Table 1.
Description of the articles selected for review with the effects of exposure
| Author, year | Design | Population: sex and age | Profession | Exposure | Period | Country | Exposure effects |
|---|---|---|---|---|---|---|---|
| Alonso-Díaz, 2014[36] | Cross-sectional | 207 41 ± 8 years and 42 ± 6 years Men | Body shops and assembling | ≥85 dB(A) | <10 years 10–20 years> 20 years |
Spain | In one third of workers exposed audiometry were obtained compatible with hearing injuries noise |
| Flamme and Williams, 2013[14] | Cross-sectional |
n=321 Men and women Age: ≥18 years. Predominantly between 30 and 60 years |
Referees | Whistle (104–116 dB (A) from 90 to 95 s respectively) | Questionnaire: 1 day | Michigan (EEUU) | Whistle use contributes to approximately 36% of hearing lose in referees and to tinnitus appearance |
| Chung et al., 2012[11] | Repeated measures |
N: 81 agriculture equipment factory N: 371 firemen Men |
Agricultural equipment factory and firemen | Agricultural equipment factory and firemen: 82 dB (A) (66–97)Firemen: 76–79 dB(A) | Study duration: 4 years (2006–2009) Exposed: 8 h/5 days of week Not exposed: 9 h, 2 consecutive days, 15 evening hours of 2 consecutive days and 2 free days |
South Korea | Agricultural equipment factory workers have higher level of hearing loss (P < 0.0001) in both ears, adjusted to age, work duration and yes/no smokers. These results are significant after 10 years of work history in stratified analysis |
| Kitcher et al., 2012[18] | Comparative cross-sectional |
N: 140 stone crushers (42.58 ± 7.85 years) N: 150 healthy workers (42.19 ± 12 years) Men and women |
Stone crusher | 61.2–99.6 dB(A) | Exposure period: 0–30 years | Ghana | Suggestive noise-induced hearing lose in 21.5% of crushers |
| Jensen et al., 2009[19] | Case and control | 42 team leaders (mean age: 47.8 years); 42 plane mechanics (45.8 years); 17 ex-team leaders Men | Mechanics | 144 dB (peak) and 124 dB (L(eq)), during limited time. Highest sound pressure of 2–4 kHz levels | Mean of worked years: 19.6 years for team leaders and 24.1 years for mechanics | Denmark “intuit” | The ex-team leaders show a lower number of diseases related with hearing and a higher number of respiratory diseases (significant) |
| El Dib et al., 2008[20] | Cross-sectional |
n: 82 sound technicians n: 95 controls Age: >19 years Men and women |
Sound technicians | Noise (music sound) | Minimum 5 years of exposure Majority between 5 and 14.9 years) | Brazil | A higher number of diseases between sound technicians (26.8%) that controls (11.5%) statistically significant |
| Kaerlev et al., 2008[15] | Cohort |
N: 5994 sailors N: 2740 fishermen 20–59 years Men and women |
Sailors and fishermen | Not available | Duration results not contemplated Recruitment period: (1989–1998) Follow-up period: 1994–2003 Exposure period of <6 years to >12 years | Denmark | Workers in engine rooms of vessels had more frequent hearing problems No available data for the accumulative effects of a long period RR = 2.39 (IC 95% 1.74–3.26) |
| Korres et al., 2008[24] | Case and control |
N exposed = 139 (86 men and 53 women) (mean age: 41.9 ± 9.0 years range: 24–54 years) N controls = 32 (18 men and 14 women) (mean age: 38.4 ± 6.9 years range: 25–53 years) |
Food processing factory workers (Bakery) | 92 dB(A). Steady continuous noise | Follow-up period: 2 years (2005–6) Mean exposure time: 11.8 ± 6.9 years (1–33 years) | Not available | Significant statistical correlation between pure tone threshold and exposure time to all frequencies between 250 and 20,000 Hz except in 10,000 Hz.are not sex-dependent |
| Vangelova and Deyanov, 2007[7] | Case and control |
