How do we hear, taste and smell?

Question 1

What is audition and what is it important for?

Answer 1

Hearing - the sense of detecting sounds
Important for signalling and communication

Question 2

What is sound?

Answer 2

The movement or vibration of objects - movement alternately squeezes air molecules together and pulls them apart - this pressure wave spreads outward from the source of sound to the listener

Question 3

What is frequency and pitch?

Answer 3

rate of vibration in cycles per second i.e. Hertz (Hz)

Question 4

What is amplitude and loudness?

Answer 4

intensity of sound i.e. decibels (dB)

Question 5

What does your ear have to do to hear sound?

Answer 5

1. direct the sound waves into the hearing part of the ear
2. Sense the fluctuations in air pressure
3. Translate fluctuations into an electrical signal that brain can understand

Question 5

What is complexity and timbre

Answer 5

Most tones have a mixture of frequencies
Complexity determines timbre (eg. difference between violin and flute)

Question 6

What does the external ear do?

Answer 6

Captures, focuses and filters sound

Question 6

What are the 2 parts of the external ear?

Answer 6

Pinnae and ear canal

Question 7

What is the pinnae?

Answer 7

funnel-like structure that channels sound into the ear

Question 8

What is the function of the ear canal?

Answer 8

Narrowing amplifies sound waves towards the eardrum (tympanic membrane)

Question 9

What does the middle ear do?

Answer 9

Concentrates/amplifies sound energies

Question 10

What are the ossicles?

Answer 10

bones of the middle ear
Malleus (hammer), Incus (anvil) and stapes (stirrup)

Question 11

What does the inner ear do?

Answer 11

Converts vibrational energy into waves of fluid
Auditory part of the vestibulocochlear nerve

Question 12

What is the cochlea in the inner ear?

Answer 12

The auditory part of the vestibular nerve
Coiled structure (bony exterior with hollow compartments filled with fluid)

Question 13

What happens in the cochlea?

Answer 13

Vibrations from ossicles to oval window membrane sends waves through fluid filled cochlea
- Vibration transmitted to organ of corti via basilar membrane (structures in cochlea_
- movement of sensory hair cells transduce sound waves into neural activity which is sent along auditory nerve to brain

Question 14

What does the tonotopic basilar membrane do?

Answer 14

Vibrates when stapes moves fluids of inner ear.
Different sound wave frequencies cause peak bending of membrane at different points along its path

Question 15

What is the organ of corti and what does it do?

Answer 15

includes three rows of outer hair cells and one row of inner hair cells. Vibrations caused by sound waves bend the stereocilia on these hair cells via an electromechanical force.

Question 16

What is the auditory pathway to the brain?

Answer 16

The auditory nerve transmits auditory information up a series of nuclei to the cortex where perception occurs. These nuclei include 1) cochlear nucleus, 2) superior olivary nuclei, 3) lateral lemniscus, 4) inferior colliculus, and 5) medial geniculate nuclei.

Question 17

Where is the primary auditory cortex?

Answer 17

In temporal lobe within Heschl’s gyrus in the sylvian fissure
Tonotopic

Question 18

Where is the secondary auditory cortex?

Answer 18

Surrounds primary auditory cortex
Planum temporale - behind Heschl’s gyrus and superior temporal gyrus

Question 19

How do we hear pitch?

Answer 19

Enabled by tonotopic organisation
Each hair cell responds to a small range of frequencies based on location on basilar membrane.
Bipolar cell axons (form cochlear nerve) connect to only one hair cell each (order of these reproduces tonotopic representation)
- systematic representation maintained all the way to primary auditory cortex
(temporal coding - the rate of sound waves - also helps)

Question 20

How do we hear loudness?

Answer 20

Larger pressure changes produce more intense basilar vibration –> greater shearing of hair cells –> cochlear bipolar neurons fire more frequently
From this, auditory system determines changes in loudness

Question 21

How do we detect location?

Answer 21

Difference in timing at each ear and relative loudness are detected by nuclei in the brain stem that receive input from both left and right ventral cochlear nuclei.
Superior olive (medial) neurons respond to differences ARRIVAL TIME between each ear.
Superior olive (lateral) and trapezoid body neurons respond to differences in LOUDNESS
This info is conveyed to inferior colliculus in midbrain where an auditory spatial map aids localization of sound

Question 22

What is hearing loss?

Answer 22

decreased sensitivity to sound

Question 23

What is deafness?

Answer 23

loss of hearing - speech not perceivable with hearing aids

Question 24

When may hearing loss/deafness arise?

Answer 24

early or later in life - developmental or acquired (eg. damage from loud sounds/infections/side effect of drugs)

Question 25

How does conduction deafness occur?

Answer 25

Pathology of outer/middle ear: prevent vibrations reaching cochlea

Question 26

How does sensorineural deafness/hearing loss occur?

