Wilk, M, Tufano, JJ, and Zajac, A. The influence of movement tempo on acute neuromuscular, hormonal, and mechanical responses to resistance exercise-a mini review. J Strength Cond Res 34(8): 2369-2383, 2020-Resistance training studies mainly analyze variables such as the type and order of exercise, intensity, number of sets, number of repetitions, and duration and frequency of rest periods. However, one variable that is often overlooked in resistance training research, as well as in practice, is premeditated movement tempo, which can influence a myriad of mechanical and physiological factors associated with training and adaptation. Specifically, this article provides an overview of the available scientific literature and describes how slower tempos negatively affect the 1-repetition maximum, the possible load to be used, and the number of repetitions performed with a given load, while also increasing the total time under tension, which can mediate acute cardiovascular and hormonal responses. As a result, coaches should consider testing maximal strength and the maximal number of repetitions that can be performed with each movement tempo that is to be used during training. Otherwise, programming resistance training using various movement tempos is more of a trial-and-error approach, rather than being evidence or practice based. Furthermore, practical applications are provided to show how movement tempo can be adjusted for a variety of case study-type scenarios.

Department of Physiology and Biochemistry Faculty of Physical Education and Sport Charles University Prague Czech Republic

Institute of Sport Sciences Jerzy Kukuczka Academy of Physical Education in Katowice Poland; and

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Abe T, DeHoyos DV, Pollock ML, Garzarella L. Time course for strength and muscle thickness changes following upper and lower body resistance training in men and women. Eur J Appl Physiol 81: 174–180, 2000.

Ahtiainen JP, Pakarinen A, Alen M, Kraemer WJ, Häkkinen K. Short vs. long rest period between the sets in hypertrophic resistance training: Influence on muscle strength, size, and hormonal adaptations in trained men. J Strength Cond Res 19: 572–582, 2005.

Ahtiainen JP, Pakarinen A, Kraemer WJ, Häkkinen K. Acute hormonal and neuromuscular responses and recovery to forced vs maximum repetitions multiple resistance exercises. Int J Sports Med 24: 410–418, 2003.

Arazi H, Chegini J. The comparative effect of different time under tension in eccentric phase of isotonic resistance exercise on markers of delay-onset of muscle soreness. Sports Phys 31: 63–76, 2016.

Arazi H, Asadi A, Alipour V. Blood pressure responses to resistive exercise in trained female athletes: Influence of velocity of movement. Interv Med Appl Sci 6: 170–174, 2014.

Arazi H, Mirzaei B, Heidari N. Neuromuscular and metabolic responses to three different resistance exercise methods. Asian J Sports Med 5: 30–38, 2014.

Baechle TR, Earle RW, Wathen D. Resistence training. In: Essentials of Strength Training and Conditioning (3rd ed.). Champaign, IL: Human Kinetics, 2008. pp. 381–413.

Beaven CM, Gill ND, Cook CJ. Salivary testosterone and cortisol responses in professional rugby players after four resistance exercise protocols. J Strength Cond Res 22: 426–432, 2008.

Beckham GK, Sato K, Santana HAP, et al. Effect of body position on force production during the isometric midthigh pull. J Strength Cond Res 32: 48–56, 2018.

Bird SK, Tarpenning KM, Marino FE. Designing resistance training programmes to enhance muscular fitness: A review of the acute programme variables. Sports Med 35: 841–851, 2005.

Bobbert MF, Gerritsen KG, Litjens MCA, Vansoest AJ. Why is countermovement jump height greater squat jump height? Med Sci Sports Exerc 28: 1402–1412, 1996.

Boroujerdi SS, Rahimi R. Acute GH and IGF-I responses to short vs. long rest period between sets during forced repetitions resistance training system. S Afr J Res Sport Phys 30: 31–38, 2008.

Brzycki M. Strength testing-predicting a one-rep max from reps-to-fatigue. J Phys Educ Recreat Dance 64: 88–8, 1993.

Buitrago S, Wirtz N, Flenker U, Kleinöder H. Physiological and metabolic responses as function of the mechanical load in resistance exercise. Appl Physiol Nutr Metab 39: 345–350, 2014.

