Physiology - Fractures and Dislocation

Question 1

Nociceptors

Answer 1

Peripheral receptors of pain (noxious stimuli)

Question 2

Types of nociceptors

Answer 2

Mechanical nociceptors
Polymodal nociceptors
Thermal nociceptors

Question 3

Mechanical nociceptors

Answer 3

Stimulated by intense pressure

Have fast conducting myelination - give rise to sharp fast (1st) pain (localised)

Question 4

Polymodal nociceptors

Answer 4

Respond to multiple stimuli

Afferents are C fibres

Question 5

C fibres

Answer 5

Slower than A delta fibres - unmyelinated
Result in slow (2nd) pain - aching or burning natures
High threshold thermo, mechano and chemical receptors

Question 6

Thermal nociceptors

Answer 6

C fibre afferents

Respond to extremes of hot and cold

Question 7

Primary hyperalgesia

Answer 7

Occurs within areas of damaged tissue

Question 8

Secondary hyperalgesia

Answer 8

Occurs ~ 20mins after an injury, tissues surrounding a damaged area may become supersensitive

Question 9

What is pain proportionate to

Answer 9

Nociceptive input

Question 10

Pain pathways

Answer 10

A delta and C fibres enter dorsal horn and interact w/ projection neurons
Ascension via spinothalamic tract to thalamus
3rd order neurons project and terminate in the 1’ somatosensory centre - determine which region of body is experiencing pain

Question 11

Limbic cortex

Answer 11

Emotional centre

Tells us pain is unpleasant and concerning

Question 12

Molecular sensor for noxious heat stimuli

Answer 12

TRPV1 (capsaicin - chilli)

Question 13

Molecular sensor for noxious mechanical stimuli

Answer 13

TRPA1
TRPV4
Piezo

Question 14

Molecular sensor for noxious chemical stimuli

Answer 14

ASIC
TRPA1
TRPV1

Question 15

Molecular sensors for noxious cold stimuli

Answer 15

TRPM8 (menthol)

TRPA1

Question 16

Molecular sensor for ATP

Answer 16

ATP comes from damaged tissue

P2X3

Question 17

What happens when molecular sensor channels have been opened

Answer 17

Triggers an influx of Na+ —-> causing an action potential

Mediated by Na channels (1.8 and 1.9)

Question 18

Where do projection neurons cross to

Answer 18

Cross to diagonal side of dorsal horn (ventral aspect)

Question 19

Anatomy of pain pathways

Answer 19

Transduction
Transmission
Modulation
Perception

Question 20

Transduction

Answer 20

Conversion of noxious stimuli into electrical energy

Question 21

Transmission

Answer 21

Electrical stimulus is sent to the dorsal horn of the spinal cord and synapse at the 2nd order neuron

Question 22

Modulation

Answer 22

Inhibition vs amplification of signal (facilitated by EAA)

Question 23

Inflammatory soup

Answer 23

ATP
Bradykinin
PGE2
Serotonin
Histamines
COX-2 activation
Substance P

Question 24

PGE2

Answer 24

Prostaglandins

Question 25

NGF

Answer 25

Nerve growth factor

Question 26

What happens during transduction

Answer 26

Afferent fibres enter into dorsal horn and transmit signal to WDR neurons at diff laminae

Question 27

WDR neurons

Answer 27

Wide Dynamic Range neurones
Receive stimulation from both small diameter and big diameter fibres
Found in lamina V

Question 28

EAA

Answer 28

Excitatory Amino Acids

Question 29

Endogenous relievers of pain

Answer 29

Opioids
Gate theory (TENS)
NSAIDs
Local anaesthetic

Question 30

How do opioids work as an endogenous relievers of pain

Answer 30

Produce analgesia via binding and acting on opioid receptors causing body to produce endorphins - inhibit ascending pathway

Question 31

Types of pain

Answer 31

Physiological (nociceptive) pain
Pathological (neuropathic) pain
Psychogenic pain

Question 32

Pathological pain

Answer 32

Caused by damage of nerve pathway

Question 33

Psychogenic pathway

Answer 33

In depression and anxiety

Question 34

Main pain gates

Answer 34

Spinal gate
Brain stem gate
Thalamic gate

Question 35

Gate control theory

Answer 35

Concurrent activity in large-diameter (Aβ) primary afferents reduces the transmission of pain signals in small-diameter (Aδ and C) afferents due to inhibitory neuron at lamina II
Explains why rubbing skin (exciting tactile and pressure receptors) relieves pain

Question 36

Spinoreticular pathway

Answer 36

Ascension tract for pain detected by C fibres

Question 37

Where do pain pathways pass before reaching thalamus

Answer 37

Medulla, pons and midbrain

Spinothalamic and spinoreticular pathways cross at diff levels

Question 38

A- alpha fibres

Answer 38

Motor neurones

Question 39

A-beta fibres

Answer 39

Large diameter fibres

Transmit info about touch and pressure - mechanoceptor

Question 40

When is infl soup released

Answer 40

In response to injury form leaky blood vessels and damaged tissues
Directly excites nociceptors or makes them more sensitive to other agents

Question 41

NSAIDs pain relieving mechanisms

Answer 41

Inhibit COX enzymes - no PGE2 or leukotrienes produced

Question 42

Local anaesthetic pain relieving mechanism

Answer 42

Reversibly blocks the conduction of action potentials by blocking Na+ channels on axon

Question 43

Stimulation of inhibitory interneuron at lamina II

Answer 43

Stimulated by A-beta fibres