week 4 sensory receptors and reflexes

Question 1

what are three types of sensory receptors

Answer 1

• mechanoreceptors (mechanical stimuli)
• proprioceptors (mechanoreceptors in joints and muscles)
• nociceptors (painful stimuli)

Question 2

what do mechanoreceptors (type of sensory receptors) respond to

Answer 2

• stimulated by mechanical stimuli (pressure, stretch, deformation)
• gives us skin sensations of touch and pressure (e.g. don’t squeeze an egg)

Question 3

what do proprioreceptors do (type of sensory receptors)

Answer 3

• they are mechanoreceptors in the joints and muscles

- they signal information about body or limb position (e.g. touching nose)

Question 4

what do nocicoptors do (type of sensory receptor)

Answer 4

• respond to painful stimuli

heat and tissue damage

Question 5

what is sensory modality

Answer 5

• the stimulus type that activates a particular receptor
• i.e. touch, pressure, joint angle, pain
• sensory receptors are highly sensitive to one specific energy form but they can be activated by other intense stimuli
  (e. g. poke in eye with stick, mechanical poke may cause visual stimulation by ‘seeing start’)

Question 6

how does sensory transduction in the skin work

Answer 6

• adequate stimulus in skin mechanoreceptors and proprioceptors is caused by membrane deformation (something impacts your skin)
• this activates stretch-sensitive ion channels
• ion channels open
• adequate stimulus causes generator/receptor potential
• when depolarisation reaches threshold action potentials fire

Question 7

what is the frequency coding of stimulus intensity in sensory nerves

Answer 7

• a larger stimulus causes a larger receptor potential and a higher frequency of action potentials

Question 8

what is a pacinian corpuscle

Answer 8

• a mechanoreceptor

- senses vibration

Question 9

what do Merkel’s receptors respond to

Answer 9

• sense steady pressure and texture

Question 10

what do meissner’s corpuscle respond to

Answer 10

• responds to flutter and stroking movements

Question 11

what does Ruffini corpuscle respond to

Answer 11

• skin stretch

Question 12

what are rapidly/moderately adapting receptors

Answer 12

• if stimulus persists and doesn’t stop then firing of action potentials will stop until stimulus is removed then we will get an action potential again
• e.g. pacinian and meissner’s corpuscles

Question 13

what are slowly adapting receptors

Answer 13

• if stimulus persists and doesn’t stop then action potentials won’t stop either, action potentials will stop once stimulus is removed
• e.g. markers discs and Ruffini endings

Question 14

why do nociceptors not adapt to persistent stimuli

Answer 14

• nociceptors do not adapt because it is important not to ignore painful stimuli

Question 15

what is the structure of a pacinian corpuscle

Answer 15

• it is a mechanoreceptor that responds to vibration
• made up of a militated nerve with a naked nerve ending
• enclosed by a connective tissue capsule of layered membrane lamellae, each layer is separated by fluid
• this gives it it’s rapidly adapting qualities

Question 16

how does the pacinian corpuscle respond

Answer 16

1. a mechanical stimulus deforms the capsule and nerve ending
2. this stretches the nerve ending and opens the ion channels
3. sodium influx causes local depolarisation and we get a receptor/generator potential
4. action potentials are generated and fire where myelination begins

Question 17

what is a receptive field in sensory receptors

Answer 17

• sensory neuron is activated by stimuli coming from a specific area called the receptive field
• this field can be large (so not as sensitive or specific) or small
• size of this receptive field increases when there is neuronal convergence (which is when there are more than one paths the signal can take to the brain, many neurones synapsed onto just one neurone)

Question 18

what does convergence of sensory neurones allow you to do

Answer 18

• convergence of three primary sensory neurones in the skin, convergence allows simultaneous sub-threshold stimuli from the 3 neurones to sum at the secondary neurone
• this forms a larger secondary receptive field and initiates action potentials
• so lots of convergence and a large secondary receptive field indicates a relatively insensitive area

Question 19

what is acuity

Answer 19

• that ability to locate a stimulus on the skin and differentiate it from another close by
• low actuity is caused by high convergence

