Abstract
Low-intensity blood flow restricted (LI-BFR) resistance training has been shown to produce comparable increases in muscle hypertrophy to traditional high-intensity (HI) resistance training. However, a comparison of the acute vascular responses between the two types of exercise has not been made. The purpose of this study is to compare the acute vascular responses of HI, low-intensity (LI), and LI-BFR resistance exercise. Using a randomized, cross-over design, 11 young (28 ± 5 years) males completed three acute resistance exercise bouts (HI, LI and LI-BFR). Before (Pre), and starting at 15- and 45-min after each exercise bout, large (LAEI) and small (SAEI) artery compliance and calf blood flow were assessed. Calf blood flow was normalized per unit pressure as calf vascular conductance (CVC). Repeated measures (condition × time) ANOVA revealed a main time effect for LAEI and a main condition effect for SAEI. LAEI increased following exercise but returned to baseline at 45-min post. SAEI was greater during the HI condition compared to the LI or LI-BFR conditions. There was a significant condition × time interaction for CVC. CVC was elevated at 15- and 45-min post during the HI condition and at 15-min following the LI condition. CVC was not altered following the LI-BFR condition. These results suggest that HI, LI, and LI-BFR resistance exercise cause similar acute increases in large artery compliance but HI causes greater increases in small artery compliance and calf vascular conductance than LI or LI-BFR resistance exercise.
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References
Abe T, Kearns CF, Sato Y (2006) Muscle size and strength are increased following walk training with restricted venous blood flow from the leg muscle, Kaatsu-walk training. J Appl Physiol 100:1460–1466
Acree LS, Comp PC, Whitsett TL, Montgomery PS, Nickel KJ, Fjeldstad AS, Fjeldstad C, Gardner AW (2007a) The influence of obesity on calf blood flow and vascular reactivity in older adults. Dyn Med 6:4
Acree LS, Montgomery PS, Gardner AW (2007b) The influence of obesity on arterial compliance in adult men and women. Vasc Med 12:183–188
Baechle TR, Earle RW (2000) Essentials of strength training and conditioning. Human Kinetics, Champaign
Boutouyrie P, Lacolley P, Girerd X, Beck L, Safar M, Laurent S (1994) Sympathetic activation decreases medium-sized arterial compliance in humans. Am J Physiol 267:H1368–H1376
Bush JA, Kraemer WJ, Mastro AM, Triplett-McBride NT, Volek JS, Putukian M, Sebastianelli WJ, Knuttgen HG (1999) Exercise and recovery responses of adrenal medullary neurohormones to heavy resistance exercise. Med Sci Sports Exerc 31:554–559
Casey DP, Beck DT, Braith RW (2007) Progressive resistance training without volume increases does not alter arterial stiffness and aortic wave reflection. Exp Biol Med 232:1228–1235
Clark BC, Manini TM, Hoffman RL, Williams PS, Guiler MK, Knutson MJ, McGlynn ML, Kushnick MR (2010) Relative safety of 4 weeks of blood flow-restricted resistance exercise in young, healthy adults. Scand J Med Sci Sports (in press)
Clifford PS, Kluess HA, Hamann JJ, Buckwalter JB, Jasperse JL (2006) Mechanical compression elicits vasodilatation in rat skeletal muscle feed arteries. J Physiol 572:561–567
Cohn JN, Finkelstein S, McVeigh G, Morgan D, LeMay L, Robinson J, Mock J (1995) Noninvasive pulse wave analysis for the early detection of vascular disease. Hypertension 26:503–508
Credeur DP, Hollis BC, Welsch MA (2009) Effects of handgrip training with venous restriction on brachial artery vasodilation. Med Sci Sports Exerc 42:1296–1302
Davies TS, Frenneaux MP, Campbell RI, White MJ (2007) Human arterial responses to isometric exercise: the role of the muscle metaboreflex. Clin Sci 112:441–447
DeVan AE, Anton MM, Cook JN, Neidre DB, Cortez-Cooper MY, Tanaka H (2005) Acute effects of resistance exercise on arterial compliance. J Appl Physiol 98:2287–2291
Evans C, Vance S, Brown M (2010) Short-term resistance training with blood flow restriction enhances microvascular filtration capacity of human calf muscles. J Sports Sci 28:999–1007
Fahs CA, Heffernan KS, Fernhall B (2009) Hemodynamic and vascular response to resistance exercise with l-arginine. Med Sci Sports Exerc 41:773–779
Figueroa A, Vicil F (2010) Post-exercise aortic hemodynamic responses to low-intensity resistance exercise with and without vascular occlusion. Scand J Med Sci Sports (in press)
Finkelstein SM, Cohn JN (1992) First- and third-order models for determining arterial compliance. J Hypertens Suppl 10:S11–S14
Hamann JJ, Kluess HA, Buckwalter JB, Clifford PS (2005) Blood flow response to muscle contractions is more closely related to metabolic rate than contractile work. J Appl Physiol 98:2096–2100
Heffernan KS, Fahs CA, Iwamoto GA, Jae SY, Wilund KR, Woods JA, Fernhall B (2009) Resistance exercise training reduces central blood pressure and improves microvascular function in African American and white men. Atherosclerosis 207:220–226