N: 545 n: 271 intense noise (age 44.7 ± 10.2 years) n: 159 heat (age 40.3 ± 10.6 years) n control: 115 (41.5 ± 9.2 years)Age: <32 years; 33–45 years; >46 years Men |
Industry workers | Intense noise (86–92 dB(A)) and environmental heat (35.4°C (28.4–41.7) | <9 years 10–19 years> 20 years | Not available | AP: 140/90 mmHg is significantly higher in individuals of mean age exposed to noise (of mean age) in both groups (P < 0.05).Dyslipidemia levels were significantly higher in mean age individuals exposed to heat and in both exposed age groups (P < 0.05) |
| Shupak et al., 2007[23] | Controlled prospective cohort |
N exposed = 42 N not exposed = 4 Men 18–20 years |
Engine rooms workers | Exposed: 87–117 dB(A) (use ear protectors) Not exposed: <80 dB(A) | Follow-up period: 2 years | Israel | Significant elevation was shown in groups exposed to thresholdPTaud to 4000 Hz in both ears and to 6000 Hz in the left ear |
| Dias et al., 2006[21] | Cross-sectional |
N: 284 20–72 years (media: 42.51 years) Men and women |
Several professions | Not available | Recruitment: April–October 2003 | Brazil | Increase of tinnitus with a progression of hearing damage, controlled by age and wave noise exposure |
| Dement et al., 2005[22] | Case and control | n = 3510 Audiometric test participants: Age: 56.6 years and mean work time: 12.2 years Men and women | Construction and shop workers (trade workers) | Co: <80 dB(A) | Recruitment: 1996–2003 | EEUU | The risk of disability in construction workers was higher. Smokers and exposed to high noises OR 95% = 2.7 (2.0–3.6) |
| Rios and da Silva, 2005[37] | Case and control | 4033–50 years Men |
Unknown | ≥85 dB(A) | 40 h/week more than 8 years | Brazil | Mild and moderate noise-induced hearing loss (P < 0.01) |
| Gitanjali and Dhamodharan, 2004[35] | Retrospective cohort | 8 participants in each group 24 controls (20–45 years) Men and women |
Conductors of “autorickshaws” | Occupational noise >75 dB during 1 or 2 years. Occupational noise >75 dB during 5–10 years Occupational noise a >75 dB during >15 years | Study period: 2000–2001 | India | Could be concluded that workers exposed to high levels of occupational noise increase the risk of low sleep quality But the adaptation to this effect probably takes some years |
| Leme, 2001[26] | Case and control | Ca: 61 employees of San Francisco Oliveira Public Health Service State Hospital Mean: 44.67 ± 9.45 years (29–62 years)Co: 30 Sex not available |
Ca: San Francisco Oliveira Public Health Service State Hospital |
Carpentry: mean 94.65 dBSawmill: mean 94.65 dBMechanics: mean 97.6 dBLaboratory: mean 85.5 dBFrequencies used: 250, 500, 1000, 2000, 3000, 4000, 6000 and 8000 Hz |
Study from 1996 to 1997 Test was performed after 14 h of sound response |
Not available | Significant differences in all the frequencies even for right (P < 0.005) or left ear (P < 0.02) |
| Tomei et al., 2000[25] | Case and control |
N = 52 bedframe N = 65 light metal N = 64 office workers Men Mean age: 48.2 ± 7.2 years |
Bedframe factory workers | >90 dB(A) (exposed) | Mean exposure period: 21.2 ± 6.7 years | Not available | Mean systolic and diastolic of bedframe workers is significantly higher that control groups Bedframe workers exposed to >90 dB present higher means of systolic and diastolic that those exposed to <90 dB |
| Lee, 1999[27] | Cross-sectional | 43 exposed employees (mean age: 23.9 years) 37 controls Sex not available |
Nightclub workers | >85 dB | Mean exposure time: 5.1 h (3.6–6.9 h) | Singapore | The exposed group had a higher significant prevalence of (41.9%) sensorineural hearing lose respecting to their control group (13.5%), also suffer more tinnitus (21% versus to 2.7%) |
| Casson et al., 1998[28] | Cross-sectional | Fishermen: 139 (45.39 ± 9.57 years) Control: 136 (40.75 ± 8.37 years) Men |
