Tehran University of Medical Sciences

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):
Share By
Assessment of Effects of Concomitant Exposure to Sound, Heat, and Physical Workload Changes on Physiological Parameters in Five Different Combination Modes, a Controlled Laboratory Study Publisher



Molaeifar H1 ; Khajehnasiri F2 ; Nikeghbal K3 ; Zamanian Z1
Authors

Source: Sound and Vibration Published:2020


Abstract

Exposure to sound, heat, and increased physical workload can change physiological parameters. This study was conducted to evaluate the effect of concomitant exposure to sound, heat, and physical workload changes on physiological parameters in controlled laboratory conditions. This experimental cross-sectional study was conducted in 35 male university students with a mean age of 25.75 years and a mean BMI of 22.69 kg/m2. Systolic and diastolic blood pressure and heart rate were measured after 15 min rest in the laboratory, 5 and 10 min after starting the experiment, and then after 20 min in controlled laboratory conditions in five combination modes. The combination modes were (Sound: 65 dB, WBGT: 22°C, Speed: 1.7, Slope: 10%), (Sound: 65 dB, WBGT: 22°C, Speed: 3.4, Slope: 14%), (Sound: 95 dB, WBGT: 22°C, Speed: 1.7, Slope: 10%), (Sound: 65 dB, WBGT: 32°C, Speed: 1.7, Slope: 10%), and (Sound: 95 dB, WBGT: 32°C, Speed: 3.4, Slope: 14%). Mixed model analysis and paired t-test were applied for analysis. The results showed that the mean physiological parameters (Systolic and diastolic blood pressure and heart rate) increased when different combination modes worsened (Sound from 65 to 95 dB, WBGT from 22°C to 32°C, speed from 1.7 to 3.4, and slope from 10% to 14%, and when sound: 95 dB, WBGT: 32°C, Speed: 3.4, and Slope: 14%). Moreover, the mean changes of systolic and diastolic blood pressure were significant in all conditions when compared with the reference condition (Sound: 65 dB, WBGT: 22°C, Speed: 1.7, and Slope: 10%). The mean heart rate changes were also significant except for exposure to the second condition (Sound: 65 dB, WBGT: 22°C, Speed: 3.4, Slope: 14%) and the third condition (Sound: 95 dB, WBGT: 22°C, Speed: 1.7, Slope: 10%). Exposure to hazardous levels of sound, heat, and workload has adverse effects on physiological parameters. Concomitant exposure to all three hazards has a synergistic effect and increases the adverse effect. © 2020 Tech Science Press. All rights reserved.
Related Docs
View other Related Docs
1. Assessment of Role of Job Components and Individual Parameters on the Raised Blood Pressure in a Noisy Industry, Archives of Acoustics (2019)
2. Combined Effect of Whole-Body Vibration and Ambient Lighting on Human Discomfort, Heart Rate, and Reaction Time, International Archives of Occupational and Environmental Health (2018)
3. Research Paper: Combined Effect of Noise and Smoking on the Cognitive Performance of Automotive Industry Workers, Basic and Clinical Neuroscience (2019)
Experts (# of related papers)
View all Related Experts
Mohammad Reza Monazzam-Esmaeelpour (5)
Farideh Golbabaei (5)
Other Related Docs
4. Features of an Ergonomic Chair Designed for Surgeons Performing Microscopic Surgeries, Malaysian Journal of Medicine and Health Sciences (2021)
5. Modeling Signal-To-Noise Ratio of Otoacoustic Emissions in Workers Exposed to Different Industrial Noise Levels, Noise and Health (2016)
6. Investigating the Effect of Workplace Noise Exposure on Cardiovascular Disease Risk Factors in a Power Plant Industry: A Case-Control Study, Work (2023)
7. The Relationship Between Workplace Stressors With Performance and Mental Fatigue of Technical Office Employees in Open Plan Layouts, Iran Occupational Health (2023)
8. Association of the Working Environment Noise With Occupational Stress in Industrial Workers, Journal of Public Health (Germany) (2023)
9. Autonomic Nervous System Responses to Whole-Body Vibration and Mental Workload: A Pilot Study, International Journal of Occupational and Environmental Medicine (2019)
10. The Influence of Occupational Heat Exposure on Cognitive Performance and Blood Level of Stress Hormones: A Field Study Report, International Journal of Occupational Safety and Ergonomics (2017)
11. Association Between Climate Change and Impacts of Heat Stress Among Mining Employees: A Systematic Review and Meta-Analysis, Journal of Public Health (Germany) (2025)
12. Relationship Between Occupational Exposure to Whole-Body Vibration and Noise With Sex Hormone Levels: An Empirical Assessment in an Automobile Parts Manufacturing Plant, Toxicology and Industrial Health (2021)
13. Evaluation of Environmental Heat Stress on Physiological Parameters, Journal of Environmental Health Science and Engineering (2017)
14. Exposure to Heat Stress in the Workplace: A Systematic Review, Iran Occupational Health (2018)
15. The Effect of Whole Body Vibration (Wbv) on Discomfort, Heart Rate and Reaction Time in Men 20 to 30 Years, Iran Occupational Health (2018)
16. The Effect of Sound With Different Frequencies on Selective Attention and Human Response Time, Iran Occupational Health (2018)
17. Validity of Eighteen Empirical Heat Stress Indices in Predicting the Physiological Parameters of Workers Under Various Occupational and Climatic Conditions, Urban Climate (2023)
18. Covid-19 Effects on the Mental Workload and Quality of Work Life in Iranian Nurses, Annals of Global Health (2021)
19. Relationship Between Noise Annoyance and High Blood Pressure in Workers Exposed to Chronic Noise Among the Workers of an Automotive Industry, Indian Journal of Occupational and Environmental Medicine (2020)
20. Study of Noise Loudness and Sharpness Effects on Cognitive Performance on Male Students of Tehran University of Medical Sciences, Journal of Health and Safety at Work (2022)