Hearing Aids and Hearing Assistance Technologies

Slides:



Advertisements
Similar presentations
Developed by Steve Barber, SHHH Wake Chapter, Raleigh, NC Telephone Technology Tips and Tricks For Hard of Hearing People This presentation may be freely.
Advertisements

2 nd International Hearing Loop Conference: Telecoil Panel Linda Kozma-Spytek Research Audiologist Technology Access Program Gallaudet University RERC.
What is the Baha ® system? The BAHA system has been a well recognized hearing treatment for conductive and mixed hearing losses since 1977 (Collaborative.
Communication and Alerting Technology for DeafBlind People Elizabeth Spiers Virginia Department for the Blind and Vision Impaired.
Technology For Hearing: Telecommunication & Alerting Devices Technology For Hearing: Telecommunication & Alerting Devices EDUC 477/689I Devices Part V-B.
Technology Assistance for People with Hearing Loss.
XL40D Training. The Clarity Professional XL40D offers our patented Digital Clarity Power that uses digital technology to enhance the volume and clarity.
Sound – Part 3 Year 7 Science. Sound Intensity Now, we found the rate at which particles vibrate affects the pitch of the sound and frequency. The magnitude.
M.Sc. in Medical Engineering
I hope you had a wonderful weekend. Please take out a pen or pencil and a clipboard or your binder for notes. You DO need your note card today. Please.
Bone Anchored Hearing Aid or Cochlea Implant?
CSD 3000 DEAFNESS IN SOCIETY Topic 8 HEARING AIDS AND ASSISTIVE TECHNOLOGY.
1  Why do we need Assistive Listening?  User Interface Options  Transmission Options  Examples of ALDs and ALSs  Finding and Using ALDs and ALSs 
The use of FM systems with Cochlear Implants- How has research had an impact on practice? Sarah Flynn and Elizabeth Wood South of England Cochlear Implant.
The Ear.
Psychology: Chapter 4, Section 3
ALDs and Acoustic Management
Aural Rehabilitation Definition Hearing Aids Assistive Listening & Alerting Devices Speech Reading and Auditory Training Cochlear Implants (see separate.
Part 1, Presentation 2 July 2001
Cochlear Implant Presentation Jennifer Callaway M.S. CCC-SLP Speech/Language Pathologist Grafton Elementary School John Long Middle School
Nick Hamilton EE April 2015 Abstract: When natural hearing is lost, cochlear implants provide an opportunity to restore hearing. These electronic.
Demystifying Hearing Assistive Technology Tina Thompson Beth Wilson CHHA Conference July 2008.
What causes hearing loss?
The Hearing Assistive Technology Landscape for Hearing Loops and Telecoils Dana Mulvany, MSW (U.S.A.) Differing Abilities.
Technology for Hearing Impairments
Technology For Hearing Devices Part V-A
Audiology Training Course ——Marketing Dept. Configuration of the ear ① Pinna ② Ear canal ③ Eardrum ④ Malleus ⑤ Incus ⑥ Eustachian tube ⑦ Stapes ⑧ Semicircular.
Amplification systems: Hearing aids May be analog or digital May be analog or digital Consists of a microphone, amplifier, and loudspeaker. Consists of.
Babak saedi Assistant professor of tehran university, Imam khomeini hospital.
Fitting and Evaluation of FM Systems for Cochlear Implant Users Linda M. Thibodeau.
COMMUNICATION GADGETS
Hearing Impairment Hair cells are responsible for translating mechanical information into neural information. Thus, with damaged hair cells, the auditory.
CSD 5400 REHABILITATION PROCEDURES FOR THE HARD OF HEARING Educational Management of Hard- of-Hearing and Deaf Children Assistive Listening Devices.
C ENTRAL A UDITORY P ROCESSING D ISORDERS AND A SSISTIVE L ISTENING D EVICES R EVIEW.
