Biological and methodological factors affecting [Formula: see text] response variability to endurance training and the influence of exercise intensity prescription

doi:10.1113/EP089565

Review

. 2021 Jul;106(7):1410-1424.

doi: 10.1113/EP089565. Epub 2021 Jun 8.

Biological and methodological factors affecting ${\dot{V}}_{O_{2} \max}$ response variability to endurance training and the influence of exercise intensity prescription

Samuel Meyler¹, Lindsay Bottoms¹, Daniel Muniz-Pumares¹

Affiliations

PMID: 34036650
DOI: 10.1113/EP089565

Free article

Review

Biological and methodological factors affecting ${\dot{V}}_{O_{2} \max}$ response variability to endurance training and the influence of exercise intensity prescription

Samuel Meyler et al. Exp Physiol. 2021 Jul.

Free article

. 2021 Jul;106(7):1410-1424.

doi: 10.1113/EP089565. Epub 2021 Jun 8.

Authors

Samuel Meyler¹, Lindsay Bottoms¹, Daniel Muniz-Pumares¹

Affiliation

¹ School of Life and Medical Sciences, University of Hertfordshire, Hatfield, UK.

PMID: 34036650
DOI: 10.1113/EP089565

Abstract

New findings: What is the topic of this review? Biological and methodological factors associated with the variable changes in cardiorespiratory fitness in response to endurance training. What advances does it highlight? Several biological and methodological factors exist that each contribute, to a given extent, to response variability. Notably, prescribing exercise intensity relative to physiological thresholds reportedly increases cardiorespiratory fitness response rates compared to when prescribed relative to maximum physiological values. As threshold-based approaches elicit more homogeneous acute physiological responses among individuals, when repeated over time, these uniform responses may manifest as more homogeneous chronic adaptations thereby reducing response variability.

Abstract: Changes in cardiorespiratory fitness (CRF) in response to endurance training (ET) exhibit large variations, possibly due to a multitude of biological and methodological factors. It is acknowledged that ∼20% of individuals may not achieve meaningful increases in CRF in response to ET. Genetics, the most potent biological contributor, has been shown to explain ∼50% of response variability, whilst age, sex and baseline CRF appear to explain a smaller proportion. Methodological factors represent the characteristics of the ET itself, including the type, volume and intensity of exercise, as well as the method used to prescribe and control exercise intensity. Notably, methodological factors are modifiable and, upon manipulation, alter response rates to ET, eliciting increases in CRF regardless of an individual's biological predisposition. Particularly, prescribing exercise intensity relative to a physiological threshold (e.g., ventilatory threshold) is shown to increase CRF response rates compared to when intensity is anchored relative to a maximum physiological value (e.g., maximum heart rate). It is, however, uncertain whether the increased response rates are primarily attributable to reduced response variability, greater mean changes in CRF or both. Future research is warranted to elucidate whether more homogeneous chronic adaptations manifest over time among individuals, as a result of exposure to more homogeneous exercise stimuli elicited by threshold-based practices.

Keywords: cardiorespiratory fitness; endurance training; exercise prescription; response variability.

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References

REFERENCES

1. American College of Sports Medicine. (2017). ACSM's guidelines for exercise testing and prescription, 10th ed. Baltimore, Philadelphia: Lippincott Williams & Wilkins.
1. Ansdell, P., Brownstein, C. G., Škarabot, J., Hicks, K. M., Howatson, G., Thomas, K., Hunter S. K., & Goodall, S. (2019). Sex differences in fatigability and recovery relative to the intensity-duration relationship. Journal of Physiology, 597(23), 5577-5595. https://doi.org/10.1113/JP278699
1. Ansdell, P., Thomas, K., Hicks, K. M., Hunter, S. K., Howatson, G., & Goodall, S. (2020). Physiological sex differences affect the integrative response to exercise: Acute and chronic implications. Experimental Physiology, 105, 2007-2021. https://doi.org/10.1113/EP088548
1. Astorino, T. A., & Schubert, M. M. (2014). Individual responses to completion of short-term and chronic interval training: A retrospective study. PLoS One, 9(5), e97638. https://doi.org/10.1371/journal.pone.0097638
1. Atkinson, G., Williamson, P., & Batterham, A. M. (2019). Issues in the determination of ‘responders’ and ‘non-responders’ in physiological research. Experimental Physiology, 104, 1215-1225. https://doi.org/10.1113/EP087712

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[1] American College of Sports Medicine. (2017). ACSM's guidelines for exercise testing and prescription, 10th ed. Baltimore, Philadelphia: Lippincott Williams & Wilkins.

[2] American College of Sports Medicine. (2017). ACSM's guidelines for exercise testing and prescription, 10th ed. Baltimore, Philadelphia: Lippincott Williams & Wilkins.

[3] Ansdell, P., Brownstein, C. G., Škarabot, J., Hicks, K. M., Howatson, G., Thomas, K., Hunter S. K., & Goodall, S. (2019). Sex differences in fatigability and recovery relative to the intensity-duration relationship. Journal of Physiology, 597(23), 5577-5595. https://doi.org/10.1113/JP278699

[4] Ansdell, P., Brownstein, C. G., Škarabot, J., Hicks, K. M., Howatson, G., Thomas, K., Hunter S. K., & Goodall, S. (2019). Sex differences in fatigability and recovery relative to the intensity-duration relationship. Journal of Physiology, 597(23), 5577-5595. https://doi.org/10.1113/JP278699

[5] Ansdell, P., Thomas, K., Hicks, K. M., Hunter, S. K., Howatson, G., & Goodall, S. (2020). Physiological sex differences affect the integrative response to exercise: Acute and chronic implications. Experimental Physiology, 105, 2007-2021. https://doi.org/10.1113/EP088548

[6] Ansdell, P., Thomas, K., Hicks, K. M., Hunter, S. K., Howatson, G., & Goodall, S. (2020). Physiological sex differences affect the integrative response to exercise: Acute and chronic implications. Experimental Physiology, 105, 2007-2021. https://doi.org/10.1113/EP088548

[7] Astorino, T. A., & Schubert, M. M. (2014). Individual responses to completion of short-term and chronic interval training: A retrospective study. PLoS One, 9(5), e97638. https://doi.org/10.1371/journal.pone.0097638

[8] Astorino, T. A., & Schubert, M. M. (2014). Individual responses to completion of short-term and chronic interval training: A retrospective study. PLoS One, 9(5), e97638. https://doi.org/10.1371/journal.pone.0097638

[9] Atkinson, G., Williamson, P., & Batterham, A. M. (2019). Issues in the determination of ‘responders’ and ‘non-responders’ in physiological research. Experimental Physiology, 104, 1215-1225. https://doi.org/10.1113/EP087712

[10] Atkinson, G., Williamson, P., & Batterham, A. M. (2019). Issues in the determination of ‘responders’ and ‘non-responders’ in physiological research. Experimental Physiology, 104, 1215-1225. https://doi.org/10.1113/EP087712

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Biological and methodological factors affecting ${\dot{V}}_{O_{2} \max}$ response variability to endurance training and the influence of exercise intensity prescription

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Biological and methodological factors affecting ${\dot{V}}_{O_{2} \max}$ response variability to endurance training and the influence of exercise intensity prescription

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