O treino aeróbico contí­nuo é mais eficiente que o treino aeróbico intervalado na resposta hipotensora pós-esforço em hipertensos controlados

Firmino Joaquim Celestino Neto; Hugo Ribeiro Zanetti; Leandro Teixeira Paranhos Lopes; Alexandre Gonçalves

Firmino Joaquim Celestino Neto Universidade Paulista (UNIP), Brasília-DF, Brasil.
Hugo Ribeiro Zanetti Instituto Master de Ensino Presidente Antônio Carlos (IMEPAC), Araguari-MG, Brasil.
Leandro Teixeira Paranhos Lopes Universidade Brasil, Fernandópolis-SP, Brasil.
Alexandre Gonçalves Instituto Master de Ensino Presidente Antônio Carlos (IMEPAC), Araguari-MG, Brasil. Faculdade Atenas, Paracatu-MG, Brasil.

Keywords: Arterial hypertension, Blood pressure, Exercise, Post-exercise hypotension

Abstract

Introduction: It has been postulated that physical exercise acts as a hypotensive agent, mainly related to immediate post-exercise effects, called post-exercise hypotension (PEH). Objective: to analyze PEH in two different aerobic exercise methods in hypertensive subjects. Methods: The sample consisted of 16 hypertensive and properly controlled volunteers. They performed two separate physical exercise sessions and separated by a minimum interval of 48 hours and the order of execution of the exercises was done by lot. The protocols used in the present study were continuous aerobic training, in which 40 minutes of continuous aerobic exercise were performed at 60% of the reserve heart rate (HRR) while the aerobic interval exercise was performed in 20 minutes, volunteers performed one minute at 85% of the RRF and three minutes at 50% recovery from the RRF. Measurements of mean arterial pressure (MAP) and heart rate (HR) were performed in five minutes cycles for 30 minutes. Data analysis was performed using the ANOVA test with significance level when p <0.05. Results: The two training methods caused HPE during the 30 minutes of recovery, compared to the 0 moment (p <0.001). In addition, the continuous method showed a significant difference compared to the interval at moments 20, 25 and 30 (p <0.05). Regarding post-exertion HR, a significant difference was observed between time 0 and the other moments (p <0.05). Conclusion: Both protocols caused HPE, but the continuous method showed higher HPE than the interval method.

References

-Anjos, F.F.; Zanetti, H.R.; Gonçalves, A. Exercício intervalado não potencializa a hipotensão pós-esforço em sujeitos hipertensos medicados. Revista Brasileira de Prescrição e Fisiologia do Exercício. Vol. 12. Num. 73. 2018. p. 158-163.

-Bocalini, D.S.; Bergamin, M.; Evangelista, A.L.; Rica, R.L.; Pontes Júniro, F.L.; Figueira Júnior, A.; Serra, A.J.; Rossi, E.M.; Tucci, P.J.F. dos Santos, L. Post-exercise hypotension and heart rate variability response after water-and land-ergometry exercise in hypertensive patients. PLoS One. Vol. 12. Num. 6. 2017. p. e0180216.

-Boutcher, Y.N.; Boutcher, S.H. Exercise intensity and hypertension: what's new? Journal Human Hypertension. Vol. 31. Num. 3. 2017. p. 157-164.

-Brandão, A.F.; Pinge, M.C.M. Alteração do óxido nítrico na função cardiovascular pelo treinamento físico. Semina: Ciências Biológicas e da Saúde. Vol. 28. Num. 1. 2007. p. 53-68.

-Brito, A.F.; Brasileiro-Santos, M.D.S.; Oliveira, C.V.C.; Santos, A. C. Postexercise Hypotension Is Volume-Dependent in Hypertensives: Autonomic and Forearm Blood Responses. Journal of Strength & Conditioning Research. Vol. 33. Num. 1. 2019. p. 234-241.

-Cardoso Júnior, C.G.; Gomides, R.S.; Queiroz, A.C.C.; Pinto, L.G.; Lobo, F.S.; Tinucci, T; Mion Júnior, D.; Forjaz, C.L.M. Acute and chronic effects of aerobic and resistance exercise on ambulatory blood pressure. Clinics (Sao Paulo). Vol. 65. Num. 3. 2010. p. 317-325.

-Carvalho, T. D. Diretriz de reabilitação cardiopulmonar e metabólica: aspectos práticos e responsabilidades. Arquivos Brasileiros de Cardiologia. Vol. 86. 2006. p.74-82.

-Cole, C.R.; Blackstone, E.H.; Pashkow, F.J.; Snader, C.E.; Lauer, M.S. Heart-rate recovery immediately after exercise as a predictor of mortality. The New England Journal of Medicine. Vol. 341. Num. 18. 1999. p. 1351-1357.

-Cordeiro, R.; Monteiro, W.; Cunha, F.; Pescatello, L.S.; Farinatti, P. Influence of Acute Concurrent Exercise Performed in Public Fitness Facilities on Ambulatory Blood Pressure Among Older Adults in Rio de Janeiro City. The Journal of Strength & Conditioning Research. Vol. 32. Num. 10. 2018. p. 2962-2970.

-Cruz, A.P.; Araújo, S.S.; Santos, J.R.; Leão, A.S. O Efeito Hipotensor do Exercício Aeróbico: uma Breve Revisão. Revista Brasileira de Ciências da Saúde. Vol. 15. Num. 4. 2011. p. 479-486.

-Cunha, F.A.; Matos-Santos,L.; Massaferri, R.O.; Monteiro, T.P.L.; Farrinatti, P.T.V. Hipotensão pós-exercício induzida por treinamento aeróbio, de força e concorrente: aspectos metodológicos e mecanismos fisiológicos. Revista Hospital Universitário Pedro Ernesto. Vol. 12. Num. 4. 2013. p. 99-110.

