Solution Summary: Audiometric Testing
Description:
Audiometric testing measures and documents hearing and hearing loss. The person being tested sits in a quiet environment, usually a soundproof booth, and uses a pair of headphones to listen to a series of tones of alternating volume and pitch. The person being tested presses a button or signals as soon as they are able to hear a tone, no matter how faintly. After the person has responded to a variety of tones, the information is compiled and presented in an audiogram, a table that shows a person’s degree of hearing loss across several pitches, or frequencies. Because the human ear is better at hearing lower frequencies (a deep rumble is easier to hear than an extremely high-pitched whistle), the degree of hearing loss usually increases as the frequency (measured in Hertz, or Hz) of the sound gets higher. A person with excellent hearing can usually hear sounds between 20 and 20,000 Hz, although human speech normally stays between 500 and 5000 Hz. A standard audiogram will show the degree of hearing loss from 250 Hz to 8000 Hz, measured as the increase in volume needed for the person to hear the sound compared to a person with normal hearing.
Risks Addressed:
dBA |
OSHA |
NIOSH |
80 |
32 hours |
>24 hours |
85 |
16 hours |
8 hours |
90 |
8 hours |
2.5 hours |
95 |
4 hours |
47.6 minutes |
100 |
2 hours |
15 minutes |
105 |
1 hour |
4.7 minutes |
110 |
30 minutes |
1.5 minutes |
115 |
15 minutes |
28 seconds |
120 |
7.5 minutes |
9 seconds |
125 |
3.8 minutes |
3 seconds |
Table 1.
Many common construction tasks produce high levels of noise. A concrete saw typically produces around 98 dB, and a jackhammer usually gives off around 102 dB. Hearing loss is a function of noise intensity and duration. According to the NIOSH criteria in Table 1 above, a worker could operate a bulldozer (about 100 dB) for around 15 minutes before they started to sustain permanent hearing loss (https://www.osha.gov/Publications/3498noise-in-construction-pocket-guide.pdf).
How Risks are Reduced:
Audiometric testing measures and documents hearing loss. Because hearing loss is progressive and irreversible, prevention is extremely important. Since many construction workers are regularly exposed to noise above 85 dB, your employer should take steps to ensure that your hearing is protected. This can include buying quieter tools, isolating noisy work, or providing effective hearing protection. Annual audiometric testing will show if these controls are working.
- Monitoring of employee noise exposures.
- The institution of engineering, work practice, and administrative controls for excessive noise.
- The provision of each overexposed employee with an individually fitted hearing protector with an adequate noise reduction rating.
- Employee training and education regarding noise hazards and protection measures.
- Baseline and annual audiometric testing.
- Procedures for preventing further occupational hearing loss by an employee whenever such an event has been identified.
- Recordkeeping.
Additional Considerations:
Contributors:
Sara Brooks, MPH: CPWR - The Center for Construction Research and Training
Rosemary K. Sokas, MD, MOH: Georgetown University School of Nursing and Health Studies
Bruce Lippy, Ph.D., CIH, CSP, FAIHA: CPWR - The Center for Construction Research and Training
Hazards Addressed:
- Pipes & Vessels
- Assemble pipes, tubing and fittings
- Assemble vessel structures and parts
- Cut and drill holes in structures prior to pipe installation
- Cut, thread, hammer and bend pipes and vessel tubes
- Deburr and grind pipes and vessel tubes
- Disassemble and remove damaged or worn pipe
- Install pipe assemblies, fittings, valves, appliances and fixtures
- Mount brackets and hangers on walls and ceilings to hold pipes
- Weld, braze, solder, cut, or gouge pipe sections or vessel parts
Availability
American Academy of Audiology
To obtain information, visit Find an Audiologist for Audiometric Testing
or contact 1-703-790-8466