Burd NA, Andrews RJ, West DW, et al. Muscle time under tension during resistance exercise stimulates differential muscle protein sub-fractional synthetic responses in men. J Physiol 590: 351–362, 2012.

Calixto R, Verlengia R, Crisp A, et al. Acute effects of movement velocity on blood lactate and growth hormone responses after eccentric bench press exercise in resistance-trained men. Biol Sport 31: 289–294, 2014.

Carey Smith R, Rutherford OM. The role of metabolites in strength training. I. A comparison of eccentric and concentric contractions. Eur J Appl Physiol 71: 332–336, 1995.

Carrasco DI, Delp MD, Ray CA. Effect of concentric and eccentric muscle actions on muscle sympathetic nerve activity. J Appl Physiol 86: 558–563, 1999.

Castagna C, Castellini E. Vertical jump performance in Italian male and female national team soccer players. J Strength Cond Res 27: 1156–1161, 2013.

Cintineo HP, Freidenreich DJ, Blaine CM, et al. Acute physiological responses to an intensity-and time-under-tension-equated single- vs. Multiple-set resistance training bout in trained men. J Strength Cond Res 32: 3310–3318, 2018.

Clark R, Bryant A, Hao Pua Y. Examining different aspects of functional performance using a variety of bench throw techniques. J Strength Cond Res 24: 2755–2761, 2010.

Crewther BT, Cook C, Cardinale M, Weatherby RP, Lowe T. Two emerging concepts for elite athletes: The short-term effects of testosterone and cortisol on the neuromuscular system and the dose-response training role of these endogenous hormones. Sports Med 41: 103–123, 2011.

Cronin JB, Henderson M. Maximal strength and power assessment in novice weight training. J Strength Cond Res 18: 48–52, 2004.

Cronin JB, McNair PJ, Marshall RN. Magnitude and decay of stretch-induced enhancement of power output. Eur J Appl Physiol 84: 575–581, 2001.

Diniz RC, Martins-Costa HC, Machado SC, Lima FV, Chagas MH. Repetition duration influences ratings of perceived exertion [published correction appears in Percept Mot Skills. 2014 Aug;119(1):332]. Percept Mot Skills 118: 261–273, 2014.

Dudley GA, Tesch PA, Harris MS, Golden CL, Buchanan P. Influence of eccentric actions on the metabolic cost of resistance exercise. Aviat Space Environ Med 62: 678–682, 1991.

Edwards RH, Young A, Hosking GP, Jones DA. Human skeletal muscle function: Description of tests and normal values. Clin Sci Mol Med 52: 283–290, 1977.

Egan DA, Winchester BJ, Foster C, R McGuigan M. Using session RPE to monitor different methods of resistance exercise. J Sports Sci Med 5: 289–295, 2006.

Enoka RM. Eccentric exercise requires unique activation strategies by the nervous system. J Appl Physiol 81: 2239–2346, 1996.

Enoka RM, Fuglevand A. Motor unit physiology: Some unresolved issues. Muscle Nerve 24: 4–17, 2001.

Fang Y, Siemionow V, Sahgal V, Xiong F, Yue GH. Greater movement-related cortical potential during human eccentric versus concentric muscle contractions. J Neurophysiol 86: 1764–1772, 2001.

Folland JP, Williams AG. The adaptations to strength training: Morphological and neurological contributions to increased strength. Sports Med 37: 145–168, 2007.

Gabrie DA, Kamen G, Frost G. Neural adaptations to resistive exercise. Sports Med 36: 133–149, 2006.

Garhammer J. A comparison of maximal power outputs between elite male and female weightlifters in competition. Int J Sport Biomech 7: 3–11, 1991.

Golas A, Maszczyk A, Zajac A, Mikolajec K, Stastny P. Optimizing post activation potentiation for explosive activities in competitive sports. J Hum Kinet 52: 95–106, 2016.

Gotshalk LA, Loebel CC, Nindl BC, et al. Hormonal responses of multiset versus single-set heavy-resistance exercise protocols. Can J Appl Physiol 22: 244–255, 1997.