Question 20

what helps us locate a stimulus so precisely in sensory receptors

Answer 20

• lateral inhibition

- the neurones near the stimulus are inhibited by the neurone being stimulated

Question 21

what are three types of proprioceptors

Answer 21

• muscle spindles (monitor muscle length, control reflexes and voluntary movements)
• golgi tendon organs (monitors tension on tendons)
• joint receptors (monitor joint angle and tension on joint)

Question 22

what is are muscle spindles in proprioceptors

Answer 22

• type of proprioceptor
• monitors muscle length
• controls reflexes and voluntary movements

Question 23

what are golgi tendon organs

Answer 23

• type of proprioceptor
• monitors tension on tendons
• tension produced by muscle contraction so monitoring muscle tension

Question 24

what are joint receptors

Answer 24

• type of proprioceptor

- monitor joint angle and tension on joint

Question 25

what do proprioceptors do

Answer 25

• send sensory info to the spinal cord and onto the brain and so control our voluntary movements
• muscle spindles and golgi tendon organs provide the sensory info to spinal cord neurones which can generate spinal reflex movements
• they provide sensory information to perceive limb and body position and movement in space = kinaesthesia

Question 26

what are intrafusal muscle fibres

Answer 26

• muscle spindles (type of proprioceptor)
• they are contained within capsule
• these lie in parallel with normal (extrafusal) muscle fibres

Question 27

what are the two types of intrafusal fibre

Answer 27

nuclear bag fibres = nuclei grouped together in middle

nuclear chain fibres = nuclei lined up in chain in the middle

Question 28

what is wrapped around the centre of intrafusal fibres

Answer 28

• Ia afferent nerves wrapped around centre

- this forms annulospiral ends

Question 29

which bit of the intrafusal fibres contain sarcomeres

Answer 29

• the ends, so the ends can contract

- the centre of the intrafusal fibres cannot contract and just get stretched when the ends contract

Question 30

what innervates the contraction of the ends of the intrafusal muscle fibres

Answer 30

• gamma motorneurones cause contraction of the ends of the intrafusal fibres

Question 31

what happens to centre of intrafusal spindle when the ends contract

Answer 31

• ends contract via gamma motorneurones
• this stretches the centre of the muscle spindles (stretch in annulospiral endings)
• this opens stretch sensitive ion channels
• this creates local changes in the generator potential, when muscle stretches there is an increase in action potentials (the quicker the muscle stretches the more action potentials)
• regenerative action potentials then run in Ia afferent nerves back to spinal cord

Question 32

what does resting membrane potential of intrafusal fibres (muscle spindle) depend on

Answer 32

• depends on length of muscle

- the faster the muscle contracts the more action potentials there are

Question 33

what happens when an agonist stretches

Answer 33

• the antagonist relaxes

Question 34

are tendons elastic or inelastic

Answer 34

inelastic

Question 35

how do muscles develop tension

Answer 35

• contracting to stretch the tendons creates tension
  (relaxed muscle = little to no tension)
  (passive contraction = bit of tension)
  (deliberate contraction = lots of tension)

Question 36

what happens to the golgi tendon organs during contraction

Answer 36

• increased tension in tendons

- stretches nerve endings (1b afferent) in golgi tendon organs and initiates action potentials in the 1b afferent fibres

Question 37

what is the arrangement of muscle spindles and golgi tendon organs in relation to muscle fibres

Answer 37

• muscle spindle lies in parallel with muscle fibres

- golgi tendon organs lie in series with muscle

Question 38

with nerves do muscle spindle and golgi tendon organs have

Answer 38

• muscle spindle = 1a
• golgi tendon organs = 1b
• 1a faster than 1b

Question 39

what happens to golgi tendon organs and muscle spindle during isometric contraction

Answer 39

(e. g. holding weight)
- golgi tendon organ 1b afferents fire action potentials
- muscle spindle 1a afferents do not fire action potentials

Question 40

what is alpha gamma co-activation in proprioception

Answer 40

• when muscle spindle 1a afferents report muscle shortening to brain and then gamma motor neurones fire action potentials to cause contraction of ends of intrafusal muscle (muscle spindle)
• this maintains spindle sensitivity to stretch (prevents them getting floppy)

