Sensory Nervous System and Special Senses

Question 1

From which peripheral nervous systems do sensory nerves innervate and collect information from?

Answer 1

Somatic (vol) NS - Sensory nerves innervate and collect information from skeletal muscles, skin and joints.
Autonomic (unvol) NS - Sensory nerves innervate and collect information from smooth muscles, cardiac muscle and glands.

Question 2

What is the common pathway for the detection of senses?

Answer 2

1) Detection from a receptor
2) Amplification
3) Change in membrane potential
4) Firing of action potential to the CNS.

Question 3

Do ions move readily across the cell membrane, if not, what do they use in order to get across?

Answer 3

No.
Ions will use specifically-gated channels and protein pumps in order to move across the membrane (via facilitated diffusion).

Question 4

What do ions depend on in order to move across the membrane?

Answer 4

1) Concentration differences (high to low)
2) Voltage differences (positive - negative v/v)
Across an ELECTROCHEMICAL gradient

Question 5

What is the somatosensory cortex the same as?

Answer 5

The somatosensory cortex is another name for the sensory area (a lobe in the cerebral hemisphere - parietal lobe just past the central sulcus)

Question 6

Describe the somatosensory pathway:

Answer 6

1) A stimulus is detected by a specific receptor
2) The 1st order neurone transmits sensory information to the 2nd order neurone in the spinal cord.
3) The 2nd order neurone (afferent neurone) will synpase with the 3rd order neurone in the Thalamus
4) The 3rd order neurone transmits the sensory information to the cerebral cortex.
5) The cell bodies in the somatosensory area of the cerebral cortex processes this sensory information (concious perception of the stimulus)

Question 7

In what nervous systems are the order neurones (in the somatosensory pathway)?

Answer 7

1st order (PNS)
2nd order and 3rd order (CNS)

Question 8

Which nerves are contained in the dorsal and which nerves are contained in the ventral roots (coming from the spinal cord)?

Answer 8

Dorsal - Sensory afferent nerves

Ventral - Motor efferent nerves

Question 9

Where do the ventral roots extend out of the spinal cord from?

Answer 9

The anterior of the spinal cord (white matter - nerve fibres)

Question 10

Where do the dorsal roots enter the of the spinal cord from?

Answer 10

The posterior of the spinal cord (white matter)

Question 11

After the ventral root nerves leave the spinal cord and before the dorsal root nerves enter the spinal cord, what happens?

Answer 11

The ventral root and dorsal root will clump together in order to form the MIXED NERVE FIBRE.

Question 12

What are dermatones?

Answer 12

Areas of skin that are innovated by a branch of sensory nerve fibres that come from a single spinal nerve. They are able to detect different stimuli from these areas of the skin.

Question 13

Does each spinal nerve (31 spinal nerves) have a branch of sensory nerve fibres innervated an area of the skin, in order to create dermatones?

Answer 13

Yes - each spinal cord does!

Question 14

Why are dermatones useful?

Answer 14

They are a useful diagnostic tools - in order to discover the origin of injury or infection in a spinal nerve or dorsal root nerve.

Question 15

What is referred pain?

Answer 15

If you have a disturbance in the spinothalamic tract (1st, 2nd or 3rd order neurone) it can feel like the pain is coming from where this path originated from (the 1st order neurone - sensory ending).

Question 16

The sensory nerve endings of the 1st order neurones can either be:

Answer 16

1) Encapsulated (with connective tissue or GLIAL cells)
or
2) Unencapsulated (without connective tissue)

Question 17

If a sensory nerve ending is encapsulated then…

Answer 17

it is more sensitive to a stimulus

Question 18

What are the 4 main receptors that sense touch (2 that sense steady pressure and 2 that sense vibrations):

Answer 18

Steady Pressure: 1) Ruffini endings 2) Merkel endings

Vibrations: 1) Pacinian corpuscles 2) Meissner corpuscles

Question 19

What is noiciception?

Answer 19

The feeling or perception of pain

Question 20

What are noiciceptors?

Answer 20

Free nerve endings that signalsTISSUE DAMAGE

Question 21

How are noiciceptors stimulated?

Answer 21

When a tissue is damaged they will release inflammatory mediators (histamines, cytokines and chemokines) which will stimulate the noiciceptors

Question 22

What is a noxious stimulus?

Answer 22

Pain

Question 23

Explain how the pain intensity changes and which noiciceptor is responsible for this perception of different pain intensities?

Answer 23

1st pain = sharp, quick, localised pain (caused by the A-delta noiciceptors)
2nd pain = long, nagging, diffuse pain (caused by the C noiciceptors)

Question 24

What is the difference between A-delta fibres and C-fibers?