Super Power BTE A great new Trimmer Family. The new & complete, fully digital Trimmer family ReSound is proud to introduce the complete new trimmer family,
Georgia State University Series: Early Intervention with Children who are Deaf and Hard of Hearing Part 1, Presentation 1 July 2001.
What is a Telecoil? A telecoil is a tiny coil of wire around a metal core that’s in 70% of all hearing aids and in all recently sold cochlear implants.
Deaf & Hearing Awareness Training Deaf & Hard of Hearing Assistive Technology.
Cochlear Implants American Sign Language Children & Cochlear Implants Psychological Evaluation of Implant Candidates James H. Johnson, Ph.D., ABPP Department.
Md.Kausher ahmed Electrical department. Biomedical engineering Code:6875.
THE BIONIC EAR BME 181 SEMINAR Mihir Subash. WHAT IS THE BIONIC EAR?  A Bionic Ear, which is known as a cochlear implant, is an artificial hearing device,
Hearing Amplification. Hearing loss due to Inner ear pathologies.
COCHLEAR IMPLANTS Brittany M. Alphonse Biomedical Engineering BME 181.
Functional Listening Evaluations:
Technology For The Deaf And Hard of Hearing By: Missy Maiorano EDCP 737 Winter 2002.
Practical AT session 3” WP4-D4.2. Prepared by: Shams Eldin Mohamed Ahmed Hassan Hearing Disability and Kurzweil 1000.
Amplification systems: Hearing aids May be analog or digital May be analog or digital Consists of a microphone, amplifier, and loudspeaker. Consists of.
Introduction In the whole year of physics I learned a lot of things y favorite unit was sound, my second favorite unit was history of science/ the scientific.
Michael Scott, Au.D., CCC-A Cochlear Implant Program Coordinator, CCHMC President, NOCCCI.
Learning about your choices. What options do you have? Do nothing Get a hearing aid Get a cochlear implant Learn Sign Language.
ASSISTIVE TECHNOLOGY FOR READING Presenters: Antonia Mohammed Arlene Chris Anne Julien Lisa Philip.
INTRODUCTION TO AUDIOLOGY (SPHS 1100) WEEK 6 POWER POINT TOPICS  TREATMENT OF CONDUCTIVE HEARING LOSS  TREATMENT OF SENSORINEURAL HEARING LOSS  TECHNOLOGY.
Listen and speak clinic is a leading & Speech Therapy and Hearing Aid Center in Pune, Maharashtra. Our staff are multilingual in.
HEARING LOSS TECHNOLOGY Where have we been? Where are we headed? 6/11/2016Arizona AT Services for D/HOH 1 Laura E. Plummer, MA, CRC, ATP Sr. Rehabilitation.
Effective Communication Skills for the Deaf and Hard of Hearing Employee & Organizational Development Diversity Training Module.
Listen and Speak Clinic Hearing Aids in Pune
Hearing aids – different types. City Lit Objectives Understand why different aids suit different types of hearing loss Understand how the different types.
Assistive Listening Devices: Why, When, and Which One? AHEAD Conference/ pepnet 2 Training Institute June 2016.
INTRODUCTION TO AUDIOLOGY (SPHS 1100) WEEK 7 POWER POINT TOPICS  ASSISTIVE DEVICES FOR HEARING IMPAIRED  AUGMENTING DEVICES  TRANSFORMING DEVICES.
Liz Kobylak and Ann Liming
Ricky Wong Changing paradigm of creating an accessible work environment for Hearing Impaired employees Ricky Wong
Products and technology which could help deaf young people in education and work Chris Bowden Head of Technology Development.
Chapter 9 Deafness and Hearing Loss
Hearing Aids, Hearing Assistance Technologies & Implants
Rehabilitation of Hearing Impaired Individuals
Therapeutic equipment I
Hearing Aids.
Why do we need Assistive Listening? User Interface Options
Sound in the Ear Presentation
Why do we need Assistive Listening? User Interface Options
Presentation transcript:

Hearing Aids and Hearing Assistance Technologies Chapter 7 Hearing Aids and Hearing Assistance Technologies

Purpose of Listening Devices Make speech audible Make non-speech audible Restore range of loudness

Hearing Challenges Hearing soft speech Hearing speech clearly Hearing speech in noisy environment Hearing speech in reverberant environment

Definition of Hearing Aid Hearing Aids (noun, plural) 1 (archaic): electronic devices usually worn by a person for amplifying sound before it reaches the auditory receptor organs. 2 (modern): electronic devices worn by a person for processing sound to provide audibility and improve the signal-to-noise ratio before it reaches the auditory receptor organs. A New Definition for Modern Hearing Aids, Victor Bray, Ph.D. & Michael Nilsson, Ph.D., Auditory Research Department, Sonic Innovations, Inc.

Types of Listening Devices Hearing Aids ALDs/HAT Alerting Devices Brainstem Implants Bone Anchored Hearing Aids (BAHA) Cochlear Implants (CI)

Hearing Aid Styles Air conduction Bone Conduction Body Aid Glasses BTE RITE RITA ITE ITC CIC Bone Conduction Bone Anchored (BAHA) (above 20 years) (now considered a mastoid implant)               

Open Canal Receiver in the Ear RITE Receiver in the Aid RITA

Bone conduction HA When a conventional hearing aid cannot be worn due to microtia, atresia, obstruction in EAM, bone conduction hearing aids may be beneficial

BAHA Bone Anchored Hearing Aid: Surgically embedded titanium "post" into skull with a small abutment A sound processor sits on abutment The implant vibrates the skull and stimulates the cochlea via bone conduction bypassing outer & middle ear Treatment for: Conductive loss Mixed hearing losses Unilateral sensorineural hearing loss, Chronic ear infections Congenital external auditory canal atresia

Hearing Aids Analog (conventional) Programmable (analog or digital)

Type of Hearing Aids Analog hearing aids pick up the sound and convert it into electronic signals. These hearing aids have trimmers that are manually adjusted by a hearing healthcare professional using a tiny screwdriver. Analog hearing aids are the least flexible, but also the least expensive, level of hearing aid technology. Programmable Programmable hearing aids must be connected to a computer in order for your hearing healthcare professional to make adjustments. These hearing aids offer more flexibility and can provide more features. Digital Digital hearing aids contain computer chips that convert the electronic signal into digital signals. The digital hearing aid can perform complex processing of the sound, such as reducing the intensity of loud background noise. Typically programmed via a computer, offers the greatest flexibility in its ability to match the hearing aid response to the hearing loss.

HA Components Microphone The microphone picks up sounds from the air and convert them into electrical signals. Amplifier The amplifier increases the intensity of the signals from the microphone. Filters modify the sounds so that only sounds which are relevant for the person are amplified. 'Loudspeaker' (Receiver) The third basic component is the 'loudspeaker' (receiver). It converts electrical signals into acoustic signals, which the person then hears. Small computer (Digital) (How it works) These three components exist in all hearing aids. Furthermore, in digital hearing aids a small computer can be programmed to manipulate the signals to fit the hearing loss of the individual hearing-impaired person.               

Batteries Various Sizes Chemical

Earmolds Earmolds direct sound into the ear canal Variety of styles, colors, and other characteristics

Verification of HA Real Ear (probe microphone) Speech tests (HINT, QuickSIN, BKB-SIN, SPIN) Subjective ratings of intelligibility and quality Loudness verification Questionnaires Functional gain ABR—for infants & young children

Probe Microphone Real Ear measures of sound pressure in the ear canal

Speech Tests HINT QuickSIN BKB-SIN SPIN

QuickSIN/BKB-SIN 1.   SNR loss of 0-2 dB: Normal to near-normal.  These patients will probably do well in noise with any hearing aids that provide undistorted output.  With directional microphones, they may hear better than their normal-hearing peers in noisy situations. 2.  SNR loss of 2-7 dB: Mild SNR loss.  Today’s directional microphones provide SNR improvements of 2 to 5 dB; with directional microphones, these patients should be able to hear almost as well as their normal-hearing counterparts in noisy situations. 3.  SNR loss of 7-15 dB: Moderate SNR loss.  While directional microphones will provide benefit for these patients, they cannot provide enough SNR improvement to allow the person to hear as well as their normal-hearing counterparts in noisy situations. Microphone arrays, such as the LinkiT, provide a 7 to 13 dB improvement in SNR. 4.  SNR loss greater than 15 dB: Severe SNR loss.  These patients need the maximum amount of SNR improvement, and FM systems are the technology of choice for these patients. Today’s ear-level FM systems are cosmetically appealing and are available in a wide range of hearing aids. Contact hearing aid manufacturers for more information.

Subjective Ratings Magnitude Production Category Scaling Pt is given a number and instructed to adjust a given parameter such as intensity, SNR, until that number is reached Category Scaling Pt is given a bounded scale such as 1 to 10 and asked to make a judgment of a speech passage based on intelligibility, quality, etc. Paired Comparisons Pt compares 2 different settings or hearing aids Clarity Pt asked to judge if sound is clear, distinct, pure…the opposite is diffuse

Loudness Restoration PAL Soft, comfortable, loud

Functional Gain Compare Aided vs. Unaided results In the example, the aided (green) thresholds are compared to the unaided thresholds for the right (red) and left (blue) thresholds

Questionnaires APHAB PAL

Binaural vs. Monaural Advantage head shadow loudness summation localizing signal to noise ratio

ALDs/HAT

ALDS/HAT Loop Induction (Loop)(Electromagnetic) Radio Frequency AM FM FM plus Video BlueTooth Light (Infrared)

Loop Induction Systems ALDs/HAT Loop Induction Systems

Looping the World with Audiocoil “The ordinary telecoil is perhaps the most common and most underestimated assistive listening device available for hearing impaired individuals today.” Ross (2002). “By changing the label to something more general—my suggestion is ‘audiocoil’—we do not restrict to a single function the way we think of the coil”. Ross (2006). Telecoils are about more than telephones. The Hearing Journal, 59, 24-28.

