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  • Nuttall 2025 Exp Physiol AAM

    Accepted author manuscript, 1.02 MB, PDF document

    Available under license: CC BY: Creative Commons Attribution 4.0 International License

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Exercise prehabilitation for brain health and sensory-cognitive function: Mechanistic insights into brain-body interactions

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Forthcoming

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Exercise prehabilitation for brain health and sensory-cognitive function: Mechanistic insights into brain-body interactions. / Nuttall, Helen E; Subar, Daren; Gaffney, Christopher.
In: Experimental Physiology, 05.08.2025.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Nuttall, HE, Subar, D & Gaffney, C 2025, 'Exercise prehabilitation for brain health and sensory-cognitive function: Mechanistic insights into brain-body interactions', Experimental Physiology.

APA

Nuttall, H. E., Subar, D., & Gaffney, C. (in press). Exercise prehabilitation for brain health and sensory-cognitive function: Mechanistic insights into brain-body interactions. Experimental Physiology.

Vancouver

Nuttall HE, Subar D, Gaffney C. Exercise prehabilitation for brain health and sensory-cognitive function: Mechanistic insights into brain-body interactions. Experimental Physiology. 2025 Aug 5.

Author

Nuttall, Helen E ; Subar, Daren ; Gaffney, Christopher. / Exercise prehabilitation for brain health and sensory-cognitive function : Mechanistic insights into brain-body interactions. In: Experimental Physiology. 2025.

Bibtex

@article{8b296f714292405e9883d1d61a532c67,
title = "Exercise prehabilitation for brain health and sensory-cognitive function: Mechanistic insights into brain-body interactions",
abstract = "This mini review article presents a novel hypothesis for extending exercise prehabilitation into the domains of brain health and cognition. Whilst prehabilitation has been gaining popularity in cancer treatment, conferring significant positive benefits to numerous physiological indicators, including post-operative infection and hospital length of stay, the benefits to patients' brain health and cognition are underexplored. There lies a timely and exciting opportunity in expanding prehabilitation to target neural and sensory dysfunction in cancer patients. We review data from healthy adults on the benefits of exercise to brain structure and function, and cognitive and sensory domains. Finally, we review how exercise could improve brain health, as well as sensory systems of the body, which are often negatively affected by cancer and associated treatment. We also outline further physiological contexts outside of cancer in which prehabilitation could also benefit brain health. Through this synthesis, we seek to inspire novel research into prehabilitation and brain health to further improve patient health and wellbeing. ",
author = "Nuttall, {Helen E} and Daren Subar and Christopher Gaffney",
year = "2025",
month = aug,
day = "5",
language = "English",
journal = "Experimental Physiology",
issn = "0958-0670",
publisher = "Wiley",

}

RIS

TY - JOUR

T1 - Exercise prehabilitation for brain health and sensory-cognitive function

T2 - Mechanistic insights into brain-body interactions

AU - Nuttall, Helen E

AU - Subar, Daren

AU - Gaffney, Christopher

PY - 2025/8/5

Y1 - 2025/8/5

N2 - This mini review article presents a novel hypothesis for extending exercise prehabilitation into the domains of brain health and cognition. Whilst prehabilitation has been gaining popularity in cancer treatment, conferring significant positive benefits to numerous physiological indicators, including post-operative infection and hospital length of stay, the benefits to patients' brain health and cognition are underexplored. There lies a timely and exciting opportunity in expanding prehabilitation to target neural and sensory dysfunction in cancer patients. We review data from healthy adults on the benefits of exercise to brain structure and function, and cognitive and sensory domains. Finally, we review how exercise could improve brain health, as well as sensory systems of the body, which are often negatively affected by cancer and associated treatment. We also outline further physiological contexts outside of cancer in which prehabilitation could also benefit brain health. Through this synthesis, we seek to inspire novel research into prehabilitation and brain health to further improve patient health and wellbeing.

AB - This mini review article presents a novel hypothesis for extending exercise prehabilitation into the domains of brain health and cognition. Whilst prehabilitation has been gaining popularity in cancer treatment, conferring significant positive benefits to numerous physiological indicators, including post-operative infection and hospital length of stay, the benefits to patients' brain health and cognition are underexplored. There lies a timely and exciting opportunity in expanding prehabilitation to target neural and sensory dysfunction in cancer patients. We review data from healthy adults on the benefits of exercise to brain structure and function, and cognitive and sensory domains. Finally, we review how exercise could improve brain health, as well as sensory systems of the body, which are often negatively affected by cancer and associated treatment. We also outline further physiological contexts outside of cancer in which prehabilitation could also benefit brain health. Through this synthesis, we seek to inspire novel research into prehabilitation and brain health to further improve patient health and wellbeing.

M3 - Journal article

JO - Experimental Physiology

JF - Experimental Physiology

SN - 0958-0670

ER -