Answer 24

A-delta = myelination (transmission of AP is fast)

C fibres = un-myelinated

Question 25

What are the 4 different types of pain:

Answer 25

1) Noiceptive pain: Pressure, chemical, hot, cold
2) Inflammation pain: tissue pain
3) Neuropathic pain: Neural lesion
4) Dysfunctional pain: Abnormal processing of information by the nerve

Question 26

What is important to remember about neuropathic and dysfunctional pain?

Answer 26

The pain is caused by the nerve itself rather than an external stimulus

Question 27

An example of how neural lesions can occur?

Answer 27

A Herniated disc can cause a neural leision in a spinal nerve - this causes neuropathic pain anywhere along this spinal nerve tract

Question 28

How is referred pain caused?

Answer 28

1) A visceral organ and area of skin share the same dermatone (i.e. a branch of nerve fibres innovates the skin and visceral organ and this branch leads to the same single nerve).
2) Tissue damage occurs in the visceral organ.
3) Noiciceptors detect the pain and information is sent along the branch of nerve fibres to the single spinal nerve.
4) As the brain doesn’t normally detect pain from this nociceptor - it wrongly assumes that the pain is coming from the skin (as these nociceptors are normally stimulated).
5) In this way the brain perceives pain in the skin

Question 29

What are the 5 different differences between chronic pain and acute pain?

Answer 29

1) Chronic pain is caused by no specific injury/disease whereas acute pain is caused by a specific injury/disease
2) Chronic pain serves no biology function whereas acute pain does serve a biological function.
3) Chronic pain is associated with psychological functioning whereas acute pain is associated with the F/F responses of the sympathetic NS.
4) Chronic pain can last up to more than 6 months, whereas acute pain is short lasting
5) Chronic pain is hard to treat and acute pain is easier to treat.

Question 30

What 3 things can cause an absence of pain perception?

Answer 30

1) Diabetes
2) Drugs
3) Genetics

Question 31

What 2 things control pain?

Answer 31

1) Chemicals (Analgesics or endogenous opiods - e.g. endorphins)
2) The Gate Theory of Pain

Question 32

What 4 things are involved in the gate theory of pain?

Answer 32

1) Inhibitory neurones
2) Projection neurones
3) C-fibres (nociceptive)
4) alpha-beta fibres (non-nociceptive)

Question 33

What happens when the alpha-beta fibres are stimulated in the gate theory of pain?

Answer 33

1) The inhibitory neurones are stimulated - which inhbits the projection neurone from projecting the pain.
2) The projection neurones are stimulated - so the inhibited pain is projected.
No pain is percieved.

Question 34

What happens when the C fibres are stimulated in the gate theory of pain?

Answer 34

1) The inhibitory neurones are inhibited - so the projection of pain isn’t inhibited by the inhibitory neurones, and so pain is projected
2) The projection neurones are stimulated.
Pain is percieved.

Question 35

What happens when the alpha-beta fibres and the C fibres are both stimulated in the gate theory of pain?

Answer 35

It is more likely that the inhibitory neurones will be stimulated by alpha-beta fibres than inhibited by the C fibres. Therefore, less pain or no pain is perceived.

Question 36

Does the detection of an itch use the same pathway as pain?

Answer 36

No

Question 37

Which areas of the brain are stimulated in order to detect an itch?

Answer 37

The areas associated with:

1) Disagreeable feelings
2) Irresistible urges

Question 38

What are special senses?

Answer 38

Detect information about the external environment and send this information to the CNS.

Question 39

What are the 4 special senses?

Answer 39

1) Vision
2) Hearing
3) Smell
4) Taste

Question 40

What stimulus do the eyes detect?

Answer 40

The eyes detects visible light in the form of different colours

Question 41

Why are eyelashes important?

Answer 41

Prevent foreign material from entering the eye

Question 42

What is the important of eyelids?

Answer 42

Allows us to blink to produce tears that lubricate the eye and keeps dust out

Question 43

What is the pupil?

Answer 43

Dark circle in the centre of the eye that lets light in. The pupil can dilate to allow more light in or constrict to allow less light in

Question 44

What is the iris?

Answer 44

The coloured region around the pupil

Question 45

What is the conjunctiva?

Answer 45

It is the mucus epithelial membrane that lines the outer surface of the eye and the inner surface of the eyelid.

Question 46

What is the role of the lacrimal gland and nasolacrimal duct?

Answer 46

Lacrimal glands continuously produce tears and push them across the eye. Tears are collected in the nasolacrimal duct and into the eyeball.

Question 47

What is the importance of the lacrimal gland producing tears?

Answer 47

Keeps the conjunctiva clean and moist

Question 48

What is conjunctivitis?

Answer 48

Inflammation of the conjunctivitis caused by infection or physical abrasion.

Question 49

What is the name of the bony casing that protects the eyeball?

Answer 49

The Orbit

Question 50

What is the eyeball divided up into?

