Dehghan Habibollah, Bastami Mohamad Taghi, Mahaki Behzad
Department of Occupational Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran.
Department of Biostatistics and Epidemiology, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran.
J Educ Health Promot. 2017 May 5;6:39. doi: 10.4103/jehp.jehp_107_15. eCollection 2017.
Exposure to noise and heat causes individuals to experience some changes in the function of cardiovascular system in workplaces. This study aimed to find the combined effect of heat and noise on systolic and diastolic types of blood pressure in experimentally controlled conditions.
This quasi-experimental study was performed with 12 male students in a climatic chamber in 2014. Blood pressure including systolic and diastolic was measured in the following conditions: 15 min after rest in exposure to heat (40°C, relative humidity [RH]: 30%), exposure to noise with 75, 85, and 95 dB rates in thermal comfort condition (22.1 ± 0.9 wet-bulb globe temperature), and combined exposure to heat (40°C, RH: 30%) and noise with 75, 85, and 95 dB. Friedman test was used to analyze the data.
The mean change of systolic blood pressure was different significantly before and after exposure to heat and noise levels including 75, 85, and 95 dB ( = 0.015, = 0.001, > 0.001, = 0.027, respectively). Although systolic and diastolic blood pressures changed drastically, it was not significantly different in simultaneous exposure to heat and noise.
Both systolic and diastolic blood pressures decreased in exposure to heat, while exposure to different levels of noise elevates systolic and diastolic blood pressures. However, when exposed to a combination of heat and noise, subtle changes of blood pressure were traced, which can be characterized as average, considering heat-only and noise-only tension situations.
在工作场所接触噪音和高温会使个体的心血管系统功能发生一些变化。本研究旨在发现在实验控制条件下,高温和噪音对收缩压和舒张压的综合影响。
2014年,在气候舱内对12名男学生进行了这项准实验研究。在以下条件下测量收缩压和舒张压:在暴露于高温(40°C,相对湿度[RH]:30%)中休息15分钟后;在热舒适条件(湿球黑球温度22.1±0.9)下分别暴露于75、85和95分贝的噪音中;以及同时暴露于高温(40°C,RH:30%)和75、85和95分贝的噪音中。采用弗里德曼检验分析数据。
暴露于高温以及75、85和95分贝的噪音水平前后,收缩压的平均变化有显著差异(分别为 = 0.015、 = 0.001、 > 0.001、 = 0.027)。虽然收缩压和舒张压变化剧烈,但在同时暴露于高温和噪音时,差异并不显著。
暴露于高温时收缩压和舒张压均下降,而暴露于不同水平的噪音会使收缩压和舒张压升高。然而,当同时暴露于高温和噪音时,血压有细微变化,与仅暴露于高温和仅暴露于噪音的紧张情况相比,可将其特征描述为平均变化。