Deep-sea fishermen | Not available | Not available | Italy | Deep-sea fishing RR = 3.64 (1.07–12.4), years working as fisher (RR = 1.60 (1.16–2.20) and the age (RR = 2.04 (1.47–2.83) have influence on the noise-induced hearing lose in a significant way. Also, the exposure to noise produce an increase in systolic pressure (RR = 190 (1.03–3.51) |
| Szczepanński and Otto, 1995[29] | Case and control | Not available | Vessels crew and engine room workers | 93–102 dB(A)3000–4000 Hz | Study workers: 1975–1988 | Poland | The higher increase of hearing threshold in the range of 5.0–5.8 dB was shown in engine rooms workers in different types of vessels |
| Hirai et al., 1991[30] | Cross-sectional |
N: 2124 industry workers (age: 20–59 years) Exposed to 85–115 dB: 615 Exposed to <85 dB: 1141 Silent office: 368 men |
Industry | Exposed to 85–115 dBExposed to <85 dB Silent office | 10 years | Japan | The prevalence of hearing lose in exposed group to levels of 85–115 dB is of 16.5% higher that moderate group (7.5%) and than the silent one (2.8%) Significant |
| Tarter and Robins, 1990[31] | Cross-sectional |
N: 150 White workers N: 119 Black workers of 35–65 years Men |
Car factory | >85 dB(A), 8 h/day | ≥5 exposure years | Not available | Hearing lose to 4000 Hz and worked years in jobs with high level of noise are significantly associated with the mean of arterial pressure and for hypertension between black workers but not for white ones |
| Thiery and Meyer-Bisch, 1988[32] | Cross-sectional |
N: 234 Not exposed: exposed to 80 dB(A)Exposed: >95 dB(A) (3 groups divided by age) Sex not available |
Sheet metal workshop in a car factory | 95 dB(A) | <20 years | Not available | Significant hearing lose after 9 years of exposure in comparison with a quasi-steady exposure to the same extent Hearing lose higher at 6 kHz than a 4 kHz |
| Mäntysalo and Vuori, 1984[12] | Case and control |
N:99 Group 1 exposed 3 and 4 years to impulse noise (age: 24.6 ± 2.83 years): 10 Group 2 exposed 5 and 6 years to impulse noise (28.3 ± 2.83 years): 10 Group 3 exposed 7–10 years (30.1 ± 2.23 years): 10 Exposed to continuous steady-state noise (28.3 ± 4.87 years): 12 Group control (23.8 ± 3.36 years): 10 Men Born in 1940 or later |
Exposed to boost: Noise: electroplating workers and welder Exposed to continuous steady-state noise: Workers of cable factory | Environmental noise: 80–85 dBPeaks from 130 to 140 dB and inclusive 150 dB from 300 to 800 ms | Exposed to impulse noise: 3–10 years Exposed to continuous steady-state noise: 5–42 years | Finland | Most of the exposed to impulse noise used hearing protectors, practically none used it in steadyThose exposed to impulse noise (using or not ear protectors) had higher hearing lose than those exposed to steady Higher sensibility was shown with frequencies between 4000 and 6000 Hz |
| Sataloff et al., 1983[33] | Cross-sectional |
N: 295 Sex and age not available |
Different type of factories: wood, paper, “pulp” water company, steel, gas company, “smelting company,” foundry, electrical | 99–118 dB(A) | 1 to >20 years | Not available | An intermittent exposure to intense noise frequencies results in a very sever lose but is relatively lower or not the hearing lose at lower frequencies even after many years of exposure |
| Sulkowski et al., 1981[34] | Retrospective cross-sectional | 14,81129–60 years Men and women | Majority miners and textile industry employees | ≥90 dB(A) | Follow-up period: 1971–9 | Poland | It was shown a noise-induced hearing lose (INHL) in all the professions Incidence: 16/100,000 employees The highest rates were for industry transporters, miners and textile industry |