Pain through climate influence: Prevalence between algic and weather parameters

Authors

DOI:

https://doi.org/10.33448/rsd-v10i8.17172

Keywords:

Pain; Weather; Barometric pressure; Temperature.

Abstract

Chronic pain is a relevant public health problem worldwide and the impact of environmental factors, such as the climate, can be great allies in new therapeutic discoveries. Thus, the objective of the study was to elucidate how meteorological parameters act on pain in terms of prevalence and level of influence, from outpatients with different age groups and morbidities. It is a descriptive analytical, cross-sectional and quantitative study, using an elucidated questionnaire. The statistical analysis used was the Linear Correlation e Wilcoxon-Mann-Whitney, T-Student and Chi-square tests. The meteorological data used were taken from the website of Simepar, Parana’s Technology and Environmental Monitoring System. The sample was composed of 96 patients, being 48% hypertensive, 23% diabetic and 66% with some chronic pain. It was observed that 73% of the participants associate climate as an influencing factor in pain, in which 75.71% report being worse on days of sudden cold. The research findings also show that hypertensive patients suffer 4.87% more pain for each 1hPa increase in barometric pressure (95% CI / 0.92 - 8.82). From these results, it is noted that climatic conditions can have a great clinical influence, especially in patients with chronic diseases, despite of the necessity to longitudinal studies for better understanding.

References

Aragão, J. (2013). Introdução aos estudos quantitativos utilizados em pesquisas científicas. Revista práxis, 3(6).

Beukenhorst, A. L., Schultz, D. M., McBeth, J., Sergeant, J. C., & Dixon, W. G. (2020). Are weather conditions associated with chronic musculoskeletal pain? Review of results and methodologies. Pain, 161(4), 668-683.

Bongers, J., & Vandenneucker, H. (2020). The influence of weather conditions on osteoarthritis and joint pain after prosthetic surgery. Acta Orthopaedica Belgica, 86(1), 1-9.

Carvalho, R. C. D., Maglioni, C. B., Machado, G. B., Araújo, J. E. D., Silva, J. R. T. D., & Silva, M. L. D. (2018). Prevalence and characteristics of chronic pain in Brazil: a national internet-based survey study. BrJP, 1(4), 331-338.

Damnjanović, Z., Jovanović, M., & Stojanović, M. (2013). Correlation between the climatic factors and the pathogenesis of deep vein thrombosis. Hippokratia, 17(3), 203.

Druce, K. L., McBeth, J., van der Veer, S. N., Selby, D. A., Vidgen, B., Georgatzis, K., & Dixon, W. G. (2017). Recruitment and ongoing engagement in a UK smartphone study examining the association between weather and pain: cohort study. JMIR mHealth and uHealth, 5(11), e168.

Estrela, C. (2018). Metodologia científica: ciência, ensino, pesquisa. Artes Médicas.

Fagerlund, A. J., Iversen, M., Ekeland, A., Moen, C. M., & Aslaksen, P. M. (2019). Blame it on the weather? The association between pain in fibromyalgia, relative humidity, temperature and barometric pressure. Plos one, 14(5), e0216902.

Figueiredo, E. C. Q. D., Figueiredo, G. C., & Dantas, R. T. (2011). Influência de elementos meteorológicos na dor de pacientes com osteoartrite: revisão da literatura. Revista Brasileira de Reumatologia, 51(6), 622-628.

Fu, K., Metcalf, B., Bennell, K. L., Zhang, Y., Deveza, L. A., Robbins, S. R., & Hunter, D. J. (2021). Association of weather factors with the risk of pain exacerbations in people with hip osteoarthritis. Scandinavian Journal of Rheumatology, 50(1), 68-73.

Hoag, H. (2009). The meteorology of the human body.

Jamison, R. N., Anderson, K. O., & Slater, M. A. (1995). Weather changes and pain: perceived influence of local climate on pain complaint in chronic pain patients. Pain, 61(2), 309-315.

Lee, M., Ohde, S., Urayama, K. Y., Takahashi, O., & Fukui, T. (2018). Weather and health symptoms. International journal of environmental research and public health, 15(8), 1670.

McAlindon, T., Formica, M., Schmid, C. H., & Fletcher, J. (2007). Changes in barometric pressure and ambient temperature influence osteoarthritis pain. The American journal of medicine, 120(5), 429-434.

Morabito, M., Crisci, A., Orlandini, S., Maracchi, G., Gensini, G. F., & Modesti, P. A. (2008). A synoptic approach to weather conditions discloses a relationship with ambulatory blood pressure in hypertensives. American journal of hypertension, 21(7), 748-752.

Ozeki, K., Noda, T., Nakamura, M., & Ojima, T. (2015). Weather and headache onset: A large-scale study of headache medicine purchases. International journal of biometeorology, 59(4), 447-451.

Raja, S. N., Carr, D. B., Cohen, M., Finnerup, N. B., Flor, H., Gibson, S., & Vader, K. (2020). The revised International Association for the Study of Pain definition of pain: concepts, challenges, and compromises. Pain, 161(9), 1976-1982.

Sá, K. N., Moreira, L., Baptista, A. F., Yeng, L. T., Teixeira, M. J., Galhardoni, R., & de Andrade, D. C. (2019). Prevalence of chronic pain in developing countries: systematic review and meta-analysis. Pain reports, 4(6).

Sato, J. (2003). Weather change and pain: a behavioral animal study of the influences of simulated meteorological changes on chronic pain. International journal of biometeorology, 47(2), 55-61.

Seltenrich, N. (2015). Between extremes: health effects of heat and cold.

Timmermans, E. J., van der Pas, S., Dennison, E. M., Maggi, S., Peter, R., Castell, M. V., & Deeg, D. J. (2016). The influence of weather conditions on outdoor physical activity among older people with and without osteoarthritis in 6 European countries. Journal of Physical Activity and Health, 13(12), 1385-1395.

Vasconcelos, F. H., & Araújo, G. C. D. (2018). Prevalência de dor crônica no Brasil: estudo descritivo. BrJP, 1(2), 176-179.

Vencloviene, J., Babarskiene, R., Dobozinskas, P., & Siurkaite, V. (2015). Effects of weather conditions on emergency ambulance calls for acute coronary syndromes. International journal of biometeorology, 59(8), 1083-1093.

Zyglarski, B., Bała, P., & Mizerski, J. (2014, March). Searching of Correlation of Weather and Cardiologic Events. In Proceedings of the International Joint Conference on Biomedical Engineering Systems and Technologies-Volume 5 (pp. 529-534).

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Published

10/07/2021

How to Cite

RUIZ, J. B. .; MAGNAGNAGNO, O. A.; LACERDA, D. C. Pain through climate influence: Prevalence between algic and weather parameters. Research, Society and Development, [S. l.], v. 10, n. 8, p. e17710817172, 2021. DOI: 10.33448/rsd-v10i8.17172. Disponível em: https://www.rsdjournal.org/index.php/rsd/article/view/17172. Acesso em: 23 apr. 2024.

Issue

Vol. 10 No. 8

Section

Health Sciences

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Copyright (c) 2021 Júlia Barbosa Ruiz; Odirlei Antonio Magnagnagno; Diogo Cunha Lacerda

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