Answer 50

2 fluid filled cavities. Posterior and Anterior

Question 51

What seperates the 2 fluid filled cavities of the eyeball?

Answer 51

Lens

Question 52

What is the name of the 3 TUNIC layers making up the wall of the eyeball?

Answer 52

1) Neural tunic (retina)
2) Vascular tunic
3) Fibrous tunic
(inside - out)

Question 53

What is contained in the neural tunic of the eyeball (retina)?

Answer 53

All of the photoreceptors (rods and cones) that detect light.
Rods - more sensitive to light (enable us to see at night)
Cones - less sensitive to light (but enable us to see different colours)

Question 54

Which photoreceptor is more numberous in the retina?

Answer 54

Rods

Question 55

What forms the optic nerve?

Answer 55

The photoreceptors (rods and cons) in the retina will synapse with sensory receptors and sensory receptors will converge to form the optic nerve

Question 56

What instrument can be used to view the retina through the pupil?

Answer 56

An Ophthalamoscope

Question 57

What is the optic disc?

Answer 57

The optic disc is located in the middle of the eye. It is where the optic nerve leaves the eye and blood vessels enter/leave the eye.

Question 58

What is the optic disc sometimes referred to as?

Answer 58

The blind spot. As the optic disc is part of the retina that doesn’t contain photoreceptors.

Question 59

What is special about the MACULA LUTEA in the retina?

Answer 59

In the centre of the Macula Lutea contains the FOVEA CENTRALIS.
In the Fovea Centralis, there are ONLY cone cells. This is because most of the light is focused on the fovea centralis and cone cells are less sensitive to light so need all the light they can get.

Question 60

How does vision become blurry when someone suffers from Diabetic Retinopathy?

Answer 60

As their blood glucose is high. This damages the retinal blood vessels. They become more permeable. Plasma fluid leaks out = oedema. This causes blurry vision.

Question 61

What is contained in the vascular tunic?

Answer 61

1) Blood Vessels
2) Smooth Muscle
Special Components:
1) Iris
2) Ciliary Body
3) Choroid

Question 62

What does the iris contain and what is its function?

Answer 62

The iris is a pigmented area. It contains smooth muscle fibres.
If the smooth muscle fibres contract = the pupil dilates
If the smooth muscle fibres relax = the pupil constricts

Question 63

What is the function of the ciliary body?

Answer 63

It holds the lens in place

Question 64

What is the Choroid?

Answer 64

The Choroid is the largest part of the eyeball and it contains blood vessels.

Question 65

What are the 2 parts of the fibrous layers of the eyeball?

Answer 65

1) Cornea

2) Sclera

Question 66

What is the cornea?

Answer 66

The transparent layer covering the iris and pupil

Question 67

What is the sclera?

Answer 67

The white part of the eye. Muscle is connected to the sclera and pulls on the sclera in order for the eye to move in different directions.

Question 68

What is the posterior part of the eye filled with and what is its function?

Answer 68

VITREOUS HUMOUR.

Jelly-like substance that maintains the pressure of the eye.

Question 69

What is the anterior part of the eye filled with and what is its function?

Answer 69

AQUEOUS HUMOUR.

Water-like substance that nourishes the lens and cornea.

Question 70

How often is the aqueous chamber replaced in the anterior cavity?

Answer 70

90 minutes.

Question 71

What is the name given to the part where the 2 optic nerves join together?

Answer 71

OPTIC CHIASM

Question 72

Describe the visual pathway?

Answer 72

1) Light comes in through the iris.
2) Light is focused on the retina by the lens.
3) Photoreceptors in the retina will detect the light stimulus.
4) Action potentials will occur in the optic nerve.
5) The 2 optic nerve connect (forming the Optic Chiasm).
6) The axons from each eye (contained within each of the optic nerves) either enter the brain on the same side or cross in the optic chiasm to the other side of the brain.
7) The axons will synapse at the vision area of the cerebral cortex (in the occupitial lobe)

Question 73

What is the sense of smell a response to?

Answer 73

Oderants entering the nasal cavity

Question 74

What doe the sense of smell also affect?

Answer 74

Taste

Question 75

Where is the olfactory epithelium located?

Answer 75

In the upper regions of the nasal cavity

Question 76

What cells are contained in the olfactory epithelium?

Answer 76

Pseudo-stratified ciliated columner goblet cells (that produce mucous) and olfactory cells (sensors)

Question 77

Describe the smell pathway:

Answer 77

1) Oderants enter the nasal cavity and stick to the mucus (produced by the olfactory epithelium).
2) The oderants stimulate the olfactory cells (sensors).
3) Action potentials are sent down axons (axons combine to form the olfactory nerve)
4) These axons synapse with axons in the OLFACTORY BULB.
5) Axons from the olfactory bulb will synapse with axons that run down the OLFACTORY TRACT.
6) The axons are taken to the olfactory area of the cerebral cortex (in the temporal lobe).

