Hearing And Audition Process PDF

Summary

This document provides an overview of the hearing process, beginning with the structure of the ear and moving through the auditory process. It also explores the differences between noise and music perception, and discusses common ear complications and diseases.

Full Transcript

HEARING AND
AUDITION PROCESS
Presented By Group 6
BUT FIRST, GAME!
GUESS THE SONG (POP
EDITION)
 INTRODUCTION
THE EAR STRUCTURE
THE AUDITORY PROCESS

TABLE OF NOISE VERSUS MUSIC
PERCEPTION

CONTENTS COMMON EAR COMPLICATIONS
AND DISEASES
Recent Research Findings
CONCLUSION
INTRODUCTION
INTRODUCTION
Hearing is the ability of an organism
to sense sound and to process and
interpret the sensations to gain
information about the source and
nature of the sound. In humans,
hearing refers to the perception of
sound. Also called audition.

It is the transduction of sound
waves into a neural signal that is
made possible by the structures of
the ear.
INTRODUCTION
The ability to hear enables us to
connect to the world for many very
important reasons. It connects us
to other people which enables us to
communicate in a way that none of
the other senses could achieve.

Hearing for Communicating with
People
Hearing for Experiencing
Sounds around us
Hearing and Mental Health
THE STRUCTURE OF THE
EAR
THE STRUCTURE OF THE EAR
THE STRUCTURE OF THE EAR
Outer Ear
The medical term for the outer ear is the auricle or pinna. The
outer ear is made up of cartilage and skin. There are three
different parts to the outer ear; the tragus, helix and the lobule.

Tragus - The tragus is a small pointed eminence of the
external ear, situated in front of the concha. It aids in
collecting sounds from behind.
Helix - The outer rim of the ear that extends from the
superior insertion of the ear on the scalp (root) to the
termination of the cartilage at the earlobe.
THE STRUCTURE OF THE EAR

Outer Ear
Helix - The outer rim of the ear that extends from
the superior insertion of the ear on the scalp (root)
to the termination of the cartilage at the earlobe.

Lobule - The fleshy lower part of the auricle, is the
only area of the outer ear that contains no cartilage.
The auricle also has several small rudimentary
muscles, which fasten it to the skull and scalp.
THE STRUCTURE OF THE EAR

Middle Ear
The space inside the eardrum is called the middle ear.
Three of the smallest bones of the body are found in
the middle ear; they are called the malleus, the incus
and the stapes. These bones are also known as the
hammer, anvil and the stirrup. The medical term for all
three bones together is the middle ear ossicles.
THE STRUCTURE OF THE EAR

MIDDLE
EAR
THE STRUCTURE OF THE EAR

Middle Ear
Tympanic Membrane - also known as the eardrum is a
thin flap of skin that stretches tight like a drum and
vibrates when sound hits it. These vibrations move the
tiny bones of the middle ear, which send vibrations to
the inner ear.
THE STRUCTURE OF THE EAR

Middle Ear
Malleus - The malleus is a hammer-shaped bone in
the middle ear. It is also known as the “hammer” or
“mallet" and is the largest of three small bones in
this part of the ear. The malleus bone works with
the other bones in your ear to transmit vibrations
from the eardrum to the inner ear.
THE STRUCTURE OF THE EAR

Middle Ear
Incus - The incus, also known as the “anvil,” is the
middle of three small bones in the middle ear. The
incus transmits vibrations from the malleus to the
stapes. The vibrations then move to the inner ear.
THE STRUCTURE OF THE EAR

Inner Ear

A small compartment which contains the hearing and
balance apparatus. The inner ear has two main parts.
The cochlea, which is the hearing portion, and the
semicircular canals is the balance portion.
THE STRUCTURE OF THE EAR

Inner Ear
Cochlea - Shaped like a snail and is divided into
two chambers by a membrane. The chambers are
full of fluid which vibrates when sound comes in
and causes the small hairs which line the
membrane to vibrate and send electrical impulses
to the brain.
THE STRUCTURE OF THE EAR

Inner Ear
Semi-circular canals - Also known as the
labyrinthine. These little canals are lined up at right
angles (90°) to each other. This allows the brain to
know in which direction the head is moving. This
helps control balance and stability.
THE AUDITORY
PROCESS
THE
AUDITORY
PROCESS
 1. Sound waves enter the outer ear
and travel through the ear canal,
which leads to the eardrum.
THE 2. The eardrum vibrates from the
AUDITORY incoming sound waves and
PROCESS sends these vibrations to the
three tiny bones in the middle
ear.
 3. The bones in the middle ear amplify the
sound vibrations and send them to the
cochlea. An elastic partition runs from the
THE beginning to the end of the cochlea,

