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2023: Two-year Impact Factor: 2.4
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CiteScore (2023):7.1
 
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Health Promot Perspect. 2019;9(1): 55-64. doi: 10.15171/hpp.2019.07
PMID: 30788268        PMCID: PMC6377698

Original Article

The impact of indoor air temperature on the executive functions of human brain and the physiological responses of body

Ali Mohammad Abbasi 1, Majid Motamedzadeh 1 * , Mohsen Aliabadi 1, Rostam Golmohammadi 1, Leili Tapak 1

Cited by CrossRef: 30


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11- Tamura K, Matsumoto S, Tseng Y, Kobayashi T, Miwa J, Miyazawa K, Matsumoto S, Hiramatsu S, Otake H, Okamoto T. Physiological comfort evaluation under different airflow directions in a heating environment. J Physiol Anthropol. 2022;41(1) [Crossref]
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18- Khanehshenas F, Mazloumi A, Nahvi A, Nickabadi A, Aghamalizadeh A, Keihani A. Evaluation of driver drowsiness based on respiratory metrics. WOR. 2024;78(3):747 [Crossref]
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22- Zand S, Motlagh M, Golmohammadi R, Aliabadi M, Tapak L, Babamiri M. Effects of wearing medical gowns at different temperatures on the physiological responses of female healthcare workers during the COVID-19 pandemic. WOR. 2024;78(3):601 [Crossref]
23- Sepehri S, Aliabadi M, Golmohammadi R, Babamiri M. Human cognitive functions and psycho-physiological responses under low thermal conditions in a simulated office environment. WOR. 2021;69(1):197 [Crossref]
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28- Bardhan S, Nath S, Debnath T, Bhattacharjee D, Bhowmik M. Designing of an inflammatory knee joint thermogram dataset for arthritis classification using deep convolution neural network.. Quantitative InfraRed Thermography Journal. 2022;19(3):145 [Crossref]
29- Liu C, Zhang Y, Sun L, Gao W, Jing X, Ye W. Influence of indoor air temperature and relative humidity on learning performance of undergraduates. Case Studies in Thermal Engineering. 2021;28:101458 [Crossref]
30- Huang H, Li Y, Zhao Y, Zhai W. Analysis of the impact of urban summer high temperatures and outdoor activity duration on residents' emotional health: Taking hostility as an example. Front Public Health. 2022;10 [Crossref]
31- Yin P, Xie J, Ji Y, Liu J, Hou Q, Zhao S, Jing P. Winter indoor thermal environment and heating demand of low-quality centrally heated houses in cold climates. Applied Energy. 2023;331:120480 [Crossref]
32- Li X, Zhang J, Li B. Patterns in negative emotions, sleep disorders, and temperature: Evidence from microblog big data. Heliyon. 2023;9(11):e21987 [Crossref]
33- Dixit A, Bhattacharya B. Sensory perception of environmental cues as a modulator of aging and neurodegeneration: Insights from Caenorhabditis elegans. J of Neuroscience Research. 2021;99(10):2416 [Crossref]
34- Huang H, Liu X, Ren L. Analysis of the spatiotemporal mechanism of high temperature on residents’ irritability in Beijing based on multiscale geographically weighted regression model. Front Ecol Evol. 2022;10 [Crossref]
35- Arata S, Kawakubo S. Study on productivity of office workers and power consumption of air conditioners in a mixed-mode ventilation building during springtime. Building and Environment. 2022;214:108923 [Crossref]
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Indexing and Abstracting

2-year Impact Factor: 2.4

SCOPUS CiteScore: 7.1

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