-Cunha, G.A.D.; Rios, A.C.S.; Moreno, J.R.; Braga, P.L.; Campbell, C.S.G.; Simões, H.G.; Denadai, M.L.D.R. Hipotensão pós-exercício em hipertensos submetidos ao exercício aeróbio de intensidades variadas e exercício de intensidade constante. Revista Brasileira de Medicina do Esporte. Vol. 12. Num. 6. 2006. p. 313-317.

-Eicher, J.D.; Maresh C.M.; Tsongalis, G.J.; Thompson, P.D.; Pescatello, L.S. The additive blood pressure lowering effects of exercise intensity on post-exercise hypotension. American Heart Journal. Vol. 160. Num. 3. 2010. p. 513-520.

-Ghadieh, A.S.; Saab, B. Evidence for exercise training in the management of hypertension in adults. Canadian Family Physician. Vol. 61, Num. 3. 2015. p. 233-9.

-Katsimardou, A.; Imprialos, K.; Stavropoulos, K.; Sachinidis, A.; Doumas, M.; Athyros, V. Hypertension in Metabolic Syndrome: novel insights. Current Hypertension Review. Epub ahead of print. 2019.

-Kneubuehler, P.A.; Mueller, D. Aplicação e análise dos efeitos de sessões de exercício físico aeróbico e de resistência aplicada na academia ao ar livre no controle da hipertensão arterial. Revista Brasileira de Prescrição e Fisiologia do Exercício. São Paulo. Vol. 10. Num. 61. 2016. p. 663-670.

-Macdonald, J.; MacdougalL, J.; Hogben, C. The effects of exercise intensity on post exercise hypotension. Journal of Human Hypertension. Vol. 13. Num. 8. 1999. p. 527-531.

-Macdonald, J. R.; Macdougall, J. D.; Hogben, C. D. The effects of exercise duration on post-exercise hypotension. Journal of Human Hypertension. Vol. 14. Num. 2. 2000. p. 125-129.

-Mills, K.T.; Rubinstein, A.; Irazola, V.; Chen, J.; Beratarrechea, A.; Poggio, R.; Dolan, J.; Augustovski, F.; Shi, L.; Krousel-Wood, M.; Bazzano, L.A.; He, J. Comprehensive approach for hypertension control in low-income populations: rationale and study design for the hypertension control program in Argentina. American Journal of Medicine Science. Vol. 348. Num. 2. 2014. p. 139-45.

-Moraes-Silva, I.C.; Mostrada, C.T.; Silva-Filho, A.C.; Irigoyen, M.C. Hypertension and Exercise Training: Evidence from Clinical Studies. Advances in Experimental Medicine and Biology. Vol. 1000. 2017. p. 65-84.

-Nishime, E.O.; Cole, C.R.; Blackstone, E.H.; Pashkow, F.J.; Lauer, M.S. Heart rate recovery and treadmill exercise score as predictors of mortality in patients referred for exercise ECG. JAMA. Vol. 284. Num. 11. 2000. p. 1392-1398.

-Ordunez, P.; Martinez, R.; Niebylski, M.L.; Campbell, N.R. Hypertension Prevention and Control in Latin America and the Caribbean. Journal of Clinical Hypertension (Greenwich). Vol. 17. Num. 7. 2015. p. 499-502.

-Pescatello, L.S.; MacDonald, H.V.; Laberti, L.; Johnson, B.T. Exercise for Hypertension: A Prescription Update Integrating Existing Recommendations with Emerging Research. Current Hypertension Reports. Vol. 17. Num. 11. 2015. p. 87.

-Pimenta, F.C.; Montrezol, F.T.; Dourado, V.Z.; da Silva, L.F.M.; Borba, G.A.; Vieira, W.O.; Medeiros, A. High-intensity interval exercise promotes post-exercise hypotension of greater magnitude compared to moderate-intensity continuous exercise. European journal of applied physiology. Vol. 119. Num. 5. 2019. p. 1235-1243.

-Schenkel, I.C.; Bundchen, D.C.; Quies, M.P.; dos Santos, R.Z.; dos Sabtos, M.B.; de Carvalho, T. Comportamento da pressão arterial em hipertensos após única sessão de caminhada e de dança de salão: estudo preliminar. Revista Brasileira de Cardiologia. Vol. 24. Num. 1. 2011. p. 26-32.

-Sociedade Brasileira de Cardiologia. 7ª Diretriz brasileira de hipertensão arterial. Arquivos Brasileiros de Cardiologia. Vol. 107. Num. 3. 2016. p. 1-103.

-Williams, B.; Mancia, G.; Spiering, W.; Rosei, E.A.; Azizi, M.; Burnier, M.; Clement, D.L.; Coca, A.; Simone, G.; Dominiczak, A.; Kahan, T.; Mahfoud, F.; Redon, J.; Ruilope, L.; Zanchetti, A.; Kerins, M.; Kjeldsen, S.E.; Kreutz, R.; Laurent, S.; Lip, G.Y.H.; McManus, R.; Narkiewicz, K.; Ruschitzka, F.; Schmieder, R.E.; Shlyakhto, E.; Tsioufis, C.; Aboyans, V.; Desormais, I. 2018 ESC/ESH Guidelines for the management of arterial hypertension. European heart journal. Vol. 39. Num. 33. 2018. p. 3021-3104.

Continuous aerobic training is more efficient than the interval aerobic training in the post-exercise hypotensive response in controlled hypertensive patients

Abstract

References