AUDITORY splitting it into an upper and lower part.
This partition is called the basilar
PROCESS membrane because it serves as the base,
or ground floor, on which key hearing
structures sit.
 4. Once the vibrations cause the
THE fluid inside the cochlea to ripple, a
AUDITORY traveling wave forms along the
basilar membrane. Hair cells—
PROCESS sensory cells sitting on top of the
basilar membrane—ride the wave.
 5. As the hair cells move up and down,
THE microscopic hair-like projections (known

AUDITORY as stereocilia) that perch on top of the
hair cells bump against an overlying
PROCESS structure and bend.
 6. The auditory nerve carries this
THE electrical signal to the brain, which turns
AUDITORY it into a sound that we recognize and

PROCESS understand.
 NOISE
VERSUS
MUSIC PERCEPTION
NOISE VERSUS MUSIC
PERCEPTION
Noise
refers to the unwanted sound that is
disordered which lacks a structured
pattern, therefore brings disturbance.
EXAMPLE: Traffic noise, Construction noise,
Machinery noise
NOISE VERSUS MUSIC
PERCEPTION
Music
refers to a sound that produces a
‘pleasing’ sensation to the ears, in which
there is consideration of: harmony,
rhythm, and melody, typically using
musical instruments.

EXAMPLE: Classical compositions, popular
music, folk music
NOISE VERSUS MUSIC
PERCEPTION

Subjective Perception
The distinction between music and noise can be
subjective, depending on the listener's perspective and
context. For instance, a sound that delights one person
may irritate another, highlighting the role of individual
experience in categorizing sounds as music or noise.
NOISE VERSUS MUSIC
PERCEPTION

Conditions Affecting the Perception

Conditions such as volume and the presence of
other competing sounds can be perceived as either
music or noise.
NOISE VERSUS MUSIC
PERCEPTION
Sound Processing in the Brain

1. Auditory Nerve: When sound waves are converted
into electrical signals by the hair cells in the
cochlea, these signals are transmitted to the brain
via the auditory nerve.
NOISE VERSUS MUSIC
PERCEPTION
Sound Processing in the Brain

2. Brainstem: The auditory nerve carries these signals
to the brainstem, where they are initially processed.
The brainstem helps to localize sound and separate it
from background noise.
NOISE VERSUS MUSIC
PERCEPTION
Sound Processing in the Brain

3. Thalamus: From the brainstem, the auditory signals
are relayed to the thalamus, a relay station in the brain.
The thalamus filters and processes these signals
before sending them to the auditory cortex.
NOISE VERSUS MUSIC
PERCEPTION
Sound Processing in the Brain

4. Auditory Cortex: The auditory cortex, located in the
temporal lobe of the brain, is responsible for interpreting and
understanding auditory information. It analyzes the
frequency, intensity, and duration of sounds to create a
mental representation of the auditory world.
NOISE VERSUS MUSIC
PERCEPTION

Impact of Noise Pollution on Hearing

Chronic exposure to loud noises can lead to hearing
loss, which can have a profound effect on our quality of
life.
 COMMON EAR
COMPLICATIONS AND
DISEASES
COMMON EAR COMPLICATIONS
AND DISEASES

Ear infections
an infection of the middle ear, the
air-filled space behind the eardrum
that contains the tiny vibrating
bones of the ear. Children are
more likely than adults to get ear
infections.
COMMON EAR COMPLICATIONS
AND DISEASES

Hearing loss

This happens when something
affects your hearing system. If you
have hearing loss, you may have
trouble understanding, following or
participating in conversations.
COMMON EAR COMPLICATIONS
AND DISEASES

Hearing loss

Conductive hearing loss
Sensorineural hearing loss
Mixed
COMMON EAR COMPLICATIONS
AND DISEASES

Tinnitus

It is commonly described as a
ringing sound, but some people
hear other types of sounds, such
as roaring or buzzing.
COMMON EAR COMPLICATIONS
AND DISEASES

Vertigo
Vertigo is a sensation of motion or
spinning that is often described as
dizziness.
People with vertigo feel as though they
are actually spinning or moving, or that the
world is spinning around them.
RECENT RESEARCH
FINDINGS
 Music as a unique
source of noise-
induced hearing loss
Music as a unique source of noise-
induced hearing loss

Music is among the most important artistic, cultural, and
entertainment modalities in any society. With the proliferation
of music genres and the technological advances that allow
people to consume music in any location and at any time,
music over-exposure has become a significant public health
issue. Music-induced hearing loss has a great deal in
common with noise-induced hearing loss.
Music as a unique source of noise-
induced hearing loss
Highlights
Music and noise share several commonalities as insults to the
auditory system.
Music-induced hearing loss is a prevalent problem for musicians.
Music has unique attributes that affect the auditory system in
positive and negative ways.
Music stimuli represent an intriguing option for use in sound
conditioning paradigms.
CONCLUSION
THANK YOU!