Question 41

what is the stretch reflex

Answer 41

• you have muscle stretch (maybe due to holding heavy load, arm drops due to weight and muscle stretches)
• muscle spindles are stimulated (1a afferents fire)
• this causes a reflex muscle contraction
• muscle shortens to previous length (so you don’t drop heavy weight)
• so aim is to maintain length of muscle, stretch causes reflex contraction

Question 42

what are the three types of connections 1a afferents make in response to stretch

Answer 42

• 2 in spine, 1 in brain
  1. afferents directly contact alpha motorneurones in stretched muscle, causes rapid contraction of agonist muscle, this is a monosynaptic reflex (one synapse, no interneurones)
  2. afferents connect indirectly with antagonist muscle, spindle afferents activate inhibitory interneurones, this decreases activation of alpha motorneurons to antagonist muscle, antagonist muscle relaxes (agonist therefore contracts), this is called reciprocal inhibition
  3. spindle afferents travel up dorsal columns to thalamus and somatosensory cortex and tell the brain about the length of muscle

Question 43

what nerves are involved in the inverse stretch reflex which is mediated by the golgi tendon organ

Answer 43

• 1b afferent nerves

Question 44

what nerves are involved in the stretch reflex mediated by the muscle spindle

Answer 44

• 1a afferent nerves

Question 45

what is the inverse stretch relfex

Answer 45

• protects muscle against damage
• rapid relaxation of agonist and rapid contraction of antagonist
• avoids muscle contracting so hard that the tendon is ripped off the bone

Question 46

what happens in the inverse stretch reflex which is mediated by the golgi tendon organ

Answer 46

• muscle contracts and shortens
• this pulls on the tendon 1b afferent nerves in the golgi tendon organ which increases the firing of action potentials in the 1b
• activation of inhibitory interneurones to agonist muscle (agonist relaxes)
• activation of excitatory interneurones to antagonist muscle (antagonist contracts)
• info about muscle tension is sent ascends in dorsal columns to somatosensory cortex

Question 47

what is the flexor/withdrawal reflex

Answer 47

• nociceptors involved (type of proprioceptors which respond to pain)
• withdraw part of the body away from painful stimulus and in towards body (so flexes affected part)

Question 48

what are the steps in the flexor/withdrawal reflex

Answer 48

1. increased activity in the flexor muscle of the affected part via excitatory neurones
2. at the same time, antagonistic extensors inhibited via a number of excitatory and inhibitory interneurones
3. excitatory interneurones cross the spinal cord and excite the contralateral extensors (to balance out movement, one arm flex the other extends)
4. other interneurones cross the spinal cored and they inhibit the contralateral flexors
5. sensory info ascends to the brain in the contralateral spinothalamic tract
   (similar movements to walking)

Question 49

how is the golgi tendon organ reflex over-ridden

Answer 49

• consciously by voluntary input from the CNS
• so if you are holding important load such as baby and think I don’t want to drop this
• descending voluntary excitation of alpha motorneurones overrides the inhibition from the golgi tendon organ and maintains muscle contraction and so prevents the golgi tendon organ reflex

Question 50

how is the stretch reflex over-ridden

Answer 50

• strong descending inhibition in an anxious patient hyper polarises alpha motor-neurones and the stretch reflex can be hard to evoke
• so absence of stretch reflex doesn’t always mean nerve damage

Question 51

can the withdrawal reflex be overridden

Answer 51

• it can be … briefly
• you can mentally stop yourself from dropping say a bowl of hot soup because you know that it is going to burn your legs
• similarly, anticipating pain can increase the vigour of the withdrawal when a painful stimulus arrives

Question 52

what is facilitation in spinal reflexes

Answer 52

• like how if you burned your finger you would have a small withdrawal reflex but if you put your whole hand on a hot surface you would have a large withdrawal response and jump away
• so facilitation enhances the effect of sensory inputs
• so say you have receptors A,B,C, if A stimulated, it also depolarises B slightly and if C is stimulated is also depolarises B slightly, so if A and C are stimulated at the same time C will also reach threshold and therefore we will have a bigger reaction