Literature DB >> 19196729

Self-paced exercise is less physically challenging than enforced constant pace exercise of the same intensity: influence of complex central metabolic control.

P J Lander1, R J Butterly, A M Edwards.   

Abstract

OBJECTIVE: To examine whether self-pacing reduces the physiological challenge of performing 5000 m rowing ergometry exercise in comparison with a matched-intensity exercise condition in which a constant effort pacing strategy is enforced.
METHODS: Nine healthy well-trained male participants volunteered to participate in three 5000 m rowing conditions (two submaximal and one maximal conditions) in an individualised order. In the submaximal conditions, participants were required to (1) perform 5000 m at a constant rating of perceived exertion (RPE 15-Hard) (SubRPE) or (2) perform 5000 m at an enforced constant pace equivalent to the mean power output (PO) of the SubRPE condition (SubEXT). A maximal condition (MaxTT) was included to disguise the purpose of the study and to facilitate an element of randomisation in the test sequence. Dynamic intratest responses were assessed every 30 s: PO, VO2, iEMG, core (Tc) and skin temperatures (Tsk).
RESULTS: There was no difference between performance times of the two submaximal trials. The mean PO represented 83.83 (SD 8.88)% (SubRPE) and 83.40 (8.84)% (SubEXT) of the mean MaxTT power output. Tc (SubRPE:38.46 (0.23) degrees C, SubEXT:38.72 (0.36) degrees C; p<0.01), post-test BLa (SubRPE:5.24 (2.18), SubEXT:6.19 (2.51) mmol/l; p<0.05) and iEMG (p<0.05) were significantly elevated in SubEXT compared with SubRPE. There were no differences in the dynamics of HR or VO2 between SubEXT and SubRPE. The intratest stroke-to-stroke variability of power output was significantly greater in the SubRPE condition compared with SubEXT (p<0.01).
CONCLUSIONS: Enforced constant paced exercise presents a significantly greater physiological challenge than self-paced exercise. The ability to dynamically self-pace effort via manipulations of power output during exercise is an important behavioural response to homeostatic challenges and thus forms an integral part of a complex central regulatory process.

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Year:  2009        PMID: 19196729     DOI: 10.1136/bjsm.2008.056085

Source DB:  PubMed          Journal:  Br J Sports Med        ISSN: 0306-3674            Impact factor:   13.800


  26 in total

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4.  The effect of an even-pacing strategy on exercise tolerance in well-trained cyclists.

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Journal:  Eur J Appl Physiol       Date:  2013-10-02       Impact factor: 3.078

5.  Individual versus Standardized Running Protocols in the Determination of VO2max.

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7.  Physiological and Perceived Effects of Forearm or Head Cooling During Simulated Firefighting Activity and Rehabilitation.

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Review 8.  Pacing and decision making in sport and exercise: the roles of perception and action in the regulation of exercise intensity.

Authors:  Benjamin L M Smits; Gert-Jan Pepping; Florentina J Hettinga
Journal:  Sports Med       Date:  2014-06       Impact factor: 11.136

9.  Oxford and Cambridge Boat Race: Performance, Pacing and Tactics Between 1890 and 2014.

Authors:  Andrew M Edwards; Joshua H Guy; Florentina J Hettinga
Journal:  Sports Med       Date:  2016-10       Impact factor: 11.136

10.  Adding sleep restriction to the equation: impact on wildland firefighters' work performance and physiology in hot conditions.

Authors:  Grace E Vincent; Sally Ferguson; Brianna Larsen; Nicola D Ridgers; Rod Snow; Brad Aisbett
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