% suffer

Question 8

consequences of chronic pain

Answer 8

depression
decreased activity/disability
atrophy
loss of skill
anxiety
circulatory deficiency

Question 9

how is pain described?

Answer 9

subjectively
-burning, sharp, achey, deep
we try to make it objective
-1-10 pain scales

Question 10

nociception

Answer 10

ability to feel pain

Question 11

nociceptors

Answer 11

specialized nerve endings that respond to stimulus - mechanoreceptors, thermoreceptors, chemoreceptors

Question 12

how are nociceptors classified

Answer 12

by location

• cutaneous
• somatic
• visceral

Question 13

which nociceptors are most common?

Answer 13

mechanical nococeptors (a-delta, force)
polymodal nociceptors (C, heat, mechanical pressure)

Question 14

function of A-delta fibers

Answer 14

pain transmission
crude touch
pressure
temperature

Question 15

function of C-fibers

Answer 15

pain
touch
pressure
temperature

Question 16

nociception vs. pain

Answer 16

nociception
-specific neurophysiological activity
pain
-interpretation of nociception
--subjective and emotional

Question 17

impacts on pain

Answer 17

past pain experience
general life stress
heredity
personality differences

Question 18

common noxious stimuli

Answer 18

mechanical - pressure directly on a nerve (swelling, muscle spasm)
thermal
electrical
chemical - mediators that are present when injured, bradykinin

Question 19

pathway of pain

Answer 19

slam hand in car door
pain signal - chemicals released
chemicals signal receptor to generate a signal
signal travels up the arm on first-order neurons
transmit to the dorsal horn of the spinal cord
signals relayed to a second order neuron
neurons transmit the signal up the spinal cord
received at the thalamus
pain signal transmitted to the cerebral cortex by the third order neuron
pain signal is processed

Question 20

pain terminology

Answer 20

perception threshold
-when it starts to hurt
tolerance threshold
-when someone acts on the pain

Question 21

Specific Theory of Pain

Answer 21

specific nociceptors
specific nerve pathways
specific sensation

Question 22

Pattern Theory of Pain

Answer 22

no existence of specific pain receptors
slow-conducting nerve fibers carry pain
fast-acting nerve fibers carry other sensations
normally, the fast-conduction fibers override the pain
under pathological conditions, the intensity of the stimulation in the slow system becomes much greater and dominates the fast system, resulting in pain

Question 23

Pattern Theory of Pain flaw

Answer 23

too general - doesn’t account for receptor specialization

Question 24

Gate Control Theory

Answer 24

specificity + pattern theory
operates at spinal level
proposes a gate mechanism
central control

Question 25

gate mechanism

Answer 25

-pain and other sensory stimuli travel along both large and small nerve fibers
-both stimulate T-cells which pass onto brain
action system includes all responses to the pain
inhibitory mechanism located in the substantia gelatinosa
SG inhibits the T-cell
differential stimulation of SG cells

Question 26

what types of pain do the large and small fibers carry?

Answer 26

large: sharp, stinging
small: dull, aching

Question 27

how do large and small fibers stimulate the SG?

Answer 27

large: facilitates SG
small: inhibits SG

Question 28

Gate Control Theory problems

Answer 28

does not account for phantom limb pain

cannot explain influence of drugs on pain

Question 29

types of pain relieving drugs

Answer 29

morphine
naloxone
enkephalin
endorphin
serotonin

Question 30

morphine function

Answer 30

blocks pain

• fills neurotransmitter sites
• neorutransmitter blocked

Question 31

naloxene function

Answer 31

morphine antidote: reverses effects

Question 32

enkephalin

Answer 32

• mixture of two peptides
• similar in shape and similar analgesic properties as morphine
• found in brain, spinal cord, gut
• half-life very short thus operates at spinal cord level
• block the gate by interfering w/ A-delta and C fiber signal transmission to T-cells
• released through non-painful sensory stimulus
• -sensory TENS, gentle massage

Question 33

endorphin

• similar to…
• where is it produced?
• half-life
• where does it act?
• how does it work?
• how are they released?

