About
Joined the ThermosenseLab in September 2022, to conduct a PhD (co-funded by Nike and EPSRC) that will investigate female thermoregulation across the lifespan with applications to new sportswear for females.
Research
Research groups
Member of:
Research interests
- Thermal Physiology
- Gender differences
- Aerospace Physiology
Current research
Currently researching breast thermomechanics during exercise in the heat.
Publications
9 publications
Page 1 of 1
Hannah Blount, Alessandro Valenza, Jade Ward, Silvia Caggiari, Peter R Worsley & Davide Filingeri,
2024, Experimental Physiology
DOI: 10.1113/EP092158
Type: article
Hannah Blount, Alessandro Valenza, Jade Ward, Silvia Caggiari, Peter R. Worsley & Davide Filingeri,
2024, Experimental Physiology, 109(10), 1698-1709
DOI: 10.1113/EP091990
Type: article
Hannah Blount, Alessandro Valenza, Jade Ward, Silvia Caggiari, Peter R. Worsley & Davide Filingeri,
2024, Experimental Physiology
Type: article
Davide Filingeri, Hannah Blount & Alessandro Valenza,
2024, Experimental Physiology
DOI: 10.1113/EP091454
Type: review
Davide Filingeri, Hannah Blount & Jade Ward,
2024, The Journal of Physiology, 602(5), 769-770
DOI: 10.1113/JP286333
Type: article
Alessandro Valenza, Hannah Blount, Antonino Bianco, Peter R. Worsley & Davide Filingeri,
2023, Experimental Physiology
DOI: 10.1113/EP091533
Type: article
Hannah Blount, Alessandro Valenza, Jade Ward, Pete Worsley, Silvia Caggiari, Grant Simmons & Davide Filingeri,
2023
Type: conference
Hannah Blount,
2023
Type: conference
Alessandro Valenza, Charlotte Merrick, Hannah Blount, Jade Ward, Antonino Bianco, Peter R. Worsley & Davide Filingeri,
2023, Physiology & Behavior, 262
Type: article
Biography
Completed a BSc in Sport and Exercise Science at the University of Leeds (Dissertation: The effects of Nike Vaporfly shoes on the mechanics of natural foot springs and running economy in male and female runners) and an MSc in Human and Applied Physiology at King’s College London (Dissertation: The physiology and biomechanics of ambulation in partial gravity with the use of a simulated microgravity horizontal suspension system).