The training and detraining effect of high-intensity interval training on post-exercise hypotension in young overweight/obese women

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• 作者：Biggie Bonsu ; Elmarie Terblanche
• 关键词：Blood pressure ; High ; intensity interval training ; Detraining
• 刊名：European Journal of Applied Physiology
• 出版年：2016
• 出版时间：January 2016
• 年：2016
• 卷：116
• 期：1
• 页码：77-84
• 全文大小：487 KB
• 参考文献：American College of Sports Medicine (2010) ACSM’S guidelines for exercise testing and prescription, 8th edn. Lippincott Williams & Wilkens, Philadelphia, pp 165–171
  American Heart Association (1999). Dallas TX. Heart and Stroke Statistical Update
  Bennett T, Wilcox RG, Macdonald IA (1984) Post-exercise reduction of blood pressure in hypertensive men is not due to acute impairment of baroreflex function. Clin Sci 67(1):97–103PubMed CrossRef
  Brandão Rondon MUP, Alves MJNN, Braga AMFW, Teixeira OTUN, Barretto ACP, Krieger EM, Negrão CE (2002) Postexercise blood pressure reduction in elderly hypertensive patients. J Am Coll Cardiol 39(4):676–682PubMed CrossRef
  Brownley KA, West SG, Hinderliter AL, Light KC (1996) Acute aerobic exercise reduces ambulatory blood pressure in borderline hypertensive men and women. Am J Hypertens 9(3):200–206PubMed CrossRef
  Burgomaster KA, Howarth KR, Phillips SM, Rakobowchuk M, Macdonald MJ, Mcgee SL, Gibala MJ (2008) Similar metabolic adaptations during exercise after low volume sprint interval and traditional endurance training in humans. J Physiol 586:151–160PubMed PubMedCentral CrossRef
  Cardoso JCG, Gomides RS, Queiroz ACC, Pinto LG, Lobo FS, Tinucci T, Mion JD, Forjaz CLM (2010) Acute and chronic effects of aerobic and resistance exercise on ambulatory blood pressure. Clinics 65(3):317–325PubMed PubMedCentral CrossRef
  Chan HH, Burns SF (2013) Oxygen consumption, substrate oxidation and blood pressure following sprint interval exercise. Appl Physiol Nutr Metab 38(2):182–187PubMed CrossRef
  Ciolac EG, Bocchi EA, Bortolotto LA, Carvalho VO, Greve JMD, Guimarães GV (2010) Effects of high-intensity aerobic interval training vs. moderate exercise on hemodynamic, metabolic and neuro-humoral abnormalities of young normotensive women at high familial risk for hypertension. Hypertens Res 33:836–843PubMed CrossRef
  Cléroux J, Kouamé N, Nadeau A, Coulombe D, Lacourcière Y (1992) Aftereffects of exercise on regional and systemic hemodynamics in hypertension. Hypertension 19(2):183–191PubMed CrossRef
  Cohen J (1992) A power primer. Psychol Bull 112:155–159PubMed CrossRef
  Cornelissen VA, Verheyden B, Aubert AE, Fagard RH (2010) Effects of aerobic training intensity on resting, exercise and post-exercise blood pressure, heart rate and heart-rate variability. J Hum Hypertens 24:175–182PubMed CrossRef
  Cote AT, Bredin SSD, Phillips AA, Koehle MS, Warburton DER (2014) Greater autonomic modulation during post-exercise hypotension following high-intensity interval exercise in endurance-trained men and women. Eur J Appl Physiol. doi:10.​1007/​s00421-014-2996-5 PubMed
  Dipla K, Nassis GP, Vrabas IS (2012) Blood pressure control at rest and during exercise in obese children and adults. J Obes 2012:1–10. doi:10.​1155/​2012/​147385 CrossRef
  Eicher JD, Maresh CM, Tsongalis GJ, Thompson PD, Pescetello LS (2010) The additive blood pressure lowering effects of exercise intensity on post-exercise hypotension. Hypertension 160:513–520
  Floras JS, Wesche J (1992) Haemodynamic contributions to post-exercise hypotension in young adults with hypertension and rapid resting heart rates. J Hum Hypertens 6:265–269PubMed
  Floras JS, Sinkey CA, Aylward PE, Seals DR, Thoren PN, Mark AL (1989) Postexercise hypotension and sympathoinhibition in borderline hypertensive men. Hypertension 14:28–35PubMed CrossRef
  Forjaz CLM, Matsudaira Y, Rodrigues FB, Nunes CE, Negrao CE (1998) Post-exercise changes in blood pressure, heart rate and rate product at different exercise intensities in normotensive humans. Braz J Med Biol Res 31:1247–1255PubMed CrossRef