Answer 33

endogenous molecule
similar to morphine
produced in pituitary and circulated through body
half-life = four hours
acts in several areas of CNS (including dorsal horn)
inhibits pain signal transmissions and decreases chemical irritants in CNS
may be released by acupuncture and intense exercise

Question 34

serotonin

Answer 34

biochemical messenger and regulator
found primarily in CNS, GI tract, and blood platelets
mediates several physiological function, including neurotransmission
may influence pain perception via descending tract (brain to spinal cord), block signals from peripheral nociceptors

Question 35

dopamine

Answer 35

neurotransmitter in extrapyramidal system of brain
important in regulating movement
may also be used to synthesize norepinephrine and epinephrin
affects brain processes ___________

Question 36

opoids

Answer 36

endogenous opiates
term used to denote body’s internal pain killers such as enkephalin, endorphin, serotonin, and dopamine
bind to opiate receptors in the brain
operate in different parts of nervous system
effective for varying lengths of time

Question 37

levels of pain control

Answer 37

level I: ascending influence pain control
level II: descending influence pain control
level III: beta-endorphin-mediated pain

Question 38

level I: ascending influence pain control

Answer 38

traditional gate control pain relief theory
gating mechanism induce pain relief
TENS, massage, cryotherapy

Question 39

level II: descending influence pain control

Answer 39

pain relief occurs in higher brain centers
release of enkephalin modulates pain
possible explanation for C-fiber activation relieving pain
ex.: acupuncture or noxious TENS

Question 40

level III: beta-endorphin-mediated pain

Answer 40

prolonged stimulation of A-delta fibers
triggers the release of beta endorphins
longer term pain relief due to the 4hr half-life of endorphins

Question 41

dimension of pain

Answer 41

social
emotional
psychological
physiological
therapy is an art

Question 42

function of social, emotional, and psychological dimensions of pain

Answer 42

reasons why therapy doesn’t work

affect the rate of therapy

Question 43

how to make a patient the owner of their pain

Answer 43

communication
distraction
education
use it as a positive
responsibility
-pain meds.
-treatment

Question 44

when do we ignore pain

Answer 44

minimal
chronic
sore vs. pain
denial
inconvenient/annoying
conditioning

Question 45

when do we listen to pain

Answer 45

when it is significant
interferes with everyday life
visceral
familiar
-past experience

Question 46

what does it mean to respect pain

Answer 46

understand when it needs attention
knowing when to stop/continue
-past experience
-type of pain
-understanding consequences

Question 47

Dehne’s Spinal Adaptation Syndorme

Answer 47

afferent nociceptive impulses from traumatized tissue alter the integration of central nervous excitation at the spinal cord
-decreased response to volitional stimuli
-increased response to otherwise subliminal peripheral stresses
results in involuntary muscle action
alters repair
responds adversely to addition stress, favorably to reestablishing central control
nociceptive impulses from traumatized tissue inhibit motor function and tissue repair
voluntary activity can reestablish CNS control and prevent this inhibition
prolonged inactivity after injury will lead to neural inhibition that may become permanent

Question 48

resetting central control

Answer 48

not enough to just get rid of the pain sensation
must also get rid of the effects of the pain
-reset the system

Question 49

Chicago Plane Analogy

Answer 49

a tire blowout occurs during takeoff
the runway is shut down so the damaged plane and debris can be romoved
the runway reopens (pain removed)
however, thousands of passengers are stranded because of canceled flights (Chicago and elsewhere)
meetings must be rescheduled, which takes time after the reopening of the airport

Question 50

resetting central control after injury

Answer 50

progression exercise

Question 51

source of athletic injury pain

Answer 51

nociceptor pain
-cause of most sports injury pain
relay impulse to spinal cord
nociceptor is stimulated by
-injured tissue (mediator release)
-edema pressure
-stretching injured tissue
-otherwise normal activity in a tissue that is sensitized from disuse after injury

Question 52

source of athletic injury pain

Answer 52

neuropathic pain
-complex, chronic pain state accompanied by tissue damage to nerve fibers
occurs due to
-acute nerve damage
-disuse following injury
-surgery that involves neural tissue
-condition that cause nerves to become dysfunctional

Question 53

sources of athletic injury pain

Answer 53

learned pain
-learned, or conditioned, response
--"pain memories"
-\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_
idiopathic pain
-unknown origin
--no identifiable pathology

Question 54

placebo

• latin
• ___% receive relief

Answer 54

latin-I shall please
mock intervention
patient belief
psychological effects
35% of postoperative, diabetes, or chronic headache patients receive relief from placebos

Question 55

placebos

-why?

Answer 55

power of the mind
believing something will work may increase effects
-educate patients
-be positive
-set goals

Question 56

pain relief types

Answer 56

direct

indirect

Question 57

direct

Answer 57

get rid of the pain source

Question 58

indirect

Answer 58

treating the pain but not the source

Question 59

tools for relieving pain

Answer 59

immobilization
therapeutic exercise
counter-irritants
thermotherapy
electrotherapy
cryotherapy
psychological tools