Sensory Receptors

Question 1

What are the five basic types of sensory receptor?

Answer 1

Mechanoreceptors
Thermoreceptors 
Nociceptors (pain receptors) 
Electromagnetic receptors (rods and cones) 
Chemoreceptor

Question 2

What do mechanoreceptors do?

Answer 2

detect mechanical compression / stretching of the receptor or tissue

Question 3

What do thermoreceptors do?

Answer 3

detect changes in temperature (cold and warmth receptors)

Question 4

What do nociceptors (pain receptors) do? (I’ll give you three guesses)

Answer 4

detect physical or chemical damage of tissues

Question 5

What do electromagnetic receptors (rods and cones) do?

Answer 5

detect light on retina of eye

Question 6

What do chemoreceptors do?

Answer 6

Transduces a chemical substance (endogenous or induced) to generate a biological signal
e.g., taste, smell, arterial oxygen level, osmolality, blood carbon dioxide

Question 7

What category of receptor provide the tactile senses of the skin (epidermis and dermis)?

Answer 7

cutaneous mechanoreceptors

Question 8

What types of cutaneous mechanoreceptors are there in the skin?

Answer 8

Free nerve endings
Expanded tip endings
    - Merkel’s discs
Spray endings
Ruffini’s endings
Encapsulated endings
    - Meissner’s corpuscles
Hair end-organs

Question 9

What types of cutaneous mechanoreceptors are there in the deep tissue that provide deep tissue senses?

Answer 9

Free nerve endings
Expanded tip endings
Spray endings
    - Ruffini’s endings
Encapsulated endings
    - Pacinian corpuscles
Muscle endings
    - Muscle spindles
    - Golgi tendon organs

Question 10

What two corpuscles act as touch receptors?

Answer 10

Pacini’s corpuscle

Meissner’s corpuscle

Question 11

Describe Pacini’s corpuscle

Answer 11

• Pacini’s corpuscle
• largest mechanoreceptor - 2mm long
• Onion like encapsulation of nerve endings
• Found in deep layers of dermis
• Detects high frequency (40-500Hz) vibration
• Aβ fibres - glabrous & hairy skin
• Rapidly adapting due to a slick viscous fluid between the layers
• Has a low activation threshold i.e. is sensitive

Question 12

Describe Meissner’s corpuscle

Answer 12

• Encapsulated nerve endings similar to Pacini’s but much smaller
• Stacks of discs interspersed with nerve branch endings
• Found between dermal papillae
• detects touch, flutter & low frequency vibration (2-40Hz)
• Aβ fibres - glabrous skin types
• Rapidly adapting - low activation threshold (sensitive)

Question 13

What receptors act as pressure/touch receptors?

Answer 13

Merkel disks

Hair follicles

Question 14

Describe Merkel discs

Answer 14

• Non-encapsulated nerve endings
• Consist of a specialised epithelial cell + nerve fibre
• Found just under the skin surface in for example the finger tips – good discrimination - detects static touch and light pressure
• Aβ fibres - all skin types
• Slowly adapting - low activation threshold (sensitive)
• Work with Meissner’s corpuscles to help determine texture

Question 15

Describe hair follicles

Answer 15

• Embedded in skin – innervated by nerve ending wrapped around its follicle
• detect muscular movements of the hair (erector muscle) and external displacements of hair

Question 16

Name a stretch receptor?

Answer 16

The Ruffini corpuscle

Question 17

Describe the Ruffini corpuscle

Answer 17

• Encapsulated nerve ending
• Nerve ending weave between collagen fibres which activate the nerve when they are pulled longitudinally
• responds to skin stretch and is located in the deeper layers of the skin as well as tendons and ligaments
• Aβ fibres - all skin types but especially abundant in hands and fingers as well as soles of feet
• Slowly adapting - low threshold activation (sensitive)

Question 18

What are muscle spindles?

Answer 18

Main proprioceptors that provide information about the state of musculature

Question 19

Where do muscle spindles lie?