Answer 26

Originates from cochlear or auditory nerve lesions
Cochlea losses most common

Question 27

What is presbycusis and how many/who does it affect?

Answer 27

Age-related hearing loss
~70% of over 65s

Question 28

What are some potential causes of presbycusis?

Answer 28

-Changes in inner ear - slow decay and/or damage to sensory hair cells
-Long-term noise exposure
-Effects of high blood pressure/diabetes

Question 29

What happens when there is damage to left primary auditory cortex?

Answer 29

Deficit in differentiating speech sounds

Question 30

What happens when there is damage to right primary auditory cortex?

Answer 30

Deficit in discriminating musical sounds

Question 31

What happens when there is damage to bilateral auditory cortex?

Answer 31

Agnosia for sound - everything sounds the same/sound is confused

Question 32

What is the oldest sensory system?

Answer 32

Chemoreception - 500million yrs old

Question 33

What is chemoreception and what does it do?

Answer 33

Taste and olfaction work together to analyse stimuli - detects presence of specific chemicals - creates flavour (why we are less sensitive to flavour when we have a cold)

Question 34

What is olfaction?

Answer 34

Smell

Question 35

How many olfactory receptors are there?

Answer 35

Large, diverse set olfactory receptors coded in 350 genes, allowing differentiation of 10,000+ smells (Axel & Buck, 2000)

Question 36

How often do olfactory receptors need to be replaced due to hard work?

Answer 36

every 60 days

Question 37

What differs between substances in olfaction?

Answer 37

Sensitivity of olfactory receptors

Question 38

What 2 segments are in the nasal cavity?

Answer 38

respiratory segment and olfactory segment

Question 39

Where is the olfactory segment and what is it lined with?

Answer 39

Along the roof of the nasal cavity - lined with olfactory epithelium (olfactory mucus membrane) which contains receptors for smell

Question 40

how big is the olfactory epithelium?

Answer 40

2-4cm2

Question 41

What is the structure of olfactory receptor cells?

Answer 41

Short, thick dendrite
end in 10-20 cilia which project into a mucous layer (olfactory mucosa)
Bipolar
Acuteness in different species

Question 42

How do chemicals in the air come to interact with cilia?

Answer 42

Dissolve in mucosa

Question 43

What is the olfactory pathway to the brain from the olfactory receptors?

Answer 43

Receptors project to olfactory bulb
The olfactory nerves are non-myelinated and consist of bundles of slenderfibresheldtogether by thin strips of connectivetissue; form olfactory cranial nerve
Receptors form synapses with dendrites of mitral cells at glomeruli

• Mitral cells send axons from olfactory bulb to a broad range of forebrain areas- Amygdala & pyriform cortex have no connection through thalamus
• Orbitofrontal cortex (role in emo & social behaviours) has thalamic connection

Question 44

What is anosmia?

Answer 44

Absence of sense of smell
Can be anosmic for certain odours
Temporary/permanent

Question 45

What is hyposmia?

Answer 45

Diminished olfactory sensitivity
- may be an early sign of Parkinsons

Question 46

What is dyosmia?

Answer 46

Distorted sense of smell
Misinterpreted smells/hallucination of smells

Question 47

What percent of over 80s have impaired ability to identify smells?

Answer 47

75%

Question 48

What is gustation?

Answer 48

Taste

Question 49

How do we taste?

Answer 49

Stimuli interact with microvilli (receptor tips) - open ion channels lead to change in membrane potential

Question 50

What are the 5 tastes?

Answer 50

Bitter
Salty
Sweet
Umami
Sour

Question 51

What forms the gustatory nerve?

Answer 51

Nerve fibres travel from taste buds to the brain stem via cranial nerves
anterior two thirds of the tongue via the facial nerve (VII).
back of the tongue via glossopharyngeal nerve (IX).
areas other than the tongue (epiglottis, pharynx) via vagus nerve (X).

Question 52

What 2 pathways does the gustatory nerve split into on entering the brain?

Answer 52

1. Through posterior medulla of ventroposterior medial nucleus of thalamus
2. Projects through pons to hypothalamus and amygdala

Question 53

What are the 2 pathways from the posterior medulla to ventroposterior medial nucleus of the thalamus?

Answer 53

1. To primary somatosensory cortex (for tactile info) + To gustatory cortex of insula (for flavour)

Question 53

What is the pathway that projects through pons to hypothalamus and amgydala hypothesised to do in gustation?

Answer 53

Play a role in feeding behaviour

Question 54

What is ageusia?

Answer 54

Absence of sense of taste
- may be caused due to cranial nerve damage or problems with endocrine system (eg. salivary glands)

Question 55

What is hypogeusia?

Answer 55

Diminished taste sensitivity
- often due to medication

Question 56

What is dysgeusia?

Answer 56

Disturbed sense of taste
- diagnosis usually complicated since sense of taste is tied together with other sensory systems - various potential causes and treatments