Kim SJ, Sherk VD, Bemben MG, Bemben DA (2009) Effects of short-term, low-intensity resistance training with vascular restriction on arterial compliance in untrained young men. Int J Kaatsu Train Res 5:1–8
Kingwell BA, Berry KL, Cameron JD, Jennings GL, Dart AM (1997) Arterial compliance increases after moderate-intensity cycling. Am J Physiol 273:H2186–H2191
Kraemer WJ, Fleck SJ, Maresh CM, Ratamess NA, Gordon SE, Goetz KL, Harman EA, Frykman PN, Volek JS, Mazzetti SA, Fry AC, Marchitelli LJ, Patton JF (1999) Acute hormonal responses to a single bout of heavy resistance exercise in trained power lifters and untrained men. Can J Appl Physiol 24:524–537
Liang YL, Gatzka CD, Du XJ, Cameron JD, Kingwell BA, Dart AM (1999) Effects of heart rate on arterial compliance in men. Clin Exp Pharmacol Physiol 26:342–346
Madarame H, Neya M, Ochi E, Nakazato K, Sato Y, Ishii N (2008) Cross-transfer effects of resistance training with blood flow restriction. Med Sci Sports Exerc 40:258–263
Maiorana A, O’Driscoll G, Taylor R, Green D (2003) Exercise and the nitric oxide vasodilator system. Sports Med 33:1013–1035
Manini TM, Clark BC (2009) Blood flow restricted exercise and skeletal muscle health. Exerc Sport Sci Rev 37:78–85
Miyachi M, Kawano H, Sugawara J, Takahashi K, Hayashi K, Yamazaki K, Tabata I, Tanaka H (2004) Unfavorable effects of resistance training on central arterial compliance: a randomized intervention study. Circulation 110:2858–2863
Monahan KD, Tanaka H, Dinenno FA, Seals DR (2001) Central arterial compliance is associated with age- and habitual exercise-related differences in cardiovagal baroreflex sensitivity. Circulation 104:1627–1632
O’Rourke M (1990) Arterial stiffness, systolic blood pressure, and logical treatment of arterial hypertension. Hypertension 15:339–347
O’Rourke MF, Mancia G (1999) Arterial stiffness. J Hypertens 17:1–4
O’Rourke MF, Nichols WW (2005) Aortic diameter, aortic stiffness, and wave reflection increase with age and isolated systolic hypertension. Hypertension 45:652–658
Okamoto T, Masuhara M, Ikuta K (2009a) Home-based resistance training improves arterial stiffness in healthy premenopausal women. Eur J Appl Physiol 107:113–117
Okamoto T, Masuhara M, Ikuta K (2009b) Upper but not lower limb resistance training increases arterial stiffness in humans. Eur J Appl Physiol 107:127–134
Ozaki H, Miyachi M, Nakajima T, Abe T (2010) Effects of 10- weeks walk training with leg blood flow reduction on carotid arterial compliance and muscle size in the elderly adults. Angiology (in press)
Patterson SD, Ferguson RA (2010) Increase in calf post-occlusive blood flow and strength following short-term resistance exercise training with blood flow restriction in young women. Eur J Appl Physiol 108:1025–1033
Rakobowchuk M, McGowan CL, de Groot PC, Bruinsma D, Hartman JW, Phillips SM, MacDonald MJ (2005) Effect of whole body resistance training on arterial compliance in young men. Exp Physiol 90:645–651
Ratamess NA, Alvar BA, Evetoch TK, Housh TJ, Kibler WB, Kraemer WJ, Triplett NT (2009) American College of Sports Medicine position stand. Progression models in resistance training for healthy adults. Med Sci Sports Exerc 41:687–708
Renzi CP, Tanaka H, Sugawara J (2010) Effects of leg blood flow restriction during walking on cardiovascular function. Med Sci Sports Exerc 42:726–732
Takano H, Morita T, Iida H, Asada K, Kato M, Uno K, Hirose K, Matsumoto A, Takenaka K, Hirata Y, Eto F, Nagai R, Sato Y, Nakajima T (2005) Hemodynamic and hormonal responses to a short-term low-intensity resistance exercise with the reduction of muscle blood flow. Eur J Appl Physiol 95:65–73
Takarada Y, Takazawa H, Sato Y, Takebayashi S, Tanaka Y, Ishii N (2000) Effects of resistance exercise combined with moderate vascular occlusion on muscular function in humans. J Appl Physiol 88:2097–2106
Wilkinson IB, Qasem A, McEniery CM, Webb DJ, Avolio AP, Cockcroft JR (2002) Nitric oxide regulates local arterial distensibility in vivo. Circulation 105:213–217
Zimlichman R, Shargorodsky M, Boaz M, Duprez D, Rahn KH, Rizzoni D, Payeras AC, Hamm C, McVeigh G (2005) Determination of arterial compliance using blood pressure waveform analysis with the CR-2000 system: Reliability, repeatability, and establishment of normal values for healthy European population—the seven European sites study (SESS). Am J Hypertens 18:65–71
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Communicated by Susan A. Ward.
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Fahs, C.A., Rossow, L.M., Seo, DI. et al. Effect of different types of resistance exercise on arterial compliance and calf blood flow. Eur J Appl Physiol 111, 2969–2975 (2011). https://doi.org/10.1007/s00421-011-1927-y
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DOI: https://doi.org/10.1007/s00421-011-1927-y