LI Components Microphone Loop amplifier Loop wire Telecoil

Loop Inducton Large area Home area (cushion loop pad)

Loop Options Silhouette: Neckloop: Portable Loop Near telecoil and signal relatively low therefore less susceptible to) most EMI (ElectroMagnetic Interference). Stay aligned relative to the hearing aid, they are less sensitive to head position. Neckloop: Drive both hearing aids (not with true stereo, but with a mono signal into both aids). Does not require wires running up the neck to the hearing aid(s), and can be worn under a shirt or jacket. Portable Loop Portable and able to carry Communicate one on one or in small groups, cars, etc.

Loop Induction Oval Window LI transmits via an electromagnetic field and require no receiver if the hearing aid wearer has a telecoil Oval Window

Loop Induction: Telecoils Inductive/audio loop systems transmit an electro- magnetic field Receivers are not necessary for hearing aid wearers with a telecoil (the telecoil itself is the receiver) Loop receivers can be provided for people who do not have telecoils. Loops are often permanently installed Silhouette inductor Neckloop Direct audio input

Radio Frequency Systems ALDs/Hat Radio Frequency Systems

Radio Frequency FM (radio frequency) systems transmit radio waves to receivers Used in classrooms and where mobility is required Not affected by light, able to cover 100+ feet, and are portable Systems can be set to different frequencies to allow several uses in same place Miniaturized FM receivers using the 216-217 mhz range are available as an attachment for some BTEs and CI processors Some FM transmitters have built-in microphones that can switch from an omnidirectional, directional and/or super directional setting Susceptible to some radio interference

Radio Frequency Systems Phonak Multi-frequency receivers (MLxS, ML8S and ML9S) synchronized automatically using the WallPilot or directly with Campus S. The MLxS also has a standardized connector that makes it compatible with both Phonak hearing instruments and BTEs from other manufacturers Single-frequency receivers (MLx, ML8, ML3-7) single-frequency receiver which clips to BTE hearing aid MicroLink CI S miniaturized FM receiver for cochlear implant users that attaches directly to the bodyworn speech processor WallPilot hangs at the entrance to a room and performs an Automatic Frequency Synchronization (AFS) and ensures that the multi-frequency receivers of wearers entering the room are automatically set to the correct frequency

Phonak iLink

Phonak SmartLink

FM Radio Frequency Systems Phonic Ear Sprite BTE FM used by people of all ages who have hearing abilities ranging from normal to profound loss used in the car, at restaurants and parties, watching TV, on tours, and talking with others across a distance. students with ADD or CAPD benefit Toteable

Oticon

AVR

BlueTooth Bluetooth is a short-range, wireless, digital communication standard. Bluetooth devices send data and voice in a clean, clear, digital format audio signal is not subject to the same sources of signal degradation that sometimes compromise the quality of analog (FM, AM or inductive) transmissions. Radio frequency transmission in the 2.4-gigaHertz range

BlueTooth Advantages Bluetooth signal is extracted from the noise; it alone is transmitted and amplified, while noise is rejected. Minimizes battery consumption for portable devices Also, it places an intentional limit on the range of transmission — the most common version has a range of 10 meters which helps to avoid interference among nearby devices Walls and other obstacles have a negligible effect on Bluetooth transmission

BlueTooth Interference Advantage

Starkey

ELI

ALDs/HAT Infrared Systems

Infrared Infrared systems transmit sound via infrared light waves to receivers worn by users IR commonly used in courtrooms, movies, and live performance theaters, conventions and with TVs (signal contained in room) Infrared systems may be susceptible to interference from bright sunlight or fluorescent lights Requires line-of-sight between the IR transmitter and the receiver, IR waves can effectively reflect off some surfaces, depending upon the power of the transmitter                       

Audiovisual FM AudiSee Assistive device to facilitate speechreading and hearing, primarily in educational settings Portable Camera and microphone worn by speaker less strain to speechread when teacher moves about the classroom or turns to write on the blackboard

Sound Field Systems Portable or permanently installed speakers placed close to listeners at a distance from the speaker They are most often used in classrooms and are helpful for people with mild to moderate loss They offer a secondary benefit to those who are not HOH Wireless speakers perform the same function. Audio Enhancement Video 1 Audio Enhancement Video 2

