Presentation is loading. Please wait.

Presentation is loading. Please wait.

Hearing and Deafness 1. Anatomy & physiology Chris Darwin Web site for lectures, lecture notes and filtering lab:

Published byAllison Nichols Modified over 10 years ago

Similar presentations

Presentation on theme: "Hearing and Deafness 1. Anatomy & physiology Chris Darwin Web site for lectures, lecture notes and filtering lab:"— Presentation transcript:

1

2 Hearing and Deafness 1. Anatomy & physiology Chris Darwin Web site for lectures, lecture notes and filtering lab: http://www.lifesci.sussex.ac.uk/home/Chris_Darwin/ look under: "Teaching material for students" "Perception & Attention"

3 Protection Impedance match Capture; Amplify mid-freqs Vertical direction coding Frequency analysis Transduction Outer, middle & inner ear

4 Middle ear structure

5 Stapedius reflex

6 Conductive hearing loss Sounds dont get into cochlea Middle ear problems Helped by surgery and by amplification

7 Protection Impedance match Capture; Amplify mid-freqs Vertical direction coding Frequency analysis Transduction Outer, middle & inner ear

8 Cochlea

9 Cochlea cross-section

10 Travelling wave on basilar membrane sorts sounds by frequency

11 Reponse of basilar membrane to sine waves Each point on the membrane responds best to a different frequency: high freq at base, low at apex. amadeus praat

12 Organ of Corti

13 Inner hair cell

14 Hair Cell Stereocilia

15 Auditory nerve innervation OHC (2) spiral afferent (green) medial efferent (red) IHC (1) radial afferent (blue) lateral efferent (pink)

16 Auditory nerve rate-intensity functions

17 Phase Locking of Inner Hair Cells Auditory nerve connected to inner hair cell tends to fire at the same phase of the stimulating waveform.

18 Phase-locking

19 Inner vs Outer Hair Cells

20

21 OHC movement Passive No OHC movement Active With OHC movement

22 OHC activity Increases sensitivity (lowers thresholds) Increases selectivity (reduces bandwidth of auditory filter) Gives ear a logarithmic (non-linear) amplitude response Produce Oto-acoustic emissions OHCs are relatively more active for quiet sounds than for loud sounds. They only amplify sounds that have the characteristic frequency of their place.

23 Conductive vs Sensori-neural deafness Becomes linear, so No combination tones Or two-tone suppression Mostly a combination of OHC and IHC damage

24 Auditory nerve frequency-threshold curves

25 Auditory tuning curves Healthy ear Inner hair-cell damage

26 Outer-hair cell damage

27 BM becomes linear without OHCs (furosemide injection)

28 Amplification greater and tuning more selective at low levels Robles, L. and Ruggero, M. A. (2001). "Mechanics of the mammalian cochlea," Physiological Review 81, 1305-1352.

29 Normal auditory non-linearities Normal loudness growth (follows Webers Law) Combination tones 880->1320 Two-tone suppression Oto-acoustic emissions

Download ppt "Hearing and Deafness 1. Anatomy & physiology Chris Darwin Web site for lectures, lecture notes and filtering lab:"

Similar presentations

HEARING Sound How the Ears Work How the Cochlea Works Auditory Pathway

HEARING Sound How the Ears Work How the Cochlea Works Auditory Pathway
Hearing and Deafness 2. Ear as a frequency analyzer Chris Darwin.

Hearing and Deafness 2. Ear as a frequency analyzer Chris Darwin.
Hearing and Deafness Outer, middle and inner ear.

Hearing and Deafness Outer, middle and inner ear.
Unit Ten: The Nervous System: B. Special Senses

Unit Ten: The Nervous System: B. Special Senses
The peripheral auditory system David Meredith Aalborg University.

The peripheral auditory system David Meredith Aalborg University.
Hearing 164-170 Our auditory sense. Frequency the number of complete wavelengths that pass through point at a given time. This determines the pitch of.

Hearing Our auditory sense. Frequency the number of complete wavelengths that pass through point at a given time. This determines the pitch of.
Cochlear Functions Transduction- Converting acoustical- mechanical energy into electro-chemical energy. Frequency Analysis-Breaking sound up.

Cochlear Functions Transduction- Converting acoustical- mechanical energy into electro-chemical energy. Frequency Analysis-Breaking sound up.
M.Sc. in Medical Engineering

M.Sc. in Medical Engineering
Physiology of the cochlea Mechanical response of cochlea in response to sound Two major functions: 1. Analysis of sound into components: Frequency/Spectral.

Physiology of the cochlea Mechanical response of cochlea in response to sound Two major functions: 1. Analysis of sound into components: Frequency/Spectral.
Hearing and Deafness 1. Anatomy & physiology Chris Darwin Web site for lectures, lecture notes and filtering lab:

Hearing and Deafness 1. Anatomy & physiology Chris Darwin Web site for lectures, lecture notes and filtering lab:
The Auditory System. Audition (Hearing)  Transduction of physical sound waves into brain activity via the ear. Sound is perceptual and subjective. 

The Auditory System. Audition (Hearing)  Transduction of physical sound waves into brain activity via the ear. Sound is perceptual and subjective. 
Structure and function

Structure and function
THE HUMAN EAR AND SIMPLE TESTS OF HEARING Ear Anatomy  Outer Ear  Auricle, external auditory canal and the tympanic membrane  Middle Ear  An air filled.

THE HUMAN EAR AND SIMPLE TESTS OF HEARING Ear Anatomy  Outer Ear  Auricle, external auditory canal and the tympanic membrane  Middle Ear  An air filled.
The “Ear” is housed within the

The “Ear” is housed within the
HEARING. Audition  What is Audition?  Hearing  What sounds do we hear the best?  Sounds with the frequencies in the range corresponding to the human.

HEARING. Audition  What is Audition?  Hearing  What sounds do we hear the best?  Sounds with the frequencies in the range corresponding to the human.
Two Halves: §Vestibular--transduces motion and pull of gravity §Cochlear--transduces sound energy (Both use Hair Cells) INNER EAR.

Two Halves: §Vestibular--transduces motion and pull of gravity §Cochlear--transduces sound energy (Both use Hair Cells) INNER EAR.
Physics 1251 The Science and Technology of Musical Sound Unit 2 Session 12 MWF The Human Ear Unit 2 Session 12 MWF The Human Ear.

Physics 1251 The Science and Technology of Musical Sound Unit 2 Session 12 MWF The Human Ear Unit 2 Session 12 MWF The Human Ear.
Hearing.

Hearing.
Hearing and Deafness Anatomy & physiology. Protection Impedance match Capture; Amplify mid-freqs Vertical direction coding Frequency analysis Transduction.

Hearing and Deafness Anatomy & physiology. Protection Impedance match Capture; Amplify mid-freqs Vertical direction coding Frequency analysis Transduction.
Cochlea Conduction & Reception of Auditory Stimuli.

Cochlea Conduction & Reception of Auditory Stimuli.

Similar presentations

Ads by Google