Goto K, Ishii N, Kizuka T, Takamatsu K. The impact of metabolic stress on hormonal responses and muscular adaptations. Med Sci Sports Exerc 37: 955–963, 2005.

Goto K, Ishii N, Kizuka T, et al. Hormonal and metabolic responses to slow movement resistance exercise with different durations of concentric and eccentric actions. Eur J Appl Physiol 106: 731–739, 2009.

Goto K, Sato K, Takamatsu K. A single set of low intensity resistance exercise immediately following high intensity resistance exercise stimulates growth hormone secretion in men. J Phys Fit Sports Med 43: 243–249, 2003.

Goto K, Takahashi K, Yamamoto M, Takamatsu K. Hormone and recovery responses to resistance exercise with slow movement. J Physiol Sci 58: 7–14, 2008.

Grant OM, Jeffrey MM, Prue C, et al. Acute hormonal and neuromuscular responses to hypertrophy, strength and power type resistance exercise. Eur J Appl Physiol 105: 695–704, 2009.

Granata KP, Padua DA, Wilson SE. Gender differences in active musculoskeletal stiffness. Part II. Quantification of leg stiffness during functional hopping tasks. J Electromyogr Kinesiol 12: 127–135, 2002.

Granata KP, Wilson SE, Padua DA. Gender differences in active musculoskeletal stiffness. Part I. Quantification in controlled measurements of knee joint dynamics. J Electromyogr Kinesiol 12: 119–126, 2002.

Häkkinen K, Kallinen M, Linnamo V, et al. Neuromuscular adaptations during bilateral versus unilateral strength training in middle-aged and elderly men and women. Acta Physiol Scand 158: 77–88, 1996.

Halliwill JR. Mechanisms and clinical implications of post-exercise hypotension in humans. Exerc Sport Sci Rev 29: 65–70, 2001.

Hatfield DL, Kraemer WJ, Spiering BA, et al. The impact of velocity of movement on performance factors in resistance exercise. J Strength Cond Res 20: 760–766, 2006.

Headley SA, Henry K, Nindl BC, et al. Effects of lifting tempo on one repetition maximum and hormonal responses to a bench press protocol. J Strength Cond Res 25: 406–413, 2011.

Hoeger WWK, Hopkins DR, Barette SL, Hale DF. Relationship between repetitions and selected percentages of one repetition maximum: A comparison between untrained and trained males and females. Am J Sport Sci Res 1: 11–13, 1987.

Hollander DB, Kraemer RR, Kilpatrick MW, et al. Maximal eccentric and concentric strength discrepancies between young men and women for dynamic resistance exercise. J Strength Cond Res 21: 34–40, 2007.

Hoppeler H. Moderate load eccentric exercise; A distinct novel training modality. Front Physiol 7: 483, 2016.

Hubal MJ, Gordish-Dressman H, Thompson PD, et al. Variability in muscle size and strength gain after unilateral resistance training. Med Sci Sports Exerc 37: 964–972, 2005.

Hunter GR, Seelhorst D, Snyder S. Comparison of metabolic and heart rate responses to super slow vs. traditional resistance training. J Strength Cond Res 7: 76–81, 2003.

Hunter SK, Duchateau J, Enoka RM. Muscle fatigue and the mechanisms of task failure. Exerc Sport Sci Rev 32: 44–49, 2004.

Hutchins K. Super Slow (2nd ed.). Casselberry, FL: Media Support, 1992. pp. 15–55.

Ivanova T, Garland SJ, Miller MJ. Motor unit recruitment and discharge behavior in movements and isometric contractions. Muscle Nerve 20: 867–874, 1997.

Keeler LK, Finkelstein LH, Miller W, Fernhall B. Early-phase adaptations of traditional-speed vs. superslow resistance training on strength and aerobic capacity in sedentary individuals. J Strength Cond Res 15: 309–314, 2001.

Kenney MJ, Seals DR. Post-exercise hypotension key features, mechanisms, and clinical significance. Hypertension 22: 653–664, 1993.