Answer 19

Muscle spindles lie within muscles in parallel with skeletal muscle fibres
Particularly numerous in fine motor control muscles (e.g. eyes, hands)

Question 20

What are muscle spindles innervated by?

Answer 20

by y(gamma)-motoneurons (efferents) and group Ia and II afferent fibres

Question 21

What is the difference between afferent and efferent neurons?

Answer 21

Afferent neurons are sensory neurons that carry nerve impulses from sensory stimuli towards the central nervous system and brain, while efferent neurons are motor neurons that carry neural impulses away from the central nervous system and towards muscles to cause movement

Afferent - sensory
Efferent - motor

Question 22

What do the afferents and efferents do in muscle spindles

Answer 22

Afferents respond to muscle stretch while y(gamma)-efferent activity regulates the sensitivity of the spindle

Question 23

What are Golgi tendon organs?

Answer 23

Main proprioceptors that provide information about the state of musculature
Respond to degree of tension within the muscle
Group Ib afferent fibres relay information to CNS (particularly spinal cord and cerebellum)

Question 24

Where are Golgi tendon organs found?

Answer 24

Golgi tendon organs lie within tendons in series with contractile fibres

Question 25

What is the difference between a generator potential and a receptor potential?

Answer 25

Generator potential refers to potential caused by a stimulus to a NERVE ENDING
Receptor potential refers to potential caused by stimulus to a RECEPTOR CELL

Question 26

What does a generator potential do?

Answer 26

Generates action potentials in a sensory neuron

Question 27

What does a receptor potential do?

Answer 27

Affects amount of neurotransmitter released by receptor cell onto sensory neuron

Question 28

Discuss receptor potential generation in a pacini corpuscle?

Answer 28

Tip unmyelinated – nerve fibre myelinated before leaving corpuscle

Compression anywhere on outside of corpuscle elongates, indents/deforms central fibre

Receptor potential induces local current flow (Na+ current) which spreads along nerve fibre

At 1st node of Ranvier local current flow depolarizes fiber membrane at this node, which sets off action potentials to CNS

Question 29

Discuss the relationships between receptor potential and action potential generation

Answer 29

When receptor potential (from receptor) rises above threshold in nerve fiber - action potentials fire

Amplitude of receptor potential increases rapidly at first then less rapidly at high stimulus strength

The more receptor potential rises above threshold level, the greater the action potential frequency

APs generated in a sensory nerve at a frequency directly related to stimulus size

_F_o_r_A_p_e_B_r_a_i_n
Receptor potential go up
Action potential happen more often
Should be calculable

Question 30

What happens to the generator potentials of sensory receptors that adapt more rapidly?

Answer 30

Their generator potential adapts more quickly too: Impulses per second will rapidly decrease after initial stimulus

Question 31

What cutaneous mechanoreceptor would respond to a light brush?

Answer 31

Hair follicles

Question 32

What cutaneous mechanoreceptor would respond to dynamic deformation?

Answer 32

Meissner corpsucle

Question 33

What cutaneous mechanoreceptor would respond to vibration?

Answer 33

Pacinian corpsucle

Question 34

What cutaneous mechanoreceptor would respond to indentation depth?

Answer 34

Merkel cell - neurite complex

Question 35

What cutaneous mechanoreceptor would respond to stretch?

Answer 35

Ruffini corpsucle

Question 36

What cutaneous mechanoreceptor would respond to touch?

Answer 36

C - fibre LTM (Low threshold mechanoreceptors)

Question 37

What cutaneous mechanoreceptor would respond to injurious forces?

Answer 37

Mechano-nociceptor

Polymodal nociceptor

Question 38

What are slowly adapting receptors that detect continuous stimulus strength called?

Answer 38

Tonic receptors

Question 39

What are rapidly adapting receptors that detect continuous stimulus strength called?

Answer 39

Rate receptors/movement receptors/phasic receptors

Question 40

What is the precision of localisation of a particular stimulus is determined by?

