Search Results - Herbert, A. J.
- Showing 1 - 7 results of 7
-
1
Collagen gene polymorphisms previously associated with resistance to soft-tissue injury are more common in competitive runners than nonathletes
Dines, H. R., Nixon, J., Lockey, S. J., Herbert, A. J., Kipps, C., Pedlar, C. R., Day, S. H., Heffernan, S. M., Antrobus, M. R., Brazier, J., Erskine, R. M., Stebbings, G. K., Hall, E. C. R., Williams, A. G.Published in The Journal of Strength and Conditioning Research (2023)“…Herbert, A. J.…”
-
2
The PPARGC1A Gly482Ser polymorphism is associated with elite long-distance running performance
Hall, E. C., Lockey, S. J., Heffernan, S. M., Herbert, A. J., Stebbings, G. K., Day, S. H., Collins, M., Pitsiladis, Y. P., Erskine, R. M., Williams, A. G.Published in Journal of Sports Sciences (2023)“…Herbert, A. J.…”
-
3
-
4
-
5
Genetic polymorphisms related to VO2max adaptation are associated with elite rugby union status and competitive marathon performance
Hall, E. C. R., Almeida, S. S., Heffernan, S. M., Lockey, S. J., Herbert, A. J., Callus, P., Day, S. H., Pedlar, C. R., Kipps, C., Collins, M., Pitsiladis, Y. P., Bennett, M. A., Kilduff, L. P., Stebbings, G. K., Erskine, R. M., Williams, A. G.Published in International Journal of Sports Physiology and Performance (2021)“…Herbert, A. J.…”
-
6
-
7
Search Tools:
Related Subjects
long distance running
genetics
performance
sports medicine
bone
injury
load
mineral
endurance
high performance sport
marathon running
relation
running
track and field
O2-uptake
analysis
disease
endurance events
exercise / load tolerance
fibre
health
load frequency
long-term endurance
maximum
menstruation
muscle
rugby
sport physiology
training
volume