Music alters heart rate and psychological responses but not muscle activation during light-intensity isometric exercise

Andrew R. Moore; Jasmin C. Hutchinson; Christa Winter; Paul C. Dalton; Lori A. Bolgla; Vincent J. Paolone

doi:10.1016/j.smhs.2024.01.008

Sports Medicine and Health Science ›› 2024, Vol. 6 ›› Issue (4) : 394-401. DOI: 10.1016/j.smhs.2024.01.008

Original article

Music alters heart rate and psychological responses but not muscle activation during light-intensity isometric exercise

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Abstract

Listening to music manipulates attention to be more externally focused, which has the potential to improve muscular efficiency. This study aimed to determine the effect of listening to music on muscle activation during an isometric exercise task, and compare this effect to those of other attentional focus conditions. Apparently healthy subjects (n = 35; 16 men/19 women) completed an isometric elbow flexion task for 1 min in three randomized and counterbalanced conditions: internal focus (INT), external focus with a simple distraction task (EXT), or listening to music (MUS). Muscle activation of the biceps and triceps brachii and heart rate (HR) were recorded throughout the exercise tasks. Ratings of perceived exertion (RPE), affective valence, and motivation were measured at the end of each trial. There was no difference in muscle activation measures among the three conditions. HR during MUS was lower than EXT at 15 s ([89.4 ± 11.8] beats/min vs. [93.1 ± 12.9] beats/min; p = 0.018) and 30 s ([90.6 ± 12.4] beats/min vs. [94.2 ± 12.5] beats/min; p = 0.026), and lower than INT at 60 s ([93.3 ± 13.3] beats/min vs. [96.7 ± 12.0] beats/min; p = 0.016). Overall RPE was higher for INT (13.4 ± 2.2) than for MUS ([12.6 ± 2.0]; p = 0.020) and EXT ([11.94 ± 2.22]; p < 0.001). Affective valence was higher for MUS than for INT ([2.7 ± 1.4] vs. [2.1 ± 1.5]; p = 0.011). Manipulating attentional focus did not alter muscle activation for a light-intensity isometric muscular endurance task, though MUS was reported as more positive and requiring less exertion to complete than INT. Using music can therefore be recommended during light-intensity isometric exercise based on the psychological benefits observed.

Keywords

Electromyography / Attentional focus / Rating of perceived exertion / Elbow flexion

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Andrew R. Moore, Jasmin C. Hutchinson, Christa Winter, Paul C. Dalton, Lori A. Bolgla, Vincent J. Paolone. Music alters heart rate and psychological responses but not muscle activation during light-intensity isometric exercise. Sports Medicine and Health Science, 2024, 6(4): 394‒401 https://doi.org/10.1016/j.smhs.2024.01.008

References

Publishing order | Descend order by publishing year | Descend order by cited within

[[1]]

McCormick

, C.

Meijen

, S.

Marcora

. Psychological determinants of whole-body endurance performance. Sports Med, 45 ( 2015), pp. 997-1015, DOI: 10.1007/s40279-015-0319-6

[[2]]

Wulf

. Attentional focus and motor learning: a review of 15 years. Int Rev Sport Exerc Psychol, 6 (1) ( 2012), pp. 77-104, DOI: 10.1080/1750984X.2012.723728

[[3]]

W.J.

Rejeski

. Perceived exertion: an active or passive process?. J Sport Psychol, 7 (4) ( 1985), pp. 371-378, DOI: 10.1123/jsp.7.4.371

[[4]]

Amann

. Central and peripheral fatigue: interaction during cycling exercise in humans. Med Sci Sports Exerc, 43 (11) ( 2011), pp. 2039-2045, DOI: 10.1249/MSS.0b013e31821f59ab

[[5]]

K.R.

Lohse

, D.E.

Sherwood

. Thinking about muscles: the neuromuscular effects of attentional focus on accuracy and fatigue. Acta Psychol, 140 (3) ( 2012), pp. 236-245, DOI: 10.1016/j.actpsy.2012.05.009

[[6]]

K.R.

Lohse

, D.E.

Sherwood

, A.F.

Healy

. How changing the focus of attention affects performance, kinematics, and electromyography in dart throwing. Hum Mov Sci, 29 (4) ( 2010), pp. 542-555, DOI: 10.1016/j.humov.2010.05.001

[[7]]

Zachry

, G.

