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Abstract

Background:

Occupational exposure to high levels of noise increases the risk of noise-induced hearing loss (NIHL), resulting in significant long-term quality of life implications. Hearing protection is recommended if occupational noise exposure routinely exceeds 85 decibels (dB). The purpose of this study was to determine if foot and ankle surgeons are exposed to excessive levels of noise, thus putting them at an increased risk for NIHL.

Methods:

A prospective review was conducted of intraoperative recordings during a variety of foot and ankle procedures. Recordings were categorized into 3 subgroups: trauma, deformity correction and degenerative conditions, and soft tissue procedures. Noise levels were reported as maximum dB level (MDL) and time-weighted average (TWA), defined as the average dB level projected over an 8-hour period. Dose was reported as the percentage of allowable daily noise, with projected dose reported as the measured dose projected over an 8-hour period.

Results:

A total of 147 operative recordings consisting of 64 (44%) deformity correction and degenerative conditions, 40 (27%) soft tissue procedures, and 43 (29%) trauma cases were collected. Maximal and average noise exposures were similar for all procedures (P = .077; P = .090), with an average MDL of 98.9 dB (range, 87.9-109.2) and TWA of 60.5 dB. Procedures also did not significantly differ in dose (P = .273), even when projected over an 8-hour period (P = .362). The average MDL of total ankle arthroplasty (TAA) and hindfoot arthrodesis procedures was 101.5 dB (range, 93.9-109.2), with 52% of all deformity correction and degenerative procedures having an MDL over 100.0 dB.

Conclusion:

Foot and ankle surgeons are typically not exposed to dangerous levels of occupational noise as per National Institute for Occupational Safety and Health recommendation; however, specific procedures, such as arthrodesis and TAA, routinely achieve noise levels that are above the recommended limits.

Keywords

decibel noise-induced hearing loss noise foot and ankle hearing loss

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References

Balogh

Kittinger

Benzer

Hackl

JM.

Noise in the ICU. Intensive Care Med. 1993;19(6):343-346.

Biley

FC.

Effects of noise in hospitals. Br J Nurs. 1994;3(3):110-113.

Broom

Capek

Carachi

Akeroyd

Hilditch

Critical phase distractions in anaesthesia and the sterile cockpit concept. Anaesthesia. 2011;66(3):175-179.

Busch-Vishniac

West

Barnhill

Hunter

Orellana

Chivukula

Noise levels in Johns Hopkins Hospital. J Acoust Soc Am. 2005;118(6):3629-3645.

Centers for Disease Control and Prevention. Noise and occupational hearing loss. 2023.

de Andrade

KCL

Camboim

do Amaral Soares

da Silva Peixoto

Neto

de Lemos Menezes

The importance of acoustic reflex for communication. Am J Otolaryngol. 2011;32(3):221-227.

Dholakia

Jeans

Khalid

Dholakia

D’Souza

Nemeth

The association of noise and surgical-site infection in day-case hernia repairs. Surgery. 2015;157(6):1153-1156.

Ding

Yan

Liu

What is noise-induced hearing loss?

Br J Hosp Med. 2019;80(9):525-529.

Falk

Woods

NF.

Hospital noise—levels and potential health hazards. N Engl J Med. 1973;289(15):774-781.

10.

Hejazi

Moghaddam

Pour

Banaii

Abri

Taghizadieh

Evaluation of volatile and intravenous anesthetics, effects on the threshold of neuroresponse telemetry and the threshold of acoustically evoked stapedial reflex in children undergoing cochlear implant surgery. J Anaesthesiol Clin Pharmacol. 2018;34(2):177-181.

11.

Hodge

Thompson

JF.

Noise pollution in the operating theatre. Lancet. 1990;335(8694):891-894.

12.

Keller

Tschan

Beldi

Kurmann

Candinas

Semmer

NK.

Noise peaks influence communication in the operating room. An observational study. Ergonomics. 2016;59(12):1541-1552.

13.

Keller

Tschan

Semmer

, et al. Noise in the operating room distracts members of the surgical team. An observational study. World J Surg. 2018;42(12):3880-3887.

14.

Kracht

Busch-Vishniac

West

JE.

Noise in the operating rooms of Johns Hopkins Hospital. J Acoust Soc Am. 2007;121(5 Pt1):2673-2680.

15.

Kwan

Lynch

DeFrance

Ciesielka

Rivlin

Daniel

JN.

Risk of noise-induced hearing loss for orthopaedic surgeons. J Bone Joint Surg Am. 2022;104(23):2053-2058.

16.

Lopez

3rd Hart

3rd Katz

MH.

Racial and ethnic health disparities related to COVID-19. JAMA. 2021;325(8):719-720.

17.

Masterson

Tak

Themann

, et al. Prevalence of hearing loss in the United States by industry. Am J Ind Med. 2013;56(6):670-681.

18.

McNeer

Bennett

Horn

Dudaryk

Factors affecting acoustics and speech intelligibility in the operating room: size matters. Anesth Analg. 2017;124(6):1978-1985.

19.

Nelson

Concha-Barrientos

Fingerhut

The global burden of occupational noise-induced hearing loss. Am J Ind Med. 2005;48(6):446-458.

20.

Palmer

Fraig

Wilson

Garrett

SJW

. Noise evaluation of arthroplasty theaters: results from the NEAT study. J Arthroplasty. 2021;36(5):1819-1822.

21.

Palmer

Wilson

Fraig

Wilson

Garrett

Hearing Evaluation of ARthroplasty Surgeons: results from the HEARS study. Ann R Coll Surg Engl. 2021;103(9):673-677.

22.

Peters

Feczko

Tsang

van Rietbergen

Arts

Emans

PJ.

Noise exposure in TKA surgery; Oscillating tip saw systems vs oscillating blade saw systems. J Arthroplasty. 2016;31(12):2773-2777.

23.

Shapiro

Berland

Noise in the operating room. N Engl J Med. 1972;287(24):1236-1238.

24.

Tak

Davis

Calvert

GM.

Exposure to hazardous workplace noise and use of hearing protection devices among US workers—NHANES, 1999-2004. Am J Ind Med. 2009;52(5):358-371.

25.

The Joint Commission. Quick Safety 35: minimizing noise and distractions in the OR and procedural units. 2017.

26.

Way

Long

Weihing

, et al. Effect of noise on auditory processing in the operating room. J Am Coll Surg. 2013;216(5):933-938.

27.

Willett

KM.

Noise-induced hearing loss in orthopaedic staff. J Bone Joint Surg Br. 1991;73(1):113-115.

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Occupational Noise Exposure in Foot and Ankle Surgery and the Risk of Noise-Induced Hearing Loss

Abstract

Background:

Methods:

Results:

Conclusion:

Keywords

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References

Supplementary Material