Answer 40

Size of individual nerve fibre receptive field

Density of sensory units

Amount of overlap in nearby receptive fields

Question 41

What is receptive field distribution?

Answer 41

Different sensory modalities used by brain to describe World around us

Question 42

Why is receptive field distribution important?

Answer 42

Quality of information relates directly to ability to comprehend them
Higher the resolution, higher the number of modalities for a given situation, the better the understanding

____
Sometimes we gotta know all about shit

Question 43

Give an example of two cutaneous mechanoreceptors with different receptive field distribution?

Answer 43

Pacini’s corpuscles and Meissner’s corpuscles are both sensitive, but have different receptive field sizes

- Pacini corpuscles have broad receptive field
- Meissner’s corpuscles and Merkel’s disks are very small

Question 44

What is the benefit of a small receptive field distribution?

Answer 44

Small receptive fields allow high spatial resolution

Question 45

What does two point discrimination describe?

Answer 45

minimum distance at which two points can be perceived as distinct

Question 46

What is two point discrimination a result of?

Answer 46

receptive field size and receptor density in area

Question 47

what does two point discrimination not represent?

Answer 47

sensitivity to stimulus

Question 48

What is lateral inhibition?

Answer 48

Information from afferent neurons whose receptors are at edge of a stimulus are strongly inhibited compared to information from the stimulus’ centre

Question 49

What does lateral inhibition aid?

Answer 49

Aids in enabling localisation of stimulus

Question 50

What is the dorsal column–medial lemniscus pathway?

Answer 50

A sensory pathway of the central nervous system that conveys sensations of fine touch, vibration, two-point discrimination, and proprioception (position) from the skin and joints.

Question 51

Where is the dorsal column?

Answer 51

Dorsal column (Fasciculus gracilis) exists at all levels of the spinal cord

Question 52

What are the three groupings of neurons present in the dorsal column–medial lemniscus pathway?

Answer 52

first-order neurons (neuron I)
second-order neurons (neuron II)
third-order neurons (neuron III)

Question 53

What are the first order neurons (neuron I)the dorsal column/medial lemniscus?

Answer 53

Sensory neurons located in the dorsal root ganglia represented from lower (T6-S5) and upper limbs (C1-T5)

Question 54

What are the second order neurons (neuron II)the dorsal column/medial lemniscus?

Answer 54

Second-order neurons (neuron II) in the nucleus gracilis and cuneatus cross in the midline to form the medial lemniscus (and so make contact with neuron I), ascends through medulla, pons & midbrain to thalamus

Question 55

What are the third order neurons (neuron III) in the dorsal column/medial lemniscus?

Answer 55

Axons of third-order neurons (neuron III) in thalamus travel in the internal capsule and terminate in the somatosensory cerebral cortex

Question 56

Where do second order neurons (neuron II) terminate in the dorsal column/medial lemniscus?

Answer 56

Terminates in the contralateral ventral posterolateral nucleus of the thalamus

Question 57

What do first order neurons form in the direct spinothalamic tract?

Answer 57

dorsal root ganglion cells (neuron I) synapse with neurons of nucleus proprius

Question 58

How do the second order neurons ascend the spine in the direct spinothalamic tract?

Answer 58

Second-order neurons (neuron II) cross via the anterior white commissure & enter contralateral white matter
Ascend in spinothalamic tract

Question 59

Where are the third order neurons (neuron III) in the direct spinothalamic tract?

Answer 59

Third-order neurons (neuron III) located in the ventral posterolateral nucleus of the thalamus
Axons of third-order neurons project to primary sensory cortex

Question 60

How does the somatosensory cortex receive sensory information?

Answer 60

Sensory information passes through the thalamus to the primary sensory cortex

Question 61

Where is the somatosensory cortex located?

Answer 61

In a strip posterior to the post central sulcus of the brain

Question 62

How is sensory information projected in the somatosensory cortex?

Answer 62

in a topographical manner to this area

Question 63

How is the somatosensory cortex organised?

Answer 63

Areas of higher discrimination/senses having a larger proportion of the space