Keogh JWL, Wilson GJ, Weatherby RP. A cross-sectional comparison of different resistance training techniques in the bench press. J Strength Cond Res 13: 247–258, 1999.

Kraemer RR, Hollander DB, Reeves GV, et al. Similar hormonal responses to concentric and eccentric muscle actions using relative loading. Eur J Appl Physiol 96: 551–557, 2006.

Kraemer WJ, Ratamess NA. Hormonal responses and adaptations to resistance exercise and training. Sports Med 35: 339–361, 2005.

Krzysztofik M, Wilk M, Golas A, et al. Does eccentric-only and concentric-only activation increase power output? Med Sci Sports Exerc 52: 484–489, 2019.

Krzysztofik M, Wilk M, Wojdała G, Gołaś A. Maximizing muscle hypertrophy: A systematic review of advanced resistance training techniques and methods. Int J Environ Res Public Health 4: 16, 2019.

Kubo K, Kanehisa H, Fukunaga T. Gender differences in the viscoelastic properties of tendon structures. Eur J Appl Physiol 88: 520–526, 2003.

Kvorning T, Andersen M, Brixen K, Madsen K. Suppression of endogenous testosterone production attenuates the response to strength training: A randomized, placebo-controlled, and blinded intervention study. Am J Physiol Endocrinol Metab 291: E1325–E1332, 2006.

Lacerda LT, Martins Costa HC, Diniz RC, et al. Variations in repetition duration and repetition numbers influences muscular activation and blood lactate response in protocols equalized by time under tension. J Strength Cond Res 30: 251–258, 2015.

Lastayo PC, Reich TE, Urquhart M, Hoppeler H, Lindstedt SL. Chronic eccentric exercise: Improvements in muscle strength can occur with little demand for oxygen. Am J Physiol 276: 611–615, 1999.

Laubach LL. Comparative muscular strength of men and women: A review of the literature. Aviat Space Environ Med 47: 534–542, 1976.

Linnamo V, Pakarinen A, Komi PV, Kraemer WJ, Häkkinen K. Acute hormonal responses to submaximal and maximal heavy resistance and explosive exercises in men and women. J Strength Cond Res 19: 566–571, 2005.

MacDonald JR. Potential causes, mechanisms, and implications of post exercise hypotension. J Hum Hypertens 16: 225–236, 2002.

Martins-Costa HC, Diniz RR, Lima FV, et al. Longer repetition duration increases muscle activation and blood lactate response in matched resistance training protocol. Motriz: Revista de Educaçäo Física. 22: 35–41, 2016.

Maszczyk A, Wilk M, Krzysztofik M, et al. The effects of resistance training experience on movement characteristics in the bench press exercise. Biol Sport 37: 79–83, 2020.

Mayhew JL, Prinster JL, Ware JS, et al. Muscular endurance repetitions to predict bench press strength in men of different training levels. J Sports Med Phys Fitness 35: 108–113, 1995.

Mazzetti S, Douglass MS, Yocum A, Harber M. Effect of explosive versus slow contractions and exercise intensity on energy expenditure. Med Sci Sports Exerc 39: 1291–1301, 2007.

McArdle WD, Katch FI, Katch VL. Exercise Physiology: Nutrition, Energy and Human Performance (8th ed.). Philadelphia, PA: Lippincott Williams & Wilkins, 2015. pp. 491–498.

McCaulley GO, McBride JM, Cormie P, et al. Acute hormonal and neuromuscular responses to hypertrophy, strength and power type resistance exercise. Eur J Appl Physiol 105: 695–704, 2009.

Merletti R, Parker P. Electromyography, Physiology, Engineering and Non-invasive Applications. New York, NY: Wiley & Sons, Inc., 2004. pp. 9–16.

Migiano MJ, Vingren JL, Volek JS, et al. Endocrine response patterns to acute unilateral and bilateral resistance exercise in men. J Strength Cond Res 24: 128–134, 2010.

Mookerjee S, Ratamess N. Comparison of strength differences and joint action durations between full and partial range-of-motion bench press exercise. J Strength Cond Res 13: 76–81, 1999.