Vibrotactile Devices Tactaid - small, battery-powered instruments that can help a deaf person understand sounds by allowing the user to feel the unique pattern of vibrations present in every sound

Hearing assistive technology (HAT) refers to devices and services that help deaf and hard of hearing people compensate for their hearing loss four primary categories of technology: assistive listening devices alerting devices telecommunications devices visual communication devices

ALDs/HAT Function Catch the desired sound as cleanly as possibly (using well-selected microphones or a direct audio feed) Carry the sound intact via a specific type of transmission to a receiver (using infrared light waves, radio waves, induction, or wires) Couple the receiver to the hearing device or ear with as little background noise, feedback or distortion as possible (using neckloops, silhouettes, cords, headphones, or earbuds, depending on the user's equipment or lack thereof).

How ALDs/HAT Help Bypassing or minimizing background noise Overcoming the weakening effect of sound traveling through air Reducing the effect of poor room acoustics

ALDs (HAT) assistive listening devices and systems (including couplers and accessories for hearing aids and cochlear implants) alerting devices and systems (weather, doorbell, phone, fire/smoke alerting devices) amplified telephones (some of which have tone controls and/or audio output jacks) and telephone accessories TTYs (teletypewriters), VCO (Voice Carry Over) phones, CapTel, and telecommunications-related software and services speech-to-text services and technology, such as CART (Computer Assisted Realtime Transcription), C-Print and CAN; closed caption decoders videophones and other visual technology to facilitate speechreading and/or the use of sign language or cued speech

TELECOMMUNICATIONS Television Telephones POTS Cell Phones

TELECOMMUNICATIONS: TV Television There are two ways to understand communication on TV: hear it or read it: closed captions, a menu option ability built into most TVs (TVs over 13 inches in diameter sold after 1993). ALDs Increase volume on a personal receiver, not TV sound across the room Most are cordless and utilize different types of technologies Some devices marketed specifically for TV use Hearing aid users and non hearing aid users can use technologies

TELECOMMUNICATIONS: PHONES Two needs with phones: understanding conversation on the phone knowing phone is ringing There are two ways to understand the conversation on the phone: hear it or read it. There are four basic types of telephone amplifiers: portable, handset, inline and phone set.

TELECOMMUNICATIONS: PHONES Types of telephone amplifiers: Portable Handset Inline phone set

TELECOMMUNICATIONS: PHONES Portable amplifiers Not recommended for regular use Inconvenient--strapped onto a phone handset and need to be turned off after use or the battery runs dead Occasionally helpful with wireless phones that do not have amplification May make a phone hearing aid compatible Peace of mind for use while traveling

TELECOMMUNICATIONS: PHONES In-line amplifiers devices that connect to the jack in the phone where the curly handset cord plugs in may be a good value, as some go as high as 40 dB Compatible with most phones, home and business.

TELECOMMUNICATIONS: PHONES Amplification handsets Replace original phone receiver Less popular Adjustment controls in the handle In some cases, not electrically compatible universal amplifier (battery or A/C powered) used for compatibility

TELECOMMUNICATIONS: PHONES Amplified phones Many features Some provide 50 dB gain. Louder not always helpful for clarity Some provide tone control Additional features (optional) variable ringer sounds built-in ringer light flash big buttons for dialing audio jack HAT may require electrical outlet connection cordless amplified phones

TELECOMMUNICATIONS: PHONES TTYs do NOT use voice recognition TTYs are data terminals that allow hard of hearing or deaf people to read typed messages Some TTYs have a keyboard for typing a response helpful to consumers who do not have clear speech majority of hard of hearing prefer to voice their response. Therefore styles of TTYs that are designed specifically to support VCO (voice carry over) may be appealing One portable version is the size of a deck of cards and can be strapped onto most phone receivers. TTY users communicating directly with another TTY or a relay service used to type spoken message to TTY user VCO users find very appealing as they can read & talk and not worry about missing hearing message With VCO, the TTY is then used for reading only. With computer, it is possible to purchase software to emulate TTY signals

TELECOMMUNICATIONS: PHONES Other telecommunications devices pagers, cellular phones, fax machines, email and Internet chatting, and text-based intercoms phone company custom calling helpful features caller ID (for calling back the person through relay distinctive ringing (for differentiating voice and TTY calls) voice mail (to listen to voice messages with amplified phones or via the relay service)

Hearing Aids and You!

Cochlear Implants Medel Advance Bionics Cochlear