Question 78

Name the 4 locations where taste buds are found?

Answer 78

1) Soft Palette
2) Pharynx
3) Epiglottis
4) Tongue

Question 79

What do taste buds contain?

Answer 79

1) Taste cells - with hair-like projections, that extend out on the surface of the taste pores
2) Taste pores
3) Axons leaving the basal end of the taste pore
4) Sensory receptors - on the hair-like projections of the taste cells.

Question 80

The pathway for taste to be detected and perceived?

Answer 80

1) Tastants will bind to the sensory receptors on the hair-like projections.
2) This will stimulate an action potential down the sensory neurones, that leave the taste pore at the basal end.
3) 3 nerves are able to carry this action potential to the brain:
- Facial nerve
- Glossopharyngeal nerve
- Vegus nerve
4) These nerves will take this information to the taste centre of the cerebral cortex (in the temporal lobe).

Question 81

What are the 5 basic tastes:

Answer 81

1) Sweet
2) Sour
3) Bitter
4) Umami
5) Salty

Question 82

All taste buds, will have receptors that sense all tastes. However, some will have more receptors specific to a particular taste.

Answer 82

Sweet - front
bitter - back
Sour - sides
(of the tongue)

Question 83

The ear is the organ or hearing and…

Answer 83

…balance.

Question 84

What is the ear divided up into?

Answer 84

1) Outer ear
2) Middle ear
3) Inner ear

Question 85

What are the 3 components of the outer ear?

Answer 85

1) Auricle
2) External acoustic meatus
3) Tympanic membrane

Question 86

What is the Auricle?

Answer 86

Fleshy outer membrane of the ear, supported by elastic cartlidge

Question 87

What is the external acoustic meatus?

Answer 87

A pathway through the temporal bone.
It contains CERUMINOUS GLANDS and hairs.
The ceruminour glands produce ear wax (CERUMEN).
The ear wax and hairs will prevent any foreign objects from reaching the tympanic membrane

Question 88

What is the tympanic membrane?

Answer 88

(aka ear drum)
When vibrations hit the ear drum, the ear drum will vibrate.
It seperates the outer ear from the middle ear.

Question 89

What is the middle ear?

Answer 89

Air filled cavity that is seperated from the outer ear by the tympanic membrane and the inner ear by the oval and round windows.

Question 90

What 3 temporal ossicles (ear drums) are found in the middle ear?

Answer 90

1) Malleus
2) Incus
3) Stapes

Question 91

What is the function of the temporal ossicles?

Answer 91

To transmit the vibrations from the tympanic membrane to the oval window.

Question 92

What happens if a sound is really loud and the tympanic membranes vibrations are hard?

Answer 92

Muscles (attached to the temporal ossicles) will pull on the temporal ossicles away from the tympanic membrane. So, the vibrations are not transmitted to the oval window.

Question 93

What tube connects the middle ear with the nasopharynx?

Answer 93

Auditory tube

Question 94

What is the function of the auditory tube?

Answer 94

To equalise pressure

Question 95

What does the inner ear contain?

Answer 95

1) Semi-circular canals
2) Vestibule
3) Cochlear
4) Vestibulocochlear nerve

Question 96

What are the semi-circular canals and vestibule concerned with?

Answer 96

Balance

Question 97

What is the cochlear concerned with?

Answer 97

Hearing

Question 98

What is the role of the vestibulocochlear nerve?

Answer 98

It is connected to the semi-circular canals, vestibule and cochlear - and transmits this information to the brain.

Question 99

Describe the sound transmission process?

Answer 99

1) Sound is collected by the auricle and transmitted down the external acoustic meatus.
2) The sound waves causes the tympanic membrane to vibrate.
3) This causes the auditory ossicles to vibrate (malleus, incus and stape)
4) This causes the oval window to vibrate
5) This causes the FLUID in the cochlear to vibrate.
6) This stimulates the sensory receptors
7) Action potentials are sent down the cochlear axons (in the vestibulocochlear nerve).
8) Action potentials are transmitted to the cochlea nucleus in the brain stem.
9) Action potentials are sent from the cochlea nucleus to the auditory area of the cerebral cortex (at the top of the temporal lobe).

Question 100

What does the vestibule contribute to balance perception?

Answer 100

It is concerned with the position of the head (static equillibrium)

Question 101

What does the semi-circular canals contribute to balance perception?

Answer 101

It is concerned with the movements of the head and the rate of these movements (kinetic equillibrium)

Question 102

How is information sent from the vestibule and semi-circular canals to the brain?

Answer 102

1) Information is sent to the vestibular axons in the vestibulocochlear nerve.
2) This information is then sent to the vestibular nucleus in the brain stem.
3) This information is sent to the cerebellum.