Newton RU, Murphy AJ, Humphries BJ, et al. Influence of load and stretch shortening cycle on the kinematics, kinetics and muscle activation that occurs during explosive upper-body movements. Eur J Appl Physiol 75: 333–342, 1997.

Neder JA, Nery LE, Silva AC, Andreoni S, Whipp BJ. Maximal aerobic power and leg muscle mass and strength related to age in non-athlethic males and females. Eur J Appl Physiol Occup Physiol 79: 522–530, 1999.

Nordlund MM, Thorstensson A, Cresswell AG. Central and peripheral contributions to fatigue in relation to level of activation during repeated maximal voluntary isometric plantar flexions. J Appl Physiol 96: 218–225, 2004.

O'Connor PJ, Poudevigne MS, Pasley JD. Perceived exertion responses to novel elbow flexor eccentric action in women and men. Med Sci Sports Exerc 34: 862–868, 2002.

Pareja-Blanco F, Rodríguez-Rosell D, Sánchez-Medina L, Gorostiaga EM, González-Badillo JJ. Effect of movement velocity during resistance training on neuromuscular performance. Int J Sports Med 35: 916–924, 2014.

Pescatello LS, Franklin BA, Fagard R, et al. American College of Sports Medicine. Position stand. Exercise and hypertension. Med Sci Sports Exerc 36: 533–553, 2004.

Rogatzki MJ, Wright GA, Mikat RP, Brice G. Blood ammonium and lactate accumulation response to different training protocols using the parallel squat exercise. J Strength Cond Res 28: 1113–1118, 2014.

Rønnestad BR, Nygaard H, Raastad T. Physiological elevation of endogenous hormones results in superior strength training adaptation. Eur J Appl Physiol 111: 2249–2259, 2011.

Roth SM, Ivey FM, Martel GF, et al. Muscle size responses to strength training in young and older men and women. J Am Geriatr Soc 49: 1428–1433, 2001.

Sakamoto A, Sinclair P. Effect of movement velocity on the relationship between training load and the number of repetitions of bench press. J Strength Cond Res 203: 523–527, 2006.

Sakamoto A, Sinclair PJ. Muscle activations under varying lifting speeds and intensities during bench press. Eur J Appl Physiol 112: 1015–1025, 2012.

Sampson JA, Donohoe A, Groeller H. Effect of concentric and eccentric velocity during heavy-load non-ballistic elbow flexion resistance exercise. J Sci Med Sport 17: 306–311, 2014.

Schoenfeld BJ, Contreras B, Willardson JM, Fontana F, Tiryaki-Sonmez G. Muscle activation during low- versus high-load resistance training in well-trained men. Eur J Appl Physiol 114: 2491–2497, 2014.

Schoenfeld BJ, Ogborn DI, Krieger JW. Effect of repetition duration during resistance training on muscle hypertrophy: A systematic review and meta-analysis. Sports Med 45: 577–585, 2015.

Seliger V, Dolejs L, Karas V, Pachlopnikova I. Adaptation of trained athletes' energy expenditure to repeated concentric and eccentric muscle contractions. Eur J Appl Physiol 26: 227–234, 1968.

Shibata K, Takizawa K, Nosaka K, Mizuno M. Effects of prolonging eccentric phase duration in parallel back-squat training to momentary failure on muscle cross-sectional area, squat one repetition maximum, and performance tests in university soccer players. J Strength Cond Res, 2018. Epub ahead of print.

Simão R, Leite RD, Speretta GFF, et al. Influence of upper-body exercise order on hormonal responses in trained men. Appl Physiol Nutr Metab 38: 177–181, 2013.

Smilios I, Pilianidis T, Karamouzis M, Tokmakidis SP. Hormonal responses after various resistance exercise protocols. Med Sci Sports Exerc 35: 644–654, 2003.

Smilios I, Tsoukos P, Zafeiridis A, Spassis A, Tokmakidisa SP. Hormonal responses after resistance exercise performed with maximum and submaximum movement velocities. Appl Physiol Nutr Metab 39: 351–357, 2014.

Sole CJ, Mizuguchi S, Sato K, Moir GL, Stone MH. Phase characteristics of the countermovement jump force- time curve: A comparison of athletes by jumping ability. J Strength Cond Res 32: 1155–1165, 2018.

Staudenman D, Roeleveld K, Stegeman DF, Van-dieen JH. Methodological aspects of SEMG recordings for force estimation: A tutorial and review. J Electromyogr Kinesiol 20: 375–387, 2010.

Suchomel TJ, Sole CJ, Bailey CA, Grazer JL, Beckham GK. A comparison of reactive strength index-modified between six U.S. Collegiate athletic teams. J Strength Cond Res 29: 1310–1316, 2015.

Suchomel TJ, Wagle JP, Douglas J, et al. Implementing eccentric resistance training - part 1: A brief review of existing methods. J Funct Morphol Kines 4: 38, 2019.

Takarada Y, Nakamura Y, Aruga S, et al. Rapid increase in plasma growth hormone after low-intensity resistance exercise with vascular occlusion. J Appl Physiol 88: 61–65, 2000.

Tan B. Manipulating resistance training program variables to optimize maximum strength in men: A review. J Strength Cond Res 13: 289–304, 1999.

Tanimoto M, Ishii N. Effects of low-intensity resistance exercise with slow movement and tonic force generation on muscular function in young men. J Appl Physiol 100: 1150–1157, 2006.

Tanimoto M, Sanada K, Yamamoto K, et al. Effects of whole-body low-intensity resistance training with slow movement and tonic force generation on muscular size and strength in young men. J Strength Cond Res 22: 1926–1938, 2008.

Tegtbur U, Busse MW, Braumann KM. Estimation of an individual equilibrium between lactate production and catabolism during exercise. Med Sci Sports Exec 25: 620–627, 1993.

Tesch PA, Dudley GA, Duvoisin MR, Hather BM, Harris RT. Force and EMG signal patterns during repeated bouts of concentric or eccentric muscle actions. Acta Physiol Scand 138: 263–271, 1990.

Tillaar van den R. Effect of descent velocity upon muscle activation and performance in two-legged free weight back squats. Sports (Basel) 7: 15, 2019.

Toft I, Lindal S, Bønaa KH, Jenssen T. Quantitative measurement of muscle fiber composition in a normal population. Muscle Nerve 28: 101–108, 2003.

Tran QT, Docherty D. Dynamic training volume: A construct of both time under tension and volume load. J Sports Sci Med 5: 707–713, 2006.

Tran QT, Docherty D, Behm D. The effects of varying time under tension and volume load on acute neuromuscular responses. Eur J Appl Physiol 98: 402–410, 2006.

Watanabe M, Tanimoto A, Ohgane K, et al. Increased muscle size and strength from slow movement, low-intensity resistance exercise and tonic force generation. J Aging Phys Act 1: 71–84, 2013.

West DW, Phillips SM. Associations of exercise-induced hormone profiles and gains in strength and hypertrophy in a large cohort after weight training. Eur J Appl Physiol 112: 2693–2702, 2012.

Wescott WL, Winett RA, Anderson ES, et al. Effects of regular and slow speed resistance training on muscle strength. J Sports Med Phys Fitness 41: 154–158, 2001.

Wilk M, Gepfert M, Krzysztofik M, et al. The influence of grip width on training volume during the bench press with different movement tempos. J Hum Kinet 68: 49–57, 2019.

Wilk M, Golas A, Nawrocka M, Zajac A. The effects of eccentric cadence on power and velocity of the bar during the concentric chase of the bench press movement. J Sports Sci Med 18: 191–197, 2019.

Wilk M, Golas A, Stastny P, et al. Does tempo of resistance exercise impact training volume? J Hum Kinet 62: 241–250, 2018.

Wilk M, Petr M, Krzysztofik M, Zajac A, Stastny P. Endocrine response to high intensity barbell squats performed with constant movement tempo and variable training volume. Neuroendocrinol Lett 39: 342–348, 2018.

Wilk M, Stastny P, Golas A, et al. Physiological responses to different neuromuscular movement task during eccentric bench press. Neuroendocrinol Lett 39: 101–107, 2018.

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