Wulf

, J.

Mercer

, N.

Bezodis

. Increased movement accuracy and reduced EMG activity as the result of adopting an external focus of attention. Brain Res Bull, 67 (4) ( 2005), pp. 304-309, DOI: 10.1016/j.brainresbull.2005.06.035

[[8]]

Schücker

, N.

Hagemann

, B.

Strauss

, K.

Völker

. The effect of attentional focus on running economy. J Sports Sci, 27 (12) ( 2009), pp. 1241-1248, DOI: 10.1080/02640410903150467

[[9]]

Wulf

, J.S.

Dufek

, L.

Lozano

, C.

Pettigrew

. Increased jump height and reduced EMG activity with an external focus. Hum Mov Sci, 29 (3) ( 2010), pp. 440-448, DOI: 10.1016/j.humov.2009.11.008

[[10]]

Vance

, G.

Wulf

, T.

Töllner

, N.

McNevin

, J.

Mercer

. EMG activity as a function of the performer's focus of attention. J Mot Behav, 36 (4) ( 2004), pp. 450-459, DOI: 10.3200/JMBR.36.4.450-459

[[11]]

Tucker

. The anticipatory regulation of performance: the physiological basis for pacing strategies and the development of a perception-based model for exercise performance. Br J Sports Med, 43 (6) ( 2009), pp. 392-400, DOI: 10.1136/bjsm.2008.050799

[[12]]

P.C.

Terry

, C.I.

Karageorghis

, M.L.

Curran

, O.V.

Martin

, R.L.

Parsons-Smith

. Effects of music in exercise and sport: a meta-analytic review. Psychol Bull, 146 (2) ( 2020), pp. 91-117, DOI: 10.1037/bul0000216

[[13]]

E. Van

Dyck

, B.

Moens

, J.

Buhmann

, et al.. Spontaneous entrainment of running cadence to music tempo. Sports Med Open, 1 (15) ( 2015), pp. 1-14, DOI: 10.1186/s40798-015-0025-9

[[14]]

C.G.

Ballmann

. The influence of music preference on exercise responses and performance: a review. J Funct Morphol Kinesiol, 6 (2) ( 2021), pp. 33-49, DOI: 10.3390/jfmk6020033

[[15]]

J.C.

Hutchinson

, L.

Jones

, S.N.

Vitti

, A.

Moore

, P.C.

Dalton

, B.J.

O'Neil

. The influence of self-selected music on affect-regulated exercise intensity and remembered pleasure during treadmill running. Sport Exerc Perform Psychol, 7 (1) ( 2018), pp. 80-92, DOI: 10.1037/spy0000115

[[16]]

F.A.M.

Almeida

, R.F.H.

Nunes

, S. dos Santos

Ferreira

, et al.. Effects of musical tempo on physiological, affective, and perceptual variables and performance of self-selected walking pace. J Phys Ther Sci, 27 (6) ( 2015), pp. 1709-1715, DOI: 10.1589/jpts.27.1709

[[17]]

Jebabli

, H.

Zouhal

, Boullosa, et al.. The effects of preferred music and its timing on performance, pacing, and psychophysiological responses during the 6-min test. J Hum Kinet, 82 (1) ( 2022), pp. 123-133, DOI: 10.2478/hukin-2022-0038

[[18]]

M.E.

Maddigan

, K.M.

Sullivan

, I.

Halperin

, F.A.

Basset

, D.G.

Behm

. High tempo music prolongs high intensity exercise. PeerJ, 6 ( 2019), p. e6164, DOI: 10.7717/peerj.6164

[[19]]

P.M.

Nakamura

, G.

Pereira

, C.B.

Papini

, F.Y.

Nakamura

, E.

Kokubun

. Effects of preferred and nonpreferred music on continuous cycling exercise performance. Percept Mot Skills, 110 (1) ( 2010), pp. 257-264, DOI: 10.2466/pms.110.1.257-264

[[20]]

P.C.

Terry

, C.I.

Karageorghis

, A.M.

Saha

, S.

D'Auria

. Effects of synchronous music on treadmill running among elite triathletes. J Sci Med Sport, 15 (1) ( 2012), pp. 52-57, DOI: 10.1016/j.jsams.2011.06.003

[[21]]

Edworthy

, H.