  Forjaz CLM, Tinucci T, Ortega KC, Santaella DF, Mion D, Negrão CE (2000) Factors affecting post-exercise hypotension in normotensive and hypertensive humans. Blood Press Monit 5:255–262PubMed CrossRef
  Forjaz CL, Cardoso CGJ, Rezk CC, Santaella DF, Tinucci T (2004) Postexercise hypotension and hemodynamics: the role of exercise intensity. J Sports Med Phys Fit 44:54–62
  Guidry MA, Blanchard BE, Thompson PD, Maresh CM, Seip RL, Taylor AL, Pescatello LS (2006) The influence of short and long duration on the blood pressure response to an acute bout of dynamic exercise. Am Heart J 151:1322.e5–1322.e12
  Hagberg JM, Montain SJ, Martin WH (1987) Blood pressure and hemodynamic responses after exercise in older hypertensives. J Appl Physiol 63(1):270–276PubMed
  Hamer M, Boutcher SH (2006) Impact of moderate overweight and body composition on postexercise hemodynamic responses in healthy men. J Hum Hypertens 20:612–617PubMed CrossRef
  Hara K, Floras JS (1994) Influence of naloxone on muscle sympathetic nerve activity, systemic and calf haemodynamics and ambulatory blood pressure after exercise in mild essential hypertension. J Hypertens 13:447–461
  Hoffman J (2006) Norms for fitness, performance, and health. Human Kinetics, USA
  Hua LPT, Brown CA, Hains SJM, Godwin M, Parlow JL (2009) Effects of low-intensity exercise conditioning on blood pressure, heart rate, and autonomic modulation of heart rate in men and women with hypertension. Biol Res Nurs 11(2):129–143PubMed CrossRef
  Kannel WB (1999) Historic perspective on the relative contributions of the diastolic and systolic blood pressure evaluation to cardiovascular risk profile. Am Heart J 138:S205–S210CrossRef
  Kaplan NM (2000) New issues in the treatment of isolated systolic hypertension. Circulation 102:1079–1081PubMed CrossRef
  Keese F, Farinatti P, Pescatello L, Cunha FA, Monteiro WD (2012) Aerobic exercise intensity influences hypotension following concurrent exercise sessions. Int J Sport Med 33:148–153CrossRef
  Kemi OJ, Wisløff U (2010) High-intensity aerobic exercise training improves the heart in health and disease. J Cardiopulm Rehabil Prev 30(1):2–11PubMed CrossRef
  Kenney MJ, Seals DR (1993) Postexercise hypotension. Key features, mechanisms and clinical significance. Hypertension 22:653–664PubMed CrossRef
  Kopelman PG (2000) Obesity as a medical problem. Nature 404:635–643PubMed
  Liu S, Thomas SG, Sasson Z, Banks L, Busato M, Goodman JM (2012) Blood pressure reduction following prolonged exercise in young and middle-aged endurance athletes. Eur J Prev Cardiol 20:1–7
  Marfell-Jones M, Olds T, Stewart A, Carter L (2006) International Standards for Anthropometric Assessment. ISAA
  Meredith IT, Jennings GL, Esler MD, Dewar EM, Bruce AM, Fazio VA, Korner PI (1990) Time-course of the antihypertensive and autonomic effects of regular endurance exercise in human subjects. J Hypertens 8:859–866PubMed CrossRef
  Millen AME, Norton GR, Avidon I, Woodiwiss AJ (2013) Effects of short-term exercise-training on aortic systolic pressure augmentation in overweight and obese individuals. Eur J Appl Physiol 113:1793–1803PubMed CrossRef
  Morrow JR, Krzewinski-Malone J, Jackson AW, Bungun TJ, Fitzgerald SJ (2004) American adults’ knowledge of exercise recommendation. Res Q Exerc Sport 75(3):231–237PubMed CrossRef
  Nybo L, Sundstrup E, Jakobsen MD, Mohr M, Hornstrup T, Simonsen L, Bülow J, Randers MB, Nielsen JJ, Aagaard P, Krustrup P (2010) High-intensity training versus traditional exercise interventions for promoting health. Med Sci Sport Exerc 42(10):1951–1958CrossRef
  Pescatello LS, Kulikowich JM (2001) The after-effects of dynamic exercise on ambulatory blood pressure. Med Sci Sport Exerc 33(11):1855–1861CrossRef
  Pescatello LS, Fargo AE, Leach CN, Scherzer JR, Scherzer HH (1991) Short-term effect of dynamic exercise on arterial blood pressure. Circulation 83:1557–1561PubMed CrossRef
