Hearing Check

Check

Prolonged exposure to hazardous noise can have harmful effects on worker health. Monitor the hearing health status of the noise-exposed workers to identify changes then take action to prevent further damage.

How do we know if noise is affecting the hearing of our workers?

  • Audiometric Testing Program

    An audiometric testing program checks the hearing thresholds of workers and tracks them over time. The objective is to detect changes or shifts in hearing that may signal the beginning stages of noise-induced hearing loss (NIHL). Identifying the signs and symptoms early enough, allows employers to intervene before the symptoms get worse. Therefore, part of the audiometric testing program is to ensure that effective follow-up actions are taken.

    Audiometric monitoring programs depend on checking hearing thresholds in a consistent, standardized manner, using trained and competent personnel. The test room should be quiet enough to minimize distractions for valid thresholds to be obtained. A baseline hearing check (audiogram) done before the worker’s first exposure to hazardous noise is then compared to future, routine hearing checks. Typically done annually, these results help to identify problems, such as hearing threshold shifts.

    Audiometric test programs can be offered in a variety of ways, including in-house testing, mobile service providers, or at a health clinic. They may be performed by an audiologist or physician, but are most commonly done by audiometric technicians or occupational hearing conservationists with specialty training. Any “problem audiograms” must be reviewed by an audiologist or physician to help determine follow-up actions. For example, in some cases, medical follow-up is necessary. If a permanent hearing loss occurs, a professional can help determine whether it is related to noise on the job.

    The audiometric results can be used on an individual basis to teach workers about their own hearing health status. Also, the whole audiometric database can be analyzed to identify trends and develop appropriate intervention plans. The results of the hearing checks should trigger follow-up actions.

Key Takeaways

    • Routine hearing checks can help detect early symptoms of over-exposure to hazardous noise.
    • Effective follow-up for workers with hearing shifts can help prevent permanent noise-induced hearing loss.
    • Quality audiometric testing programs rely on consistent procedures, standardized practices, and competent personnel.
    • Careful review of hearing test results help determine what follow-up actions are needed and if workplace noise is a factor.
    • The audiometric database is a snapshot of the hearing health of the noise-exposed workforce and can be used to identify trends and develop intervention plans.
    • Annual audiogram
    • Audiogram
    • Audiologist
    • Audiometer
    • Baseline audiogram
    • Baseline revision
    • Bio-acoustic simulator
    • Calibration
    • Decibel
    • Hearing Level
    • Hearing Threshold
    • Hertz
    • Maximum Permissible Ambient Noise Levels
    • Noise-induced hearing loss
    • Occupational Hearing Conservationist
    • Permanent threshold shift
    • Problem audiogram
    • Professional Supervisor
    • Retest audiogram
    • Standard Threshold Shift (STS)
    • Temporary threshold shift

Purposes of Audiometric Testing

  • Purposes of Audiometric Testing
    • Checking hearing, through an on-going monitoring program, is the health surveillance part of the hearing loss prevention program (HLPP). When workers are allowed to be in hazardous noise, they should be checked routinely. The purpose of the hearing check is to identify small changes in hearing which may be a symptom of being over-exposed to noise. Workers who show no changes in hearing, in spite of working in hazardous noise, are assumed to be well-protected. However, those who show hearing threshold shifts, need an intervention plan.
    • Hearing testing can also be done in order to qualify (or disqualify) a worker from a particular job, if that job has written criteria for hearing. For example, in order to be licensed, an airplane pilot or commercial driver must have good enough hearing to meet the requirements.
    • Hearing evaluations can also be performed to determine the cause of the hearing loss for purposes of determining if a hearing loss is work-related.

Getting Started With Audiometric Testing

Audiometric Testing Basics

  • By regulation, all workers who are noise-exposed at or above the action level (85 dBA TWA), must be included in the audiometric testing program. This includes workers who are noise-exposed every day as well as those who are exposed only one day per year. Employers may choose to expand the program to include other workers; however, it is helpful to specify who is required and who is optional before the testing cycle starts. Look for noise exposure information in the noise survey records/reports. Noise surveys typically help to identify which areas, jobs, and/or individuals, are at or above the action level.

  • Knowing how many workers will be tested annually will help to determine the best method for delivering the hearing tests. Many factors, such as quality, employee time away from the job, flexibility, space, personnel, access to records, and total cost of the program, are all typically considered. The goal is to establish a robust long-term program that is stable and continuous. Keep in mind that the cost of poor quality can be high, not only in dollars, but also in wasted time and effort, worker health, productivity, and morale, and employer liability.

  • Scheduling the tests is somewhat dependent on the method chosen for delivering them. For example, the testing can be spread throughout the year or done within the same week or month every year. Some considerations for scheduling are: the time or season of the year, the start and end times of the work shift, and the availability of workers to be away from job tasks. Employees who need a baseline test should avoid workplace noise exposure for 14 hours, or wear hearing protection, before the test.

    Conducting hearing checks also gives other opportunities to interact with workers. Extra training can be provided and the condition and fit of the hearing protection can be checked.

