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Metabolomics as an Important Tool for Determining the Mechanisms of Human Skeletal Muscle Deconditioning (2021)
Journal Article
Alldritt, I., Greenhaff, P. L., & Wilkinson, D. J. (2021). Metabolomics as an Important Tool for Determining the Mechanisms of Human Skeletal Muscle Deconditioning. International Journal of Molecular Sciences, 22(24), Article 13575. https://doi.org/10.3390/ijms222413575

Muscle deconditioning impairs both locomotor function and metabolic health, and is associated with reduced quality life and increased mortality rates. Despite an appreciation of the existence of phenomena such as muscle anabolic resistance, mitophagy... Read More about Metabolomics as an Important Tool for Determining the Mechanisms of Human Skeletal Muscle Deconditioning.

Transcriptomic links to muscle mass loss and declines in cumulative muscle protein synthesis during short-term disuse in healthy younger humans (2021)
Journal Article
Willis, C. R., Gallagher, I. J., Wilkinson, D. J., Brook, M. S., Bass, J. J., Phillips, B. E., …Atherton, P. J. (2021). Transcriptomic links to muscle mass loss and declines in cumulative muscle protein synthesis during short-term disuse in healthy younger humans. FASEB Journal, 35(9), Article e21830. https://doi.org/10.1096/fj.202100276RR

Muscle disuse leads to a rapid decline in muscle mass, with reduced muscle protein synthesis (MPS) considered the primary physiological mechanism. Here, we employed a systems biology approach to uncover molecular networks and key molecular candidates... Read More about Transcriptomic links to muscle mass loss and declines in cumulative muscle protein synthesis during short-term disuse in healthy younger humans.

Exploring the impact of COVID-19 on the willingness of older adults to participate in physiology research: views from past and potential volunteers (2021)
Journal Article
Deane, C. S., Gates, A., Traviss-Turner, G. D., Wilkinson, D. J., Smith, K., Atherton, P. J., & Phillips, B. E. (2021). Exploring the impact of COVID-19 on the willingness of older adults to participate in physiology research: views from past and potential volunteers. Applied Physiology, Nutrition, and Metabolism, 46(9), 1147-1151. https://doi.org/10.1139/apnm-2021-0204

We explored the views of older (≥65 years) past and potential volunteers in regard to participating in physiology research during the COVID-19 pandemic. Using an online questionnaire and focus groups, we found that past volunteers (n=55) were more li... Read More about Exploring the impact of COVID-19 on the willingness of older adults to participate in physiology research: views from past and potential volunteers.

Myokine Responses to Exercise in a Rat Model of Low/High Adaptive Potential (2021)
Journal Article
Farrash, W. F., Phillips, B. E., Britton, S. L., Qi, N., Koch, L. G., Wilkinson, D. J., …Atherton, P. J. (2021). Myokine Responses to Exercise in a Rat Model of Low/High Adaptive Potential. Frontiers in Endocrinology, 12, 1-10. https://doi.org/10.3389/fendo.2021.645881

Introduction: Assuming myokines underlie some of the health benefits of exercise, we hypothesised that ‘high responder trainer’ (HRT) rats would exhibit distinct myokine profiles to ‘low responder trainers’ (LRT), reflecting distinct health and adapt... Read More about Myokine Responses to Exercise in a Rat Model of Low/High Adaptive Potential.

Atrophy Resistant vs. Atrophy Susceptible skeletal muscles: “aRaS” as a novel experimental paradigm to study the mechanisms of human disuse atrophy (2021)
Journal Article
Hardy, E., Inns, T., Wilkinson, D., Piasecki, M., Atherton, P., Phillips, B., …Smith, K. (2021). Atrophy Resistant vs. Atrophy Susceptible skeletal muscles: “aRaS” as a novel experimental paradigm to study the mechanisms of human disuse atrophy. Frontiers in Psychology, 12, Article 653060. https://doi.org/10.3389/fphys.2021.653060

Objective: Disuse atrophy (DA) describes inactivity-induced skeletal muscle loss, through incompletely defined mechanisms. An intriguing observation is that individual muscles exhibit differing degrees of atrophy, despite exhibiting similar anatomica... Read More about Atrophy Resistant vs. Atrophy Susceptible skeletal muscles: “aRaS” as a novel experimental paradigm to study the mechanisms of human disuse atrophy.