  Pescatello LS, Miller B, Danias PG, Werner M, Hess M, Baker C, De Souza MJ (1999) Dynamic exercise normalizes resting blood pressure in mildly hypertensive premenopausal women. Am Heart J 138(5):916–921PubMed CrossRef
  Pescatello LS, Franklin BA, Fagard R, Farquhar WB, Kelley GA, Ray CA (2004) American College of Sports Medicine’s Position Stand. Exercise and hypertension. Med Sci Sport Exerc 36(3):533–553
  Pescatello LS, Turner D, Rodriguez N, Blanchard BE, Tsongalis GJ, Maresh CM, Duffy V, Thompson PD (2007) Dietary calcium intake and renin angiotensin system polymorphisms alter the blood pressure response to aerobic exercise: a randomized control design. Nutr Metab 4:1–10CrossRef
  Piepoli M, Isea JE, Pannarale G, Adamopoulos S, Sleight P, Coats AJ (1994) Load dependence of changes in forearm and peripheral vascular resistance after acute leg exercise in man. J Physiol 478:357–362PubMed PubMedCentral CrossRef
  Quinn TJ (2000) Twenty-four hour, ambulatory blood pressure responses following acute exercise: impact of exercise intensity. J Hum Hypertens 14(9):547–553PubMed CrossRef
  Rakobowchuk M, Tanguay S, Burgomaster KA, Howarth KR, Gibala MJ, Macdonald MJ (2008) Sprint interval and traditional endurance training induce similar improvements in peripheral arterial stiffness and flow-mediated dilation in healthy humans. Am J Physiol Regul Integr Comp Physiol 295:R236–R242PubMed PubMedCentral CrossRef
  Rossow L, Yan H, Fahs CA, Ranadive SM, Agiovlasitis S, Wilund KR, Baynard T, Fernhall B (2010) Postexercise hypotension in an endurance-trained population of men and women following high-intensity interval and steady-state cycling. Am J Hypertens 23:358–367PubMed CrossRef
  Simão R, Fleck SJ, Polito M, Monteiro W, Farinatti P (2005) Effects of resistance training intensity, volume, and session format on the postexercise hypotensive response. J Strength Cond Res 19(4):853–858PubMed
  Stuckey MI, Tordi N, Mourot L, Gurr LJ, Rakobowchuk MP, Millar J, Toth R, Macdonald MJ, Kamath MV (2011) Autonomic recovery following sprint interval exercise. Scand J Med Sci Sport 22(6):756–763CrossRef
  Teixeira L, Ritti-Dias RM, Tinucci T, Mion D, Forjaz CLM (2011) Post-concurrent exercise hemodynamics and cardiac autonomic modulation. Eur J Appl Physiol 111(9):2069–2078PubMed CrossRef
  Tjønna AE, Stølen TO, Bye A, Volden M, Slørdahl SA, Odegård R, Skogvoll E, Wisløff U (2009) Aerobic interval training reduces cardiovascular risk factors more than a multitreatment approach in overweight adolescents. Clin Sci 116:317–326PubMed CrossRef
  Touyz RM, Campbell N, Logan A, Gledhill N, Petrella R, Padwal R (2004) The 2004 Canadian recommendations for the management of hypertension: part III – Lifestyle modifications to prevent and control hypertension. Can J Cardiol 20(1):55–59PubMed
  Whelton SP, Chin A, Xin X, He J (2002) Effect of aerobic exercise on blood pressure: a meta-analysis of randomized control trial. Ann Intern Med 136:493–503PubMed CrossRef
  Whyte JL, Gill JMR, Cathcart AJ (2010) Effect of 2 week of sprint interval training on health-related outcomes in sedentary overweight/obese men. Metab, Clin Exp 59:1421–1428CrossRef
  
• 作者单位：Biggie Bonsu (1)
  Elmarie Terblanche (1)
  
  1. Department of Sport Science, Stellenbosch University, Matieland, Private Bag X1, Stellenbosch, 7602, South Africa
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Biomedicine
  Human Physiology
  Occupational and Industrial Medicine
  Sports Medicine
  
• 出版者：Springer Berlin / Heidelberg
• ISSN：1439-6327

文摘

Purpose Studies evaluating the response in blood pressure (BP) following high-intensity interval training (HIIT) are scant even though there has been extensive work done on the BP response following acute and chronic low- to moderate-intensity aerobic and resistance exercise in both hypertensive and normotensive individuals. The present study sought to investigate the training and detraining effects of short-term HIIT on the post-exercise hypotension (PEH) response in overweight/obese young women.