  • Once the tests are completed, there is usually follow-up work to be done. At a minimum, OSHA regulations state that all “problem audiograms” must be reviewed by a physician or audiologist. This means that workers who may have a significant change in hearing, signs of a hearing loss, or questionable test results, should have their records reviewed by a professional to determine if and what additional intervention is needed.

  • There are many types of follow-up actions that may be necessary based on the audiometric test results and the medical history information given by the worker. Some types of follow-up are required and others are optional. It is typically helpful to work with a physician or audiologist to outline follow-up and intervention needs. Some examples of follow-up actions are: retesting and retraining workers who have experienced a standard threshold shift (STS), retesting a worker who had an incomplete or invalid test, referring workers with signs of medical conditions to a physician or audiologist, fit-testing of hearing protection, investigating workplace hazards, and determining work-related hearing loss.

Audiometric Testing Trifecta

Requirements for Audiometric Testing

Review the Basics of Audiometric Testing

Requirements for audiometric testing are detailed in the OSHA 29 CFR 1910.95 Hearing Conservation Amendment. The following is a brief summary of the requirements; the regulation itself should be consulted for actual language and/or use. Note that state OSHA plans may also have additional requirements.

  • Who must have an audiometric test? Who can perform the test?

    Who must have an audiometric test?

    All employees who are exposed at or above the OSHA action level (85 dBA TWA) must be in an audiometric monitoring program.

    Who can perform the audiometric test?

    Testing can be completed by a licensed or certified audiologist, otolaryngologist (ear, nose, and throat physician), or other physician, OR by a certified technician. Certification for audiometric technicians is available through the Council for Accreditation in Occupational Hearing Conservation (CAOHC). See www.caohc.org. If the technician is not certified, he or she must be able to demonstrate competency. All technicians who conduct hearing tests must be responsible to an audiologist or physician.

    • Audiometric testing must be available at no cost to the employees.
    • Audiometers must meet specified equipment and calibration requirements.
    • Testing must be conducted annually for OSHA compliance. Other regulatory agencies specify different test schedules.
    • Pure tone air-conducted thresholds are obtained for a minimum of the following frequencies: 500, 1000, 2000, 3000, 4000, 6000 Hz. Each ear is tested separately. Threshold finding procedures must follow an approved, standardized method.
    • Baseline tests must be preceded by 14 hours away from workplace noise OR hearing protection must be used.
  • Baseline tests

    Done within the first 6 months of noise exposure at or above 85 dBA TWA unless a mobile test van is used. In that case up to 12 months is allowed, however, hearing protection must be used if the test is done after 6 months.

    There must be a 14-hour period of no workplace noise exposure before the baseline test. Hearing protection is allowed to be used as a substitute for the 14 hour noise free period.

    Annual tests must be completed every 12 months or sooner and may be conducted at any time during the work shift.

    Retest: if a worker shows STS on the annual test when compared to the baseline, a retest may be done within 30 days of the annual test. The retest is optional.

  • The background noise where the hearing test is conducted must meet specific noise levels:

    OSHA MAXIMUM ALLOWABLE OCTAVE-BAND SOUND PRESSURE LEVELS* FOR AUDIOMETRIC TEST ROOMS

    • 500 Hz: 40 dB SPL
    • 1000 Hz: 40 dB SPL
    • 2000 Hz: 47 dB SPL
    • 4000 Hz: 57 dB SPL
    • 8000 Hz: 62 dB SPL

    *Permissable noise for ears covered with MX-41/AR cushions.


Beyond the Basics

NIOSH (PDF, 6.85 MB)
  • Testing Considerations
    • Ensure the audiometric technician has current CAOHC (or equivalent) certification,
    • Include 8000 Hz in the test frequencies to allow better identification of possible noise-induced hearing loss,
    • Minimize distracting background noise in the test room by applying lower maximum octave band limits, similar to a clinical environment,
    • Consider use of insert earphones to minimize background noise, improve hygiene, and reduce masking needs,
    • Do not allow the use of hearing protection as a substitute for the 14-hour noise-free interval before the baseline test,
    • Schedule the annual audiograms during the work shift to better identify changes in hearing thresholds due to on-the-job noise exposure,
    • Offer an “exit audiogram” for workers who are either leaving the HLPP or terminating employment.
  • Intervention Strategies
    • Emphasize early identification of NIHL symptoms: do not apply age-corrections when identifying STS, OR use a different metric, such as the NIOSH definition of significant threshold shift,
    • Expand the intervention protocol by enhancing the worker education,
    • Verify hearing protection attenuation through hearing protection fit-testing,
    • Investigate and implement noise control options.

Have You Considered?

Answers to common questions per OSHA 1910.95

  • IMPORTANT NOTE: This information is based on selected current national requirements. Other country or local requirements may be different. Always consult User Instructions and follow local laws and regulations. This website contains an overview of general information and should not be relied upon to make specific decisions. Reading this information does not certify proficiency in safety and health. Information is current as of the date of publication, and requirements can change in the future. This information should not be relied upon in isolation, as the content is often accompanied by additional and/or clarifying information. All applicable laws and regulations must be followed.