Waring

. The effects of music tempo and loudness level on treadmill exercise. Ergon, 49 (15) ( 2006), pp. 1597-1610, DOI: 10.1080/00140130600899104

[[22]]

J.C.

Hutchinson

, C.I.

Karageorghis

. Moderating influence of dominant attentional style and exercise intensity on responses to asynchronous music. J Sport Exerc Psychol, 35 (6) ( 2013), pp. 625-643, DOI: 10.1123/jsep.35.6.625

[[23]]

J.C.

Hutchinson

, C.I.

Karageorghis

, L.

Jones

. See hear: psychological effects of music and music-video during treadmill running. Ann Behav Med, 49 (2) ( 2015), pp. 199-211, DOI: 10.1007/s12160-014-9647-2

[[24]]

Elliott

, S.

Carr

, D.

Orme

. The effect of motivational music on sub-maximal exercise. Eur J Sport Sci, 5 (2) ( 2005), pp. 97-106, DOI: 10.1080/17461390500171310

[[25]]

M.J.

Stork

, M.

Kwan

, M.J.

Gibala

, K.A. Martin

Ginis

. Music enhances performance and perceived enjoyment of sprint interval exercise. Med Sci Sports Exerc, 47 (5) ( 2015), pp. 1052-1060, DOI: 10.1249/MSS.0000000000000494

[[26]]

Razon

, I.

Basevitch

, W. Land, B.

Thompson

, G.

Tenenbaum

. Perception of exertion and attention allocation as a function of visual and auditory conditions. Psychol Sport Exerc, 10 (6) ( 2009), pp. 636-643, DOI: 10.1016/j.psychsport.2009.03.007

[[27]]

N.R.S.

Silva

, F.G.

Rizardi

, R.A.

Fujita

, M.M.

Villalba

, M.M.

Gomes

. Preferred music genre benefits during strength tests: increased maximal strength and strength-endurance and reduced perceived exertion. Percept Mot Skills, 128 (1) ( 2021), pp. 324-337, DOI: 10.1177/0031512520945084

[[28]]

Bigliassi

, C.I.

Karageorghis

, A.V.

Nowicky

, G.

Orgs

, M.J.

Wright

. Cerebral mechanisms underlying the effects of music during a fatiguing isometric ankle-dorsiflexion task. Psychophysiology, 53 (10) ( 2016), pp. 1472-1483, DOI: 10.1111/psyp.12693

[[29]]

Centala

, C.

Pogorel

, S.W.

Pummill

, M.H.

Malek

. Listening to fast-tempo music delays the onset of neuromuscular fatigue. J Strength Condit Res, 34 (3) ( 2020), pp. 617-622, DOI: 10.1519/JSC.0000000000003417

[[30]]

Faul

, E.

Erdfelder

, A.G.

Lang

, A.G.

Buchner

. ∗Power 3: a flexible statistical power analysis program for the social, behavioral, and biomedical sciences. Behav Res Methods, 39 (2) ( 2007), pp. 175-191, DOI: 10.3758/BF03193146

[[31]]

G.A.V.

Borg

. Psychophysical bases of perceived exertion. Med Sci Sports Exerc, 14 (5) ( 1982), pp. 377-381, DOI: 10.1249/00005768-198205000-00012

[[32]]

M.J.

Chen

, X.

Fan

, S.T.

Moe

. Criterion-related validity of the Borg ratings of perceived exertion scale in healthy individuals: a meta-analysis. J Sports Sci, 20 (11) ( 2002), pp. 873-899, DOI: 10.1080/026404102320761787

[[33]]

M.P.

Krause

, F.L.

Goss

, R.J.

Robertson

, et al.. Concurrent validity of an OMNI rating of perceived exertion scale for bench stepping exercise. J Strength Condit Res, 26 (2) ( 2012), pp. 506-512, DOI: 10.1519/JSC.0b013e318220df8e

[[34]]

Coquart JBJ

. Garcin. Validity and reliability of perceptually-based scales during exhausting runs in trained male runners. Percept Mot Skills, 104 (1) ( 2007), pp. 254-266, DOI: 10.2466/pms.104.1.254-266

[[35]]

C.J.

Hardy

, W.J.

Rejeski

. Not what but how one feels: the measurement of affect during exercise. J Sport Exerc Psychol, 11 (3) ( 1989), pp. 304-317, DOI: 10.1123/jsep.11.3.304

[[36]]

Tammen

. Elite middle and long distance runners associative/dissociative coping. J Appl Sport Psychol, 8 (1) ( 1996), pp. 1-8, DOI: 10.1080/10413209608406304

[[37]]

C.I.

Karageorghis

, J.C.

Hutchinson

, L.

Jones

, et al.. Psychological, psychophysical, and ergogenic effects of music in swimming. Psychol Sport Exerc, 14 (4) ( 2013), pp. 560-568, DOI: 10.1016/j.psychsport.2013.01.009

[[38]]

Tenenbaum

, A.

Kamata

, K.

Hayashi

. Measurement in sport and exercise psychology: a new outlook on selected issues of reliability and validity. G. Tenenbaum, R. Ecklund (Eds.), Handbook of Sport Psychology. 3rd Ed, Wiley ( 2007)

[[39]]

C.I.

Karageorghis

, D.L.

Priest

. Music in the exercise domain: a review and synthesis (Part I). Int Rev Sport Exerc Psychol, 5 (1) ( 2012), pp. 44-66, DOI: 10.1080/1750984X.2011.631026

[[40]]

Stegeman

, H.

Hermens

. Standards for surface electromyography: the European project Surface EMG for non-invasive assessment of muscles (SENIAM). Enschede: Roessingh Res Dev, 10 ( 2007), pp. 8-12

[[41]]

J.A.

Bargh

. The

automaticity of everyday life

. R.S.

Wyer

, T.K.

Srull

(Eds.), Advances of Social Cognition, Routledge ( 2016)

[[42]]

Cohen

.Statistical Power Analysis for the Behavioral Sciences. (2^nd Ed.), Routledge ( 1988). DOI: 10.4324/9780203771587

[[43]]

J.P.

Stevens

. Intermediate Statistics: A Modern Approach. Routledge ( 2013)

[[44]]

Kulinski

, E.K.

Ofori

, A.

Visotcky

, A.

Smith

, R.

Sparapani

, J.L.

Fleg

. Effects of music on the cardiovascular system. Trends Cardiovasc Med, 32 (6) ( 2022), pp. 390-398, DOI: 10.1016/j.tcm.2021.06.004

[[45]]

M.A.

Russo

, D.M.

Santarelli

, D.

O'Rourke

. The physiological effects of slow breathing in the healthy human. Breathe, 13 (4) ( 2017), pp. 298-309, DOI: 10.1183/20734735.009817

[[46]]

Bigliassi

, C.I.

Karageorghis

, D.T.

Bishop

, A.V.

Nowicky

, M.J.

Wright

. Cerebral effects of music during isometric exercise: an fMRI study. Int J Psychophysiol, 133 ( 2018), pp. 131-139, DOI: 10.1016/j.ijpsycho.2018.07.475

[[47]]

Murofushi

, D.

Yamaguchi

, K.

Hirohata

, H.

Furuya

, S.

Mitomo

. Variations in upper limb and trunk muscles activation during isometric exercises with or without exertion of control. Isokinet Exerc Sci, 30 (3) ( 2022), pp. 251-258, DOI: 10.3233/IES-210215

[[48]]

Toyoshima

, R.

Akagi

, K.

Nabeshima

. Isometric exercise during immobilization reduces the time to return to play after lateral ankle sprain. Phys Ther Sport, 52 ( 2021), pp. 168-172, DOI: 10.1016/j.ptsp.2021.09.002

[[49]]

M.A.

Holden

, E.E.

Nicholls

, J.

Young

, E.M.

Hay

, N.E.

Foster

. Role of exercise for knee pain: what do older adults in the community think?. Arthritis Care Res, 64 (10) ( 2012), pp. 1554-1564, DOI: 10.1002/acr.21700

[[50]]

A.J.

Moore

, M.A.

Holden

, N.E.

Foster

, C.

Jinks

. Therapeutic alliance facilitates adherence to physiotherapy-led exercise and physical activity for older adults with knee pain: a longitudinal qualitative study. J Physiother, 66 (1) ( 2020), pp. 45-53, DOI: 10.1016/j.jphys.2019.11.004

[[51]]

Ziv

,R. Lidor. Music, exercise performance, and adherence in clinical populations and in the elderly: a review. J Clin Sport Psychol, 5 (1) ( 2011), pp. 1-23, DOI: 10.1123/jcsp.5.1.1