Evaluation of Noise Exposure Secondary to Wind Noise in Cyclists
Recommended Citation
Seidman MD, Wertz AG, Smith MM, Jacob S, and Ahsan SF. Evaluation of noise exposure secondary to wind noise in cyclists Otolaryngol Head Neck Surg 2017 Nov;157(5):848-852.
Document Type
Article
Publication Date
11-1-2017
Publication Title
Otolaryngology and head and neck surgery
Abstract
Objective Determine if the noise levels of wind exposure experienced by cyclists reach levels that could contribute to noise-induced hearing loss. Study Design Industrial lab research. Setting Industrial wind tunnel. Subjects and Methods A commercial-grade electric wind tunnel was used to simulate different speeds encountered by a cyclist. A single cyclist was used during the simulation for audiometric measurements. Microphones attached near the ears of the cyclist were used to measure the sound (dB sound pressure level) experienced by the cyclist. Loudness levels were measured with the head positioned at 15-degree increments from 0 degrees to 180 degrees relative to the oncoming wind at different speeds (10-60 mph). Results Wind noise ranged from 84.9 dB at 10 mph and increased proportionally with speed to a maximum of 120.3 dB at 60 mph. The maximum of 120.3 dB was measured at the downwind ear when the ear was 90 degrees away from the wind. Conclusions Wind noise experienced by a cyclist is proportional to the speed and the directionality of the wind current. Turbulent air flow patterns are observed that contribute to increased sound exposure in the downwind ear. Consideration of ear deflection equipment without compromising sound awareness for cyclists during prolonged rides is advised to avoid potential noise trauma. Future research is warranted and can include long-term studies including dosimetry measures of the sound and yearly pre- and postexposure audiograms of cyclists to detect if any hearing loss occurs with long-term cycling.
Medical Subject Headings
Adult; Bicycling; Hearing Loss, Noise-Induced; Humans; Male; Wind
PubMed ID
28742424
Volume
157
